Gait Analysis R
Date of amputation: 28 Cause of amputation: ❏❏❏❏
Other: Amputation Level: ❏❏❏❏ M
Other: Affected side : !!!! Right
Device category : !!!! Pro Device type: ❏❏❏❏ Clamshe Other: After viewing the socket as the flexible boot Describe device: Carbonextends above the ankle areinforcing foot plate. Pro
eporting Form
October 1996
PVD !!!! Trauma ❏❏❏❏ DM
TP ❏❏❏❏ TMT !!!! Lisfranc ❏❏❏❏
❏❏❏❏ Left
sthesis ❏❏❏❏ Orthosis
ll PTB !!!! Below ankle socket
kinematic data it was decided thaie didn't appear to limit ankle mo
fibre below ankle socket with flend closes with velcro posteriorly.sthesis covered in leather.
Subject ID: 0704-0403A
❏❏❏❏ Gangrene ❏❏❏❏ other
Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
t the device should be a below ankle tion.
xible acrylic resin bootie, which EVA toe filler without foot
Amputated limb: !!!! R Left
Degs.
131 Flexion (0
20 Extension
47 Abduction
17 Adduction
35 Internal r
40 External r
Comment
142 Flexion (0
Comment
3 Dorsiflexi
62 Plantarfle
30 Inversion
13 Eversion (
Comment
Gait Analysis RSubject ID : 0704-0403A
eporting Form
ight ❏❏❏❏ Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 133
(0-30°°°°) 20
(0-45°°°°) 45
(0-30°°°°) 15
otation (0-45°°°°) 37
otation (0-45°°°°) 38
s:
Knee
-135°°°°) 143
s:
Ankle
on (0-20°°°°) 6
xion (0-50°°°°) 45
(0-35°°°°) 23
0-15°°°°) 3
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 0704-0403A
eporting Form
ght ❏❏❏❏ Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 0704-0403A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-9 5.2364 BF2 81-100 5.9088
TA1 1-7 24.5582TA2 56-100 10.9556
GM1 16-45 7.3086
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 0704-0403A
0 20 400
50
100Vastus Late
0 20 400
50
100Gastrocnemius La
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cycle
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-13 5.7882 VL2 85-100 3.5285
GL1 13-44 9.9113
SOL1 1-49 10.8235 SOL2 91-100 5.4591
60 80 100
ralis (-)
Active
60 80 100
teral Head (-)
60 80 100
(-)
[%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!!7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 0704-0403A
0 20 40 600
5
10
15
20Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
20
40
60
80Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 54.7759 0.7223
ead 56.6227 0.7234 ead 63.7231 0.6454
63.7705 0.6867 ead 47.3650 0.7261
71.6632 0.6104
0 20 40 60 80 1000
10
20
30
40
50Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
10
20
30
40Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
5
10
15
20
25Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!! Note: The thresholthat reasonable mufrom visual inspect
Gait Analysis RSubject ID : 0704-0403A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
eporting Form
7 ❏❏❏❏ Other(n = _ )
ds for Vastus Lateralis was reduced from 5% MMT to 3%MMT so scle on/off times could be determined in line with those expected ion of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 3%MMT
Gait Analysis RSubject ID : 0704-0403A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 26.2878 HA2 53 -8.1704 HA3 63 -0.3760 HA4 87 32.9863 HA5 100 25.5468
KA1 1 -0.1160 KA2 17 15.7838 KA3 63 42.7409 KA4 74 65.5378 KA5 100 1.2287
AA1 1 1.4199 AA2 10 -7.4270 AA3 47 11.5869 AA4 63 -16.5546AA5 67 -20.9538AA6 100 1.0851
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 0704-0403A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 - - HM2 49 -0.6902HM3 93 0.4837
KM1 - - KM2 15 0.6808KM3 43 -0.3122KM4 59 0.1459KM5 93 -0.3254
AM1 8 -0.1880AM2 49 1.8042
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 0704-0403A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 13 0.2006 HP2 46 -0.4660 HP3 66 1.1154 HP4 93 0.5491
KP1 11 -0.8581 KP2 21 0.3884 KP3 60 -0.7011 KP4 91 -1.8166
AP1 41 -1.1459 AP2 55 3.6517
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 0704-0403A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 12 -2.0680 FX2 53 1.6755
FZ1 15 12.2670 FZ2 30 7.2487 FZ3 48 11.6235
AX1 1 0 AX2 61 100.5374
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 0704-0403A
Stature (m) : 1.837 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.9305 0.968
Leg 3.1427 3.423
Thigh 8.4498 9.000
PS - 0.618
FPS - 1.586
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 81.45 Age (years): 22
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
7 0.0625 0 -0.0371 0.0009 0.0053 0.0057
2 0 0 -0.1708 0.0455 0.0463 0.0047
1 0 0 -0.1971 0.1392 0.1442 0.0263
0 0.0700 0 -0.0580 - 0.0058 -
7 0.0654 0 -0.0453 - 0.0113 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 0704-0403A
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 355.9293 0.9647 Fy 60.7358 0.8900 Fz 9.5034 0.9890
CV(%) CMC Ax 18.0579 0.9688
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 0704-0403A
CV
Ankle 15
Knee 9.
Hip 12
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
4.7951
0.9740 17.9618 0.9851 145.3449 0.9539
9154 0.9886 1035.9 0.9239 76.2155 0.9167
.1032 0.9879 236.9037 0.9148 74.6960 0.9085
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 0704-0403A
eporting Form
Mean SD Range Min Max
1.1143 0.0162 0.0400 1.0900 1.1300
0.6971 0.0138 0.0400 0.6800 0.7200
0.4171 0.0095 0.0200 0.4100 0.4300
62.5629 0.7277 1.8986 61.8182 63.7168
37.4371 0.7277 1.8986 36.2832 38.1818
GC) 50.6684 0.4854 1.5337 50.0000 51.5337
1.4303 0.0141 0.0361 1.4159 1.4520
e 0.7786 0.0077 0.0196 0.7708 0.7904
/s) 1.2839 0.0274 0.0631 1.2530 1.3161
ture 0.6989 0.0149 0.0343 0.6821 0.7164
te) 107.7118 1.5698 3.8970 106.1947 110.0917
0.3215 0.0159 0.0491 0.2992 0.3483
) 105.3958 5.2043 16.0983 98.0984 114.1967
0.4427 0.0166 0.0458 0.4195 0.4653
) 38.3560 1.1459 3.1469 37.0228 40.1697
0.1436 0.0091 0.0232 0.1312 0.1544
C) 12.4403 0.7538 1.8197 11.3273 13.1470
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 0704-0403A
Gait cycle (sec) : 1.1143 Side analysed : ❏❏❏❏ Right !!!! Left Stance time (sec) : 0.6971 Stance time (%GC) : 62.5629 Swing Time (sec) : 0.4171 Swing time (%GC) : 37.4371 Single support (sec) : 0.4427 Single support (%GC) : 38.3560 Double support - HC (sec) : 0.1436 Double support - HC (%GC) : 12.4403 Cadence (Steps/min) : 107.7118 Contralateral HC (%GC) : 50.6684 Stride length (m) : 1.4303 Stride length / Stature : 0.7786 Walking velocity (m/s) : 1.2839 Walking velocity/ Stature: 0.6989 CoP excursion (m): 0.3215 CoP (%SL): 105.3958 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!!7 ❏❏❏❏ Other (n = )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 28 Cause of amputation: ❏❏❏❏
Other: Amputation Level: ❏❏❏❏ M
Other: Affected side : !!!! Right
Device category : !!!! Pro Device type: ❏❏❏❏ Clamshe Other: After viewing the socket as the flexible boot Describe device: Carbonextends above the ankle areinforcing foot plate. Pro
eporting Form
October 1996
PVD !!!! Trauma ❏❏❏❏ DM
TP ❏❏❏❏ TMT !!!! Lisfranc ❏❏❏❏
❏❏❏❏ Left
sthesis ❏❏❏❏ Orthosis
ll PTB !!!! Below ankle socket
kinematic data it was decided thaie didn't appear to limit ankle mo
fibre below ankle socket with flend closes with velcro posteriorly.sthesis covered in leather.
Subject ID: 0704-0403A
❏❏❏❏ Gangrene ❏❏❏❏ other
Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
t the device should be a below ankle tion.
xible acrylic resin bootie, which EVA toe filler without foot
Amputated limb: !!!! R Left
Degs.
131 Flexion (0
20 Extension
47 Abduction
17 Adduction
35 Internal r
40 External r
Comment
142 Flexion (0
Comment
3 Dorsiflexi
62 Plantarfle
30 Inversion
13 Eversion (
Comment
Gait Analysis RSubject ID : 0704-0403A
eporting Form
ight ❏❏❏❏ Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 133
(0-30°°°°) 20
(0-45°°°°) 45
(0-30°°°°) 15
otation (0-45°°°°) 37
otation (0-45°°°°) 38
s:
Knee
-135°°°°) 143
s:
Ankle
on (0-20°°°°) 6
xion (0-50°°°°) 45
(0-35°°°°) 23
0-15°°°°) 3
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 0704-0403A
eporting Form
ght ❏❏❏❏ Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 0704-0403A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
Threshold = 2.5%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-5 8.8024 BF2 79-100 10.1604
TA1 1-8 19.2661TA2 55-100 9.0108
GM1 11-29 3.7653 GM2 37-56 5.7927
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 0704-0403A
0 20 400
50
100Vastus Late
0 20 400
50
100Gastrocnemius La
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cycle
Threshold = 2.5%MMT
Threshold = 6%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-16 3.5926 VL2 89-100 2.7726
GL1 29-53 14.9461
SOL1 32-49 13.4319
60 80 100
ralis (-)
Active
60 80 100
teral Head (-)
60 80 100
(-)
[%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 0704-0403A
0 20 40 600
5
10
15
20
25Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40
50Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 68.7047 0.6903
ead 60.4267 0.7944 ead 76.9830 0.5589
58.2737 0.7142 ead 65.9468 0.6442
55.4395 0.4591
0 20 40 60 80 1000
10
20
30
40
50Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
10
20
30
40
50Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
5
10
15Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 Note: The thresholfrom 5% MMT to 25%MMT to 6%MMline with those expe
Gait Analysis RSubject ID : 0704-0403A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Threshold = 2.5%MMT
eporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
ds for Gastrocnemius Lateral Head, Vastus Lateralis were reduced .5%MMT and the threshold for soleus was increased from T so that reasonable muscle on/off times could be determined in cted from visual inspection of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 2.5%MMT
Threshold = 6%MMT
Gait Analysis RSubject ID : 0704-0403A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 25.5765 HA2 49 -9.8182 HA3 61 1.6646 HA4 86 33.3317 HA5 100 25.5974
KA1 1 -1.6054 KA2 18 14.6716 KA3 61 38.5536 KA4 73 64.3107 KA5 100 -2.5947
AA1 1 2.8509 AA2 10 -8.9850 AA3 52 12.9409 AA4 61 -2.7866 AA5 68 -14.3449AA6 100 0.1847
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 0704-0403A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 - - HM2 49 -0.5109HM3 93 0.3168
KM1 - - KM2 17 0.7793KM3 43 -0.0444KM4 59 0.1235KM5 94 -0.2878
AM1 8 -0.2172AM2 50 1.0964
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 0704-0403A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 6 0.4791 HP2 41 -0.3372 HP3 61 1.0342 HP4 93 0.3842
KP1 12 -0.9915 KP2 22 0.5596 KP3 58 -0.7442 KP4 91 -1.5719
AP1 46 -1.2147 AP2 56 1.2789
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 0704-0403A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 13 -1.9323 FX2 51 1.6358
FZ1 15 11.3058 FZ2 31 7.6554 FZ3 45 10.7335
AX1 1 0 AX2 60 93.7901
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 0704-0403A
Stature (m) : 1.837 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.6703 0.716
Leg 2.8659 3.124
Thigh 8.8137 9.385
PS - 1.085
FPS - 1.801
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 81.45 Age (years): 22
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
9 0.0212 0 -0.0352 0.0006 0.0014 0.0017
5 0 0 -0.1711 0.0423 0.0430 0.0039
5 0 0 -0.1959 0.1459 0.1494 0.0283
0 0.0500 0 -0.0430 - 0.0078 -
9 0.0385 0 -0.0399 - 0.0096 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 0704-0403A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 390.7459 0.9706 Fy 51.9039 0.8913 Fz 10.4138 0.9876
CV(%) CMC Ax 27.5148 0.9257
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 0704-0403A
CV
Ankle 45
Knee 15
Hip 10
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
4.772 0.9797 22.1451 0.9780 141.5434 0.9020
.4155 0.9800 80.2481 0.9247 84.3083 0.8868
.9441 0.9895 833.0409 0.9035 52.7804 0.9081
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 0704-0403A
eporting Form
Mean SD Range Min Max
1.1467 0.0225 0.0500 1.1200 1.1700
0.7033 0.0151 0.0400 0.6800 0.7200
0.4433 0.0175 0.0500 0.4200 0.4700
61.3434 1.0854 2.7796 59.8291 62.6087
38.6566 1.0854 2.7796 37.3913 40.1709
GC) 48.8470 0.5526 1.2567 48.1481 49.4048
1.4532 0.0302 0.0821 1.3969 1.4790
e 0.7910 0.0164 0.0447 0.7604 0.8051
/s) 1.2679 0.0433 0.1058 1.2147 1.3205
ture 0.6902 0.0236 0.0577 0.6612 0.7189
te) 104.6849 2.0643 4.5788 102.5641 107.1429
0.3081 0.0078 0.0210 0.3029 0.3239
) 101.0219 2.5664 6.8852 99.3115 106.1967
0.4159 0.0107 0.0284 0.4064 0.4348
) 36.5225 0.8036 2.1153 35.7380 37.8533
0.1332 0.0072 0.0161 0.1238 0.1399
C) 11.6945 0.6485 1.6169 10.7914 12.4083
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 0704-0403A
Gait cycle (sec) : 1.1467 Side analysed : !!!! Right ❏❏❏❏ Left Stance time (sec) : 0.7033 Stance time (%GC) : 61.3434 Swing Time (sec) : 0.4433 Swing time (%GC) : 38.6566 Single support (sec) : 0.4159 Single support (%GC) : 36.5225 Double support - HC (sec) : 0.1332 Double support - HC (%GC) : 11.6945 Cadence (Steps/min) : 104.6849 Contralateral HC (%GC) : 48.8470 Stride length (m) : 1.4532 Stride length / Stature : 0.7910 Walking velocity (m/s) : 1.2679 Walking velocity/ Stature : 0.6902 CoP excursion (m): 0.3081 CoP (%SL): 101.0219 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis
Date of amputation: Ma Cause of amputation: ❏❏❏❏
Other: Gangrene Amputation Level: ❏❏❏❏ M
Other: with bilat Affected side : !!!! Righ
Device category : !!!! Pr Device type: !!!!Clamsh Other: Describe device: PTB soanterior surface of the sofoot length was made fro
Reporting Form
rch 1970
PVD !!!! Trauma ❏❏❏❏ DM
secondary to H2O burns
TP ❏❏❏❏ TMT ❏❏❏❏ Lisfranc !!!!
eral partial posterior resection o
t !!!! Left
osthesis ❏❏❏❏ Orthosis
ell PTB ❏❏❏❏ Below ankle socket
ckets with posterior window. Ancket, which extended the foot lenm EVA extending from the sole.
Subject ID: 0904-1924A
!!!! Gangrene ❏❏❏❏ other
Chopart !!!! other
f the calcaneus
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
extension was laminated onto the gth to the toe break. The remaining
Amputated limb: !!!! R Left
Degs.
124 Flexion (0
18 Extension
42 Abductio
23 Adductio
35 Internal r
42 External
Comment
143 Flexion (0
Comment
7 Dorsiflexi
32 Plantarfle
2 Inversion
2 Eversion
Comment
Gait Analysis Subject ID : 0904-1924A
Reporting Form
ight !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 122
(0-30°°°°) 20
n (0-45°°°°) 40
n (0-30°°°°) 24
otation (0-45°°°°) 38
rotation (0-45°°°°) 41
s:
Knee
-135°°°°) 142
s:
Ankle
on (0-20°°°°) 9
xion (0-50°°°°) 28
(0-35°°°°) 2
(0-15°°°°) 2
s:
Amputated limb: !!!! R Left
5 Flexion
5 Extensio
5 Adducti
5 Abducti
5 Internal
5 Externa
5 Flexion
5 Extensio
5 Dorsifle
5 Plantarf
5 Internal
5 Externa
Gait Analysis Subject ID : 0904-1924A
Reporting Form
ight !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
on 5
on 5
rotation 5
l rotation 5
Knee
5
n 5
Ankle
xion 5
lexion 5
rotation 5
l rotation 5
Gait Analysis Subject ID : 0904-1924A
0 20 400
50
100Biceps F
0 20 400
50
100Tibialis A
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius
Gait Cy
Reporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-5 9.5902 BF2 14-45 7.1492 BF3 78-100 10.2642
60 80 100
emoris (-)
Active
60 80 100
nterior (-)
60 80 100
medial head (-)
cle [%]
Gait Analysis Subject ID : 0904-1924A
0 20 400
50
100Vastus Lat
0 20 400
50
100Gastrocnemius L
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cyc
Threshold = 2.5%MMT
Reporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-17 5.7337 VL2 86-100 4.2488
60 80 100
eralis (-)
Active
60 80 100
ateral Head (-)
60 80 100
(-)
le [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral Gastrocnemius Medial Tibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis Subject ID : 0904-1924A
0 20 40 60-1
-0.5
0
0.5
1Gastrocnemius Medial
Gait Cycle [%]
0 20 40 60-1
-0.5
0
0.5
1Tibialis Anterior (
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30
40Biceps Femoris (
Reporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC
- - Head - - Head - -
- - ead 56.3573 0.5939
66.6010 0.6727
0 20 40 60 80 100-1
-0.5
0
0.5
1Soleus (-)
Gait Cycle [%]
0 20 40 60 80 100-1
-0.5
0
0.5
1Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
head (-)
80 100
-)80 100
-)
0 20 40 60 80 1000
5
10
15
20
25Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 Note: The threshoso that reasonablefrom visual inspec EMG data was botas these were locafree from artifact gthe socekt.
Gait Analysis Subject ID : 0904-1924A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cyc
0 20 400
20
40
60
80
100Tibialis An
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Reporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
lds for Vastus Lateralis was reduced from 5%MMT to 2.5% MMT muscle on/off times could be determined in line with those expected tion of multiple MMT data presented.
collected for Tibialis Anterior or any of the Triceps Surae muscles ted within the socket and the quality of the data was not sufficiently enerated by the surface of the electrode rubbing on the inside of
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
le [%]
60 80 100
terior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 2.5%MMT
Gait Analysis Subject ID : 0904-1924A
0 20 40
-20
0
20
40
Hip A
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
Reporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 24.8381 HA2 49 -7.8586 HA3 60 1.9082 HA4 90 26.7678 HA5 100 24.0804
KA1 1 -3.8447 KA2 18 6.2902 KA3 60 24.3876 KA4 72 50.9301 KA5 100 -3.7951
AA1 1 -0.1620 AA2 13 -6.0929 AA3 54 4.7822 AA4 60 0.9220 AA5 69 -5.1824 AA6 100 -1.2098
60 80 100
ngle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis Subject ID : 0904-1924A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Kne
(Nm/kg) Ext. >
0 20 40
0
1
2
Ank
Ga
(Nm/kg) Ext. >
Reporting Form
Event Time (% GC)
Moment (Nm/kg)
HM1 3 0.9591 HM2 61 -0.2428HM3 94 0.3317
KM1 3 -0.5324KM2 18 0.0594 KM3 44 -0.7969KM4 - - KM5 94 -0.2394
AM1 - - AM2 - -
60 80 100
Moment (-)
60 80 100
e Moment (-)
60 80 100
le Moment ()
it Cycle [%]
Gait Analysis Subject ID : 0904-1924A
0 20 40-1
0
1
2
Hi
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kn
(W/kg) Gen. >
0 20 40-2
0
2
4
6An
(W/kg) Gen. >
Ga
Reporting Form
Event Time (% GC)
Power (W/kg)
HP1 16 0.7824 HP2 49 -0.0032 HP3 61 0.4365 HP4 97 0.1480
KP1 - - KP2 - - KP3 61 -0.2858 KP4 91 -0.8748
AP1 - - AP2 - -
60 80 100
p Power (-)
60 80 100
ee Power (-)
60 80 100
kle Power ()
it Cycle [%]
Gait Analysis Reporting Form
Subject ID : 0904-1924A
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 10 -0.7985 FX2 51 1.6161
FZ1 16 11.2051 FZ2 32 8.1777 FZ3 46 10.4758
AX1 1 0 AX2 58 86.9385
0 20 40 60 80 100
-2
0
2
Fx (-)
(N/kg)
0 20 40 60 80 1000
5
10
Fz (-)
(N/kg)
0 20 40 60 80 1000
50
100
Ax (-)
(%IFL)
Gait Cycle [%]
Note: Anthropometric cmathematical model buexperiments. Density wnecessary because theindividuals with both for
Gait Analysis Subject ID : 0904-1924A
Stature (m) : 1.7313 Inverse dynamic model:
Volume
(ltrs.)
Ma
(kg
Foot 0.2046 0.21
Leg 2.3702 2.59
Thigh 8.3347 8.86
PS - 1.99
FPS - -
LFPS - 4.80
PS : Prosthesis or orthosiFPS : combined foot, prLFPS : combined leg, foo
Reporting Form
haracteristics for the partial footwear not obtained using the t rather through incremental immersion and torsional table as assumed to be 1.05 kg.m2 (Winter 1990). This was
model was not designed to predict characteristics of e and hind foot amputations.
Anthropometric data
Weight (kg): 82.235 Age (years): 31
! Chopart ❏ Normal / Orthotic
Centre of Mass Mass moment of Interia ss
.) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
48 0.0102 0 -0.0270 - 0.0020 -
46 0 0 -0.1821 0.0368 0.0375 0.0026
75 0 0 -0.1830 0.1280 0.1317 0.0261
50 0.0150 0 -0.3500 - 0.0598 -
- - - - - -
44 0.0067 0 -0.02630 - 0.1451 -
s and shoe osthesis/orthosis and shoe as a lumped segment t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 0904-1924A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 87.4950 0.9691 Fy 17.3137 0.9730 Fz 8.6166 0.9915
CV(%) CMC Ax 33.0565 0.9150
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis Subject ID : 0904-1924A
C
Ankle 71
Knee 15
Hip 10
Reporting Form
Variability
Angle Moment Power
V(%) CMC CV(%) CMC CV(%) CMC
.8665 0.9350 - - - -
.1881 0.9908 29.7795 0.9393 383.3183 0.9259
.8056 0.9889 38.2010 0.9369 40.5109 0.8421
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/st
Cadence (steps/min
CoP excursion (m)
CoP excursion (%S
Single support (s)
Single support (%G
Double support (s)
Double support (%G
Gait Analysis Subject ID : 0904-1924A
Reporting Form
Mean SD Range Min Max
1.1800 0.0158 0.0400 1.1600 1.2000
0.7040 0.0219 0.0400 0.6800 0.7200
0.4760 0.0114 0.0300 0.4600 0.4900
59.6523 1.2371 2.8972 58.1197 61.0169
40.3477 1.2370 2.8972 38.9831 41.8803
GC) 49.8823 1.0317 2.0781 48.8095 50.8876
1.4072 0.0454 0.1078 1.3538 1.4616
e 0.8128 0.0262 0.0622 0.7820 0.8442
/s) 1.1930 0.0521 0.1210 1.1282 1.2492
ature 0.6891 0.0302 0.0700 0.6516 0.7216
ute) 101.7095 1.3631 3.4483 100.0000 103.4483
0.2929 0.0210 0.0510 0.2762 0.3272
L) 96.6667 6.9455 16.8317 91.1551 107.9868
0.4533 0.0222 0.0566 0.4236 0.4802
C) 39.8407 1.8231 4.2796 38.0952 42.3748
0.1306 0.0404 0.1050 0.1038 0.2088
C) 11.4606 3.4381 9.1062 9.0470 18.1532
Gait Analysis
Gait cycle (sec) : Stance time (sec)Swing Time (sec Single support (sDouble support - Cadence (Steps/m Stride length (mWalking velocityCoP excursion (m !!!! Ensembled a
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
Reporting Form
1.1800 Side analy
: 0.7040 Stance tim) : 0.4760 Swing tim
ec) : 0.4533 Single sup HC (sec) : 0.1306 Double su
in) : 101.7095 Contralat
) : 1.4072 Stride leng (m/s) : 1.1930 Walking v): 0.2929 CoP (%SL
verage n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6
100
100
100
20 40 60-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 0904-1924A
sed : ❏❏❏❏ Right !!!! Left
e (%GC) : 59.6523 e (%GC) : 40.3477
port (%GC) : 39.8407 pport - HC (%GC) : 11.4606
eral HC (%GC) : 49.8823
th / Stature : 0.8128 elocity/ Stature : 0.6891 ): 96.6667
❏❏❏❏ 7 ❏❏❏❏ Other (n = )
80 100
80 100
80 100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis
Date of amputation: Ma Cause of amputation: ❏❏❏❏
Other: Gangrene Amputation Level: ❏❏❏❏ M
Other: with bilat Affected side : !!!! Righ
Device category : !!!! Pr Device type: !!!!Clamsh Other: Describe device: PTB soanterior surface of the sofoot length was made fro
Reporting Form
rch 1970
PVD !!!! Trauma ❏❏❏❏ DM
secondary to H2O burns
TP ❏❏❏❏ TMT ❏❏❏❏ Lisfranc !!!!
eral partial posterior resection o
t !!!! Left
osthesis ❏❏❏❏ Orthosis
ell PTB ❏❏❏❏ Below ankle socket
ckets with posterior window. Ancket, which extended the foot lenm EVA extending from the sole.
Subject ID: 0904-1924A
!!!! Gangrene ❏❏❏❏ other
Chopart !!!! other
f the calcaneus
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
extension was laminated onto the gth to the toe break. The remaining
Amputated limb: !!!! R Left
Degs.
124 Flexion (0
18 Extension
42 Abductio
23 Adductio
35 Internal r
42 External
Comment
143 Flexion (0
Comment
7 Dorsiflexi
32 Plantarfle
2 Inversion
2 Eversion
Comment
Gait Analysis Subject ID : 0904-1924A
Reporting Form
ight !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 122
(0-30°°°°) 20
n (0-45°°°°) 40
n (0-30°°°°) 24
otation (0-45°°°°) 38
rotation (0-45°°°°) 41
s:
Knee
-135°°°°) 142
s:
Ankle
on (0-20°°°°) 9
xion (0-50°°°°) 28
(0-35°°°°) 2
(0-15°°°°) 2
s:
Amputated limb: !!!! Right !!!! Left Left Oxford Manual Muscle strength test Right
Hip
5 Flexion 5
5 Extension 5
5 Adduction 5
5 Abduction 5
5 Internal rotation 5
5 External rotation 5
Knee
5 Flexion 5
5 Extension 5
Ankle
5 Dorsiflexion 5
5 Plantarflexion 5
5 Internal rotation 5
5 External rotation 5
Gait Analysis Reporting Form
Subject ID : 0904-1924A
Gait Analysis Subject ID : 0904-1924A
0 20 400
50
100Biceps F
0 20 400
50
100Tibialis A
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius
Gait Cy
Reporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-26 11.6378BF2 76-100 11.5401
60 80 100
emoris (-)
Active
60 80 100
nterior (-)
60 80 100
medial head (-)
cle [%]
Gait Analysis Subject ID : 0904-1924A
0 20 400
50
100Vastus Lat
0 20 400
50
100Gastrocnemius L
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cyc
Threshold = 2%MMT
Reporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-15 4.0822 VL2 82-100 3.2971
60 80 100
eralis (-)
Active
60 80 100
ateral Head (-)
60 80 100
(-)
le [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral Gastrocnemius Medial Tibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis Subject ID : 0904-1924A
0 20 40 60-1
-0.5
0
0.5
1Gastrocnemius Medial
Gait Cycle [%]
0 20 40 60-1
-0.5
0
0.5
1Tibialis Anterior (
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30
40
50Biceps Femoris (
Reporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC
- - Head - - Head - -
- - ead 63.0245 0.5914
58.6160 0.6939
0 20 40 60 80 100-1
-0.5
0
0.5
1Soleus (-)
Gait Cycle [%]
0 20 40 60 80 100-1
-0.5
0
0.5
1Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
head (-)
80 100
-)80 100
-)
0 20 40 60 80 1000
5
10
15Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 Note: The threshothat reasonable mufrom visual inspec EMG data was botas these were locafree from artifact gthe socekt.
Gait Analysis Subject ID : 0904-1924A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cyc
0 20 400
20
40
60
80
100Tibialis An
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Reporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
lds for Vastus Lateralis was reduced from 5%MMT to 2% MMT so scle on/off times could be determined in line with those expected
tion of multiple MMT data presented.
collected for Tibialis Anterior or any of the Triceps Surae muscles ted within the socket and the quality of the data was not sufficiently enerated by the surface of the electrode rubbing on the inside of
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
le [%]
60 80 100
terior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 2%MMT
Gait Analysis Subject ID : 0904-1924A
0 20 40
-20
0
20
40
Hip A
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
Reporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 22.4634 HA2 48 -11.3811HA3 60 -0.9830 HA4 90 26.8224 HA5 100 23.9525
KA1 1 -5.1684 KA2 20 9.7099 KA3 60 27.1057 KA4 72 56.1691 KA5 100 -5.1674
AA1 1 1.1229 AA2 11 -4.0368 AA3 54 5.5799 AA4 60 2.5893 AA5 68 -2.8277 AA6 100 -0.4588
60 80 100
ngle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis Subject ID : 0904-1924A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Kne
(Nm/kg) Ext. >
0 20 40
0
1
2
Ank
Ga
(Nm/kg) Ext. >
Reporting Form
Event Time (% GC)
Moment (Nm/kg)
HM1 3 0.8891 HM2 50 -0.4279HM3 95 0.3801
KM1 3 -0.4396KM2 18 0.2688 KM3 45 -0.4615KM4 - - KM5 95 -0.2619
AM1 - - AM2 - -
60 80 100
Moment (-)
60 80 100
e Moment (-)
60 80 100
le Moment ()
it Cycle [%]
Gait Analysis Subject ID : 0904-1924A
0 20 40-1
0
1
2
Hi
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kn
(W/kg) Gen. >
0 20 40-2
0
2
4
6An
(W/kg) Gen. >
Ga
Reporting Form
Event Time (% GC)
Power (W/kg)
HP1 16 0.5976 HP2 42 -0.3128 HP3 60 0.5930 HP4 98 0.2067
KP1 14 -0.2718 KP2 22 0.0728 KP3 61 -0.4190 KP4 91 -1.1077
AP1 - - AP2 - -
60 80 100
p Power (-)
60 80 100
ee Power (-)
60 80 100
kle Power ()
it Cycle [%]
Gait Analysis Reporting Form
Subject ID : 0904-1924A
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 - - FX2 50 1.8831
FZ1 17 11.3106 FZ2 34 7.8971 FZ3 47 10.8168
AX1 1 0 AX2 58 88.9114
0 20 40 60 80 100
-2
0
2
Fx (-)
(N/kg)
0 20 40 60 80 1000
5
10
Fz (-)
(N/kg)
0 20 40 60 80 1000
50
100
Ax (-)
(%IFL)
Gait Cycle [%]
Note: Anthropometric cmathematical model buexperiments. Density wnecessary because theindividuals with both for
Gait Analysis Subject ID : 0904-1924A
Stature (m) : 1.7313 Inverse dynamic model:
Volume
(ltrs.)
Ma
(kg
Foot 0.1831 0.19
Leg 2.3277 2.54
Thigh 8.6525 9.20
PS - 1.97
FPS - -
LFPS - 4.70
PS : Prosthesis or orthosiFPS : combined foot, prLFPS : combined leg, foo
Reporting Form
haracteristics for the partial footwear not obtained using the t rather through incremental immersion and torsional table as assumed to be 1.05 kg.m2 (Winter 1990). This was
model was not designed to predict characteristics of e and hind foot amputations.
Anthropometric data
Weight (kg): 82.235 Age (years): 31
! Chopart ❏ Normal / Orthotic
Centre of Mass Mass moment of Interia ss
.) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
23 0.0200 0 -0.0240 - 0.0017 -
57 0 0 -0.1793 0.0351 0.0358 0.0025
26 0 0 -0.1829 0.1315 0.1358 0.0285
00 0.0150 0 -0.3500 - 0.0608 -
- - - - - -
80 0.0071 0 -0.2608 - 0.1429 -
s and shoe osthesis/orthosis and shoe as a lumped segment t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 0904-1924A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 224.7859 0.9340 Fy 16.5816 0.9769 Fz 10.6655 0.9869
CV(%) CMC Ax 33.0536 0.8983
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis Subject ID : 0904-1924A
C
Ankle 12
Knee 1
Hip 1
Reporting Form
Variability
Angle Moment Power
V(%) CMC CV(%) CMC CV(%) CMC
5.2112 0.8480 - - - -
9.0797 0.9810 69.9873 0.8895 98.0620 0.8626
4.5626 0.9886 87.2901 0.9625 51.6734 0.9340
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/st
Cadence (steps/min
CoP excursion (m)
CoP excursion (%S
Single support (s)
Single support (%G
Double support (s)
Double support (%G
Gait Analysis Subject ID : 0904-1924A
Reporting Form
Mean SD Range Min Max
1.1350 0.0308 0.0800 1.0800 1.1600
0.6833 0.0234 0.0600 0.6600 0.7200
0.4517 0.0240 0.0600 0.4200 0.4800
60.2132 1.6027 4.1743 57.8947 62.0690
39.7868 1.6027 4.1743 37.9310 42.1053
GC) 48.6166 3.3246 8.6657 41.9753 50.6410
1.4797 0.0418 0.1119 1.4064 1.5183
e 0.8547 0.0242 0.0647 0.8123 0.8770
/s) 1.3044 0.0501 0.1349 1.2557 1.3906
ature 0.7534 0.0289 0.0779 0.7253 0.8032
ute) 105.7936 25.9485 7.6628 103.4483 111.1111
0.2940 0.0126 0.0323 0.2782 0.3105
L) 97.0297 4.1457 10.6600 91.8152 102.4752
0.4746 0.0121 0.0312 0.4557 0.4869
C) 40.0016 1.4737 3.6704 38.3041 41.9745
0.1161 0.0139 0.0374 0.0986 0.1360
C) 9.7701 1.0568 2.8629 8.3802 11.2431
Gait Analysis
Gait cycle (sec) : Stance time (sec)Swing Time (sec Single support (sDouble support - Cadence (Steps/m Stride length (mWalking velocityCoP excursion (m !!!! Ensembled a
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
Reporting Form
1.1350 Side analy
: 0.6833 Stance tim) : 0.4517 Swing tim
ec) : 0.4746 Single sup HC (sec) : 0.1161 Double su
in) : 105.7936 Contralat
) : 1.4797 Stride leng (m/s) : 1.3044 Walking v): 0.2940 CoP (%SL
verage n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6
100
100
100
20 40 60-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 0904-1924A
sed : !!!! Right ❏❏❏❏ Left
e (%GC) : 60.2132 e (%GC) : 39.7868
port (%GC) : 40.0016 pport - HC (%GC) : 9.7701
eral HC (%GC): 48.6166
th / Stature : 0.8547 elocity/ Stature : 0.7534 ): 97.0297
❏❏❏❏ 7 ❏❏❏❏ Other (n = )
80 100
80 100
80 100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 4 December 1987 Cause of amputation: ❏❏❏❏ PVD ❏❏❏❏ Trauma ❏❏❏❏ DM
Other: Gangrene secondary to Frostbite Amputation Level: !!!! MTP ❏❏❏❏ TMT ❏❏❏❏ Lisfranc
Other: Affected side : !!!! Right !!!! Left
Device category : ❏❏❏❏ Prosthesis !!!! Orthosis Device type: ❏❏❏❏ Clamshell PTB ❏❏❏❏ Below ankle socket
Other: Bilateral shoe inserts Describe device: Full length shoe insert with polypropylensilicone pad under the Metatarsal ends. Orthosis covered i
Subject ID: 1004-1307A
eporting Form
!!!! Gangrene !!!! other
❏❏❏❏ Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler !!!! other
e sole, EVA upper and toe block, n leather.
Amputated limb: !!!! R Left
Degs.
136 Flexion (0
20 Extension
39 Abduction
22 Adduction
37 Internal r
33 External r
Comment
147 Flexion (0
Comment
20 Dorsiflexi
45 Plantarfle
20 Inversion
8 Eversion (
Comment
Gait Analysis RSubject ID : 1004-1307A
eporting Form
ight !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 135
(0-30°°°°) 20
(0-45°°°°) 42
(0-30°°°°) 21
otation (0-45°°°°) 39
otation (0-45°°°°) 30
s:
Knee
-135°°°°) 146
s:
Ankle
on (0-20°°°°) 22
xion (0-50°°°°) 50
(0-35°°°°) 22
0-15°°°°) 5
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 1004-1307A
eporting Form
ght !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 1004-1307A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
Threshold = 2.5%MMT
Threshold = 2.5%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-5 5.7791 BF2 78-100 7.0493
TA1 1-6 12.9584TA2 56-79 4.7813 TA3 88-100 10.7459
GM1 20-45 15.2594
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 1004-1307A
0 20 400
50
100Vastus La
0 20 400
50
100Gastrocnemius
EMG amplitude (%MMT)
0 20 400
50
100Soleu
Gait Cy
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-14 10.2401 VL2 90-100 9.5480
GL1 24-46 11.4716 GL2 90-100 4.8562
SOL1 1-46 9.3923 SOL2 95-100 7.7363
60 80 100
teralis (-)
Active
60 80 100
Lateral Head (-)
60 80 100
s (-)
cle [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 1004-1307A
0 20 40 600
20
40
60Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15
20
25Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 59.7517 0.6588
ead 82.9666 0.5927 ead 75.0217 0.7645
64.6902 0.7174 ead 77.2593 0.7189
73.8389 0.7009
0 20 40 60 80 1000
10
20
30
40
50Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
10
20
30
40
50Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30
40Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 Side analysed : ❏❏❏❏ Note: The thresholreduced from 5% Mdetermined in line presented.
Gait Analysis RSubject ID : 1004-1307A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Threshold = 2.5%MMT
Threshold = 2.5%MMT
eporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
Right !!!! Left
d for Biceps Femoris Long Head and Tibialis Anterior were MT to 2.5% MMT so that reasonable muscle on/off times could be
with those expected from visual inspection of multiple MMT data
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
Active
Gait Analysis RSubject ID : 1004-1307A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 29.1522 HA2 52 -16.9413HA3 60 -9.0434 HA4 88 29.8551 HA5 100 29.2131
KA1 1 7.6548 KA2 14 25.0611 KA3 60 38.7125 KA4 72 66.2778 KA5 100 6.8935
AA1 1 4.6722 AA2 8 -5.5039 AA3 48 14.5531 AA4 60 -3.7889 AA5 65 -10.9731AA6 100 3.5277
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 1004-1307A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment (Nm/kg)
HM1 3 1.1345 HM2 50 -0.5050 HM3 93 0.2786
KM1 2 -0.5330 KM2 13 0.8806 KM3 45 -0.5023 KM4 59 0.0535 KM5 93 -0.2547
AM1 6 -0.1699 AM2 49 1.5198
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 1004-1307A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 15 0.2380 HP2 47 -0.4099 HP3 62 0.7440 HP4 93 0.0645
KP1 10 -1.3152 KP2 18 0.7839 KP3 59 -0.3139 KP4 90 -1.2004
AP1 43 -1.0329 AP2 54 2.5126
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 1004-1307A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 12 -2.4817 FX2 52 2.1960
FZ1 14 11.8505 FZ2 27 6.9045 FZ3 47 11.2067
AX1 1 0 AX2 59 95.0068
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 1004-1307A
Stature (m) : 1.744 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.7036 0.765
Leg 2.7722 3.020
Thigh 7.1794 7.675
PS - 0.564
FPS - 1.329
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 64.85 Age (years): 40
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
3 0.0411 0 -0.0363 0.0007 0.0025 0.0057
8 0 0 -0.1683 0.0377 0.0383 0.0038
4 0 0 -0.1917 0.1115 0.1144 0.0201
0 0.0720 0 -0.0600 - 0.0050 -
3 0.0542 0 -0.0463 - 0.0080 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 1004-1307A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 1481.2 0.9866 Fy 60.1833 0.9283 Fz 9.1150 0.9903
CV(%) CMC Ax 18.5937 0.9687
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 1004-1307A
CV
Ankle 34
Knee 6.
Hip 10
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.6081 0.9546 18.0040 0.9861 476.8895 0.9406
7996 0.9925 816.6160 0.9686 213.3956 0.9336
.8250 0.9948 327.2473 0.9496 114.4886 0.9166
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 1004-1307A
eporting Form
Mean SD Range Min Max
1.1517 0.0075 0.0200 1.1400 1.1600
0.6933 0.0103 0.0200 0.6800 0.7000
0.4583 0.0075 0.0200 0.4500 0.4700
60.2014 0.6908 1.7392 59.1304 60.8696
39.7986 0.6908 1.7392 39.1304 40.8696
GC) 49.9014 0.4137 1.2122 49.3976 50.6098
1.5591 0.0106 0.0252 1.5446 1.5698
e 0.8939 0.0060 0.0144 0.8857 0.9001
/s) 1.3538 0.0089 0.0243 1.3431 1.3674
ture 0.7762 0.0051 0.0139 0.7701 0.7840
te) 104.2005 0.6821 1.8149 103.4483 105.2632
0.3021 0.0024 0.0065 0.2993 0.3058
) 102.0608 0.8153 2.1959 101.1149 103.3108
0.4762 0.0118 0.0296 0.4601 0.4897
) 40.9823 0.8212 1.9555 39.6619 41.6174
0.1099 0.0095 0.0247 0.1021 0.1268
C) 9.4651 0.8510 2.2548 8.6785 10.9333
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 1004-1307A
Gait cycle (sec) : 1.1517 Side analysed : ❏❏❏❏ Right !!!! Left Stance time (sec) : 0.6933 Stance time (%GC) : 60.2014 Swing Time (sec) : 0.4583 Swing time (%GC) : 39.7986 Single support (sec) : 0.4762 Single support (%GC) : 40.9823 Double support - HC (sec) : 0.1099 Double support - HC (%GC) : 9.4651 Cadence (Steps/min) : 104.2005 Contralateral HC (%GC) : 49.9014 Stride length (m) : 1.5591 Stride length / Stature : 0.8939 Walking velocity (m/s) : 1.3538 Walking velocity/ Stature: 0.7762 CoP excursion (m): 0.3021 CoP (%SL): 102.0608 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = _ )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 4 December 1987 Cause of amputation: ❏❏❏❏ PVD ❏❏❏❏ Trauma ❏❏❏❏ DM
Other: Gangrene secondary to Frostbite Amputation Level: !!!! MTP ❏❏❏❏ TMT ❏❏❏❏ Lisfranc
Other: Affected side : !!!! Right !!!! Left
Device category : ❏❏❏❏ Prosthesis !!!! Orthosis Device type: ❏❏❏❏ Clamshell PTB ❏❏❏❏ Below ankle socket
Other: Bilateral shoe inserts Describe device: Full length shoe insert with polypropylensilicone pad under the Metatarsal ends. Orthosis covered i
Subject ID: 1004-1307A
eporting Form
!!!! Gangrene !!!! other
❏❏❏❏ Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler !!!! other
e sole, EVA upper and toe block, n leather.
Amputated limb: !!!! R Left
Degs.
136 Flexion (0
20 Extension
39 Abduction
22 Adduction
37 Internal r
33 External r
Comment
147 Flexion (0
Comment
20 Dorsiflexi
45 Plantarfle
20 Inversion
8 Eversion (
Comment
Gait Analysis RSubject ID : 1004-1307A
eporting Form
ight !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 135
(0-30°°°°) 20
(0-45°°°°) 42
(0-30°°°°) 21
otation (0-45°°°°) 39
otation (0-45°°°°) 30
s:
Knee
-135°°°°) 146
s:
Ankle
on (0-20°°°°) 22
xion (0-50°°°°) 50
(0-35°°°°) 22
0-15°°°°) 5
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 1004-1307A
eporting Form
ght !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 1004-1307A
0 20 400
50
100Biceps Fe
0 20 400
50
100Tibialis An
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius
Gait Cy
Threshold = 2%MMT
Threshold = 2%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-4 2.6306 BF2 37-42 2.8124 BF3 78-100 2.9049
TA1 1-5 8.2490 TA2 11-26 2.3698 TA3 55-77 2.8150 TA4 83-100 5.5781
GM1 22-45 12.3183
60 80 100
moris (-)
Active
60 80 100
terior (-)
60 80 100
medial head (-)
cle [%]
Gait Analysis RSubject ID : 1004-1307A
0 20 400
50
100Vastus Late
0 20 400
50
100Gastrocnemius La
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cycle
Threshold = 2.5%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-19 4.7144 VL2 92-100 4.1696
GL1 25-45 11.3008
SOL1 1-14 6.9322 SOL2 21-49 14.4794 SOL3 93-100 7.2515
60 80 100
ralis (-)
Active
60 80 100
teral Head (-)
60 80 100
(-)
[%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 1004-1307A
0 20 40 600
10
20
30
40
50Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
5
10
15
20
25Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 63.4643 0.6915
ead 72.2263 0.6137 ead 69.4326 0.7194
69.8299 0.6281 ead 68.6012 0.5967
57.5695 0.7418
0 20 40 60 80 1000
10
20
30
40
50Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
10
20
30
40Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
5
10
15
20
25Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 Side analysed : !!!! Note: The thresholLateralis were redreasonable muscle visual inspection of
Gait Analysis RSubject ID : 1004-1307A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Threshold = 2%MMT
Threshold = 2%MMT
eporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
Right ❏❏❏❏ Left
d for Biceps Femoris Long Head, Tibialis Anterior and Vastus uced from 5% MMT to 2%,2% and 2.5% MMT respectively so that on/off times could be determined in line with those expected from multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 2.5%MMT
Gait Analysis RSubject ID : 1004-1307A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 31.8922 HA2 53 -15.3572HA3 59 -8.7657 HA4 - - HA5 100 30.6575
KA1 1 10.8909 KA2 14 27.6732 KA3 59 40.3756 KA4 71 68.0179 KA5 100 9.0895
AA1 1 6.0975 AA2 7 -1.0523 AA3 47 18.9939 AA4 59 -0.7662 AA5 64 -8.3192 AA6 100 5.2673
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 1004-1307A
0 20 40-1
0
1
2
H
(Nm/kg) Ext. >
0 20 40
-1
0
1
Kn
(Nm/kg) Ext. >
0 20 40
0
1
2
An
G
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 3 0.9056HM2 49 -0.6069HM3 93 0.2519
KM1 - - KM2 13 1.0277KM3 42 -0.3866KM4 57 0.0828KM5 93 -0.2510
AM1 6 -0.2323AM2 47 1.5576
60 80 100
ip Moment (-)
60 80 100
ee Moment (-)
60 80 100
kle Moment ()
ait Cycle [%]
Gait Analysis RSubject ID : 1004-1307A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 15 0.3795 HP2 47 -0.4206 HP3 60 0.9423 HP4 91 0.0055
KP1 9 -1.6061 KP2 18 0.9373 KP3 58 -0.4993 KP4 90 -1.0604
AP1 42 -1.2138 AP2 53 2.7236
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 1004-1307A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 11 -2.2989 FX2 51 2.2363
FZ1 14 11.6691 FZ2 27 6.6837 FZ3 46 11.5129
AX1 1 0 AX2 58 89.8075
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 1004-1307A
Stature (m) : 1.744 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.6875 0.745
Leg 2.7452 2.990
Thigh 6.9934 7.484
PS - 0.544
FPS - 1.289
LFPS - -
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 64.85 Age (years): 40
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
6 0.0414 0 -0.0361 0.0006 0.0024 0.0026
6 0 0 -0.1672 0.0372 0.0378 0.0037
2 0 0 -0.1904 0.1105 0.1118 0.0189
0 0.0750 0 -0.0600 - 0.0049 -
6 0.0556 0 -0.0462 - 0.0078 -
- - - - - -
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 1004-1307A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 235.1771 0.9784 Fy 73.7139 0.8575 Fz 10.6518 0.9874
CV(%) CMC Ax 23.7396 0.9466
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 1004-1307A
CV
Ankle 27
Knee 8.
Hip 11
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.6897 0.9318 28.7038 0.9677 377.6121 0.9135
6901 0.9869 82.0642 0.9801 117.3055 0.9434
.9686 0.9921 4405.7 0.9505 99.9392 0.8734
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 1004-1307A
eporting Form
Mean SD Range Min Max
1.1583 0.0098 0.0300 1.1400 1.1700
0.6833 0.0082 0.0200 0.6800 0.7000
0.4750 0.0122 0.0300 0.4600 0.4900
58.9960 0.8290 2.2251 58.1197 60.3448
41.0040 0.8290 2.2251 39.6552 41.8803
GC) 49.4529 0.3467 0.8911 48.8095 49.7006
1.5812 0.0316 0.0900 1.5353 1.6253
e 0.9066 0.0181 0.0516 0.8803 0.9319
/s) 1.3652 0.0299 0.0776 1.3235 1.4011
ture 0.7828 0.0171 0.0445 0.7589 0.8034
te) 103.6034 0.8867 2.6991 102.5641 105.2632
0.2810 0.0034 0.0092 0.2768 0.2860
) 94.9381 1.1411 3.1081 93.5135 96.6216
0.4578 0.0099 0.0284 0.4459 0.4743
) 39.4581 1.1226 3.1154 38.2237 41.3391
0.1189 0.0123 0.0291 0.1028 0.1319
C) 10.2442 0.9767 2.3010 8.9639 11.2649
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 1004-1307A
Gait cycle (sec) : 1.1583 Side analysed : !!!! Right ❏❏❏❏ Left Stance time (sec) : 0.6833 Stance time (%GC) : 58.9960 Swing Time (sec) : 0.4750 Swing time (%GC) : 41.0040 Single support (sec) : 0.4578 Single support (%GC) : 39.4581 Double support - HC (sec) : 0.1189 Double support - HC (%GC) : 10.2442 Cadence (Steps/min) : 103.6034 Contralateral HC (%GC) : 49.4529 Stride length (m) : 1.5812 Stride length / Stature : 0.9066 Walking velocity (m/s) : 1.3652 Walking velocity/ Stature : 0.7828 CoP excursion (m): 0.2810 CoP (%SL): 94.9381 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = _ )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 15 Cause of amputation: ❏❏❏❏
Other: Amputation Level: ❏❏❏❏ M
Other: Affected side : !!!! Right
Device category : ❏❏❏❏ Pro Device type: ❏❏❏❏ Clamshe Other: Describe device: Sock stu
eporting Form
September 1996
PVD !!!! Trauma ❏❏❏❏ DM
TP ❏❏❏❏ TMT !!!! Lisfranc ❏❏❏❏
❏❏❏❏ Left
sthesis !!!! Orthosis
ll PTB ❏❏❏❏ Below ankle socket
ffed into end of shoe
Subject ID: 2103-1906A
❏❏❏❏ Gangrene ❏❏❏❏ other
Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO !!!! Toe filler ❏❏❏❏ other
Amputated limb: !!!! R Left
Degs.
120 Flexion (0
15 Extension
30 Abduction
17 Adduction
33 Internal r
40 External r
Comment
145 Flexion (0
Comment
18 Dorsiflexi
50 Plantarfle
25 Inversion
15 Eversion (
Comment
Gait Analysis RSubject ID : 2103-1906A
eporting Form
ight ❏❏❏❏ Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 122
(0-30°°°°) 17
(0-45°°°°) 27
(0-30°°°°) 22
otation (0-45°°°°) 30
otation (0-45°°°°) 40
s:
Knee
-135°°°°) 145
s:
Ankle
on (0-20°°°°) 15
xion (0-50°°°°) 35
(0-35°°°°) 20
0-15°°°°) 0
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
4+ Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 2103-1906A
eporting Form
ght ❏❏❏❏ Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 4+
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 2103-1906A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-21 4.6759 BF2 80-93 6.66955BF3 99-100 1.4901
TA1 1-7 21.0210TA2 54-100 11.2026
GM1 13-45 15.0722
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 0704-0403A
0 20 400
50
100Vastus Late
0 20 400
50
100Gastrocnemius La
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cycle
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-20 11.9388 VL2 82-100 11.5559
GL1 22-46 15.6081
SOL1 24-46 9.6101
60 80 100
ralis (-)
Active
60 80 100
teral Head (-)
60 80 100
(-)
[%]
n = !!!!4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2103-1906A
0 20 40 600
20
40
60Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40
50Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15
20Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 41.9761 0.7609
ead 56.7267 0.7793 ead 71.3701 0.6992
54.0567 0.7575 ead 69.3713 0.5635
58.3920 0.7663
0 20 40 60 80 1000
5
10
15
20
25Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
10
20
30
40
50Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 Note: The thresholthat reasonable mufrom visual inspect
Gait Analysis RSubject ID : 2903-1906A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Threshold = 3%MMT
eporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
ds for Biceps Femoris was reduced from 5%MMT to 3% MMT so scle on/off times could be determined in line with those expected ion of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
Active
Gait Analysis RSubject ID : 2103-1906A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 29.6510 HA2 52 -10.0967HA3 62 -2.8769 HA4 89 31.9830 HA5 100 29.3754
KA1 1 2.7719 KA2 14 21.1303 KA3 62 37.2771 KA4 73 57.9194 KA5 100 2.9063
AA1 1 3.9152 AA2 10 -5.3567 AA3 45 10.8422 AA4 62 -17.8143AA5 66 -22.3622AA6 100 2.1920
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 - - HM2 50 -0.3311HM3 94 0.4025
KM1 - - KM2 13 0.5627KM3 45 -0.5279KM4 - - KM5 94 -0.2965
AM1 6 -0.1374AM2 49 1.6596
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 13 1.1468 HP2 46 -0.2410 HP3 66 1.0306 HP4 93 0.1969
KP1 10 -0.8940 KP2 19 0.3507 KP3 65 -0.6407 KP4 91 -1.3404
AP1 39 -0.7064 AP2 55 4.2980
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 10 -2.2095 FX2 53 1.8294
FZ1 12 13.3668 FZ2 27 6.8878 FZ3 46 10.5848
AX1 1 0 AX2 60 93.5201
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 2103-1906A
Stature (m) : 1.802 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.9902 1.036
Leg 3.0141 3.284
Thigh 7.1001 7.612
PS - 0.466
FPS - 1.502
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 80.65 Age (years): 55
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
5 0.0595 0 -0.0403 0.0010 0.0054 0.0057
6 0 0 -0.1742 0.0438 0.0443 0.0042
7 0 0 -0.1909 0.1189 0.1233 0.0192
0 0.0540 0 -0.0550 - 0.0045 -
5 0.0578 0 -0.0449 - 0.0100 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2103-1906A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 819.4551 0.9893 Fy 30.5226 0.9425 Fz 5.0554 0.9969
CV(%) CMC Ax 24.2167 0.9462
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 2103-1906A
C
Ankle 10
Knee 4
Hip 6
eporting Form
Variability
Angle Moment Power
V(%) CMC CV(%) CMC CV(%) CMC
9.4448 0.9787 13.2578 0.9910 72.1513 0.9699
.9703 0.9964 96.0498 0.9594 145.6742 0.9332
.2611 0.9969 62.0538 0.9642 23.3422 0.9679
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2103-1906A
eporting Form
Mean SD Range Min Max
1.1025 0.0126 0.0300 1.0900 1.1200
0.6800 0.0163 0.0400 0.6600 0.7000
0.4225 0.0126 0.0300 0.4100 0.4400
61.6759 1.1563 2.5000 60.0000 62.5000
38.3241 1.1563 2.5000 37.5000 40.0000
GC) 51.2724 0.9913 2.2131 50.3185 52.5316
1.4720 0.0219 0.0475 1.4492 1.4967
e 0.8169 0.0122 0.0264 0.8042 0.8306
/s) 1.3354 0.0300 0.0585 1.3024 1.3609
ture 0.7410 0.0166 0.0324 0.7228 0.7552
te) 108.8541 1.2345 2.9488 107.1429 110.0917
0.2755 0.0072 0.0129 0.2691 0.2820
) 96.6579 2.5239 4.5263 94.4211 98.9474
0.4434 0.0082 0.0218 0.4323 0.4541
) 40.5441 1.0431 2.3660 39.3169 41.6829
0.1162 0.0112 0.0270 0.0998 0.1268
C) 10.6107 0.7916 2.0155 9.2849 11.3004
Gait Analysis R
Gait cycle (sec) : Stance time (sec) Swing Time (sec) Single support (seDouble support - Cadence (Steps/m Stride length (m)Walking velocityCoP excursion (m !!!! Ensembled av
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
1.1052 Side analys
: 0.6800 Stance tim : 0.4225 Swing time
c) : 0.4434 Single supp HC (sec) : 0.1162 Double sup
in) : 108.8541 Contralate
: 1.4720 Stride lengt (m/s) : 1.3354 Walking ve): 0.2755 CoP (%SL)
erage n = !!!!4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2103-1906A
ed : ❏❏❏❏ Right !!!! Left
e (%GC) : 61.6759 (%GC) : 38.3241
ort (%GC) : 40.5441 port - HC (%GC) : 10.6107
ral HC (%GC) : 51.5724
h / Stature : 0.8169 locity/ Stature : 0.7410 : 96.6579
7 ❏❏❏❏ Other (n = )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 15 Cause of amputation: ❏❏❏❏
Other: Amputation Level: ❏❏❏❏ M
Other: Affected side : !!!! Right
Device category : ❏❏❏❏ Pro Device type: ❏❏❏❏ Clamshe Other: Describe device: Sock stu
eporting Form
September 1996
PVD !!!! Trauma ❏❏❏❏ DM
TP ❏❏❏❏ TMT !!!! Lisfranc ❏❏❏❏
❏❏❏❏ Left
sthesis !!!! Orthosis
ll PTB ❏❏❏❏ Below ankle socket
ffed into end of shoe
Subject ID: 2103-1906A
❏❏❏❏ Gangrene ❏❏❏❏ other
Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO !!!! Toe filler ❏❏❏❏ other
Amputated limb: !!!! R Left
Degs.
120 Flexion (0
15 Extension
30 Abduction
17 Adduction
33 Internal r
40 External r
Comment
145 Flexion (0
Comment
18 Dorsiflexi
50 Plantarfle
25 Inversion
15 Eversion (
Comment
Gait Analysis RSubject ID : 2103-1906A
eporting Form
ight ❏❏❏❏ Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 122
(0-30°°°°) 17
(0-45°°°°) 27
(0-30°°°°) 22
otation (0-45°°°°) 30
otation (0-45°°°°) 40
s:
Knee
-135°°°°) 145
s:
Ankle
on (0-20°°°°) 15
xion (0-50°°°°) 35
(0-35°°°°) 20
0-15°°°°) 0
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
4+ Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 2103-1906A
eporting Form
ght ❏❏❏❏ Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 4+
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 2103-1906A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-17 3.3352 BF2 80-100 6.6338
TA1 1-30 9.6329 TA2 49-100 7.5404
GM1 31-44 9.2009
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 2103-1906A
0 20 400
50
100Vastus Late
0 20 400
50
100Gastrocnemius La
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cycle
Threshold = 7%MMT
Threshold = 4%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-27 10.1777 VL2 85-100 9.5826
GL1 34-44 16.6554
SOL1 1-20 5.0680 SOL2 29-58 7.1705 SOL3 91-100 7.4949
60 80 100
ralis (-)
Active
60 80 100
teral Head (-)
60 80 100
(-)
[%]
n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2103-1906A
0 20 40 600
10
20
30
40Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40
50Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15
20Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 54.8133 0.5568
ead 77.8445 0.5953 ead 84.4316 0.3448
68.7353 0.6065 ead 68.4361 0.6110
57.2124 0.6705
0 20 40 60 80 1000
10
20
30Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30
40Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 Note: The threshol5%MMT to 3% MMthresholds both Galevels were adjusteline with those expe
Gait Analysis RSubject ID : 2903-1906A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Threshold = 7%MMT
Threshold = 3%MMT
Threshold = 3%MMT
eporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
ds for Biceps Femoris and Tibialis Anterior were reduced from T and the threshold for Soleus was reduced to 4%MMT. The
strocnemi were increased from 5%MMT to 7%MMT. All threshold d so that reasonable muscle on/off times could be determined in cted from visual inspection of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
Active
Threshold = 7%MMT
Threshold = 4%MMT
Gait Analysis RSubject ID : 2103-1906A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 25.9759 HA2 49 -10.0628HA3 59 -0.7862 HA4 88 27.8926 HA5 100 24.6526
KA1 1 0.4257 KA2 16 15.2849 KA3 59 34.4821 KA4 70 58.3296 KA5 100 0.2655
AA1 1 9.5317 AA2 10 -9.3452 AA3 49 11.7581 AA4 59 -3.2144 AA5 63 -7.8166 AA6 100 8.1694
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40-1
0
1
2
H
(Nm/kg) Ext. >
0 20 40
-1
0
1
Kn
(Nm/kg) Ext. >
0 20 40
0
1
2
An
G
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 7 0.9690HM2 57 -0.5559HM3 92 0.3032
KM1 - - KM2 15 0.8726KM3 45 -0.0454KM4 57 0.1603KM5 93 -0.2531
AM1 7 -0.4489AM2 47 0.5248
60 80 100
ip Moment (-)
60 80 100
ee Moment (-)
60 80 100
kle Moment ()
ait Cycle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 14 0.7607 HP2 47 -0.0875 HP3 58 1.3441 HP4 93 0.1385
KP1 10 -1.3118 KP2 21 0.6828 KP3 57 -1.0033 KP4 89 -1.1247
AP1 44 -0.4382 AP2 52 0.5003
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 8 -2.0640 FX2 46 1.7265
FZ1 14 11.5075 FZ2 26 6.9715 FZ3 42 9.5072
AX1 1 0 AX2 58 88.2380
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 2103-1906A
Stature (m) : 1.802 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.7511 0.805
Leg 2.9756 3.245
Thigh 7.3094 7.829
PS - 0.524
FPS - 1.329
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 80.65 Age (years): 55
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
9 0.0114 0 -0.0376 0.0008 0.0016 0.0018
7 0 0 -0.1729 0.0442 0.0448 0.0042
8 0 0 -0.1908 0.1220 0.1258 0.0200
0 0.0510 0 -0.0430 - 0.0049 -
9 0.0270 0 -0.0387 - 0.0069 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2103-1906A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 214.3963 0.9827 Fy 44.9392 0.8739 Fz 7.0698 0.9949
CV(%) CMC Ax 27.0341 0.9365
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 2103-1906A
CV
Ankle 52
Knee 14
Hip 15
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.7213 0.9418 121.2977 0.9688 146.7204 0.9064
.6380 0.9789 34.8802 0.9734 77.8674 0.9190
.3079 0.9688 99.0070 0.9333 46.4442 0.8338
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2103-1906A
eporting Form
Mean SD Range Min Max
1.0860 0.0305 0.0800 1.0500 1.1300
0.6440 0.0261 0.0600 0.6200 0.6800
0.4420 0.0084 0.0200 0.4300 0.4500
59.2856 0.8892 2.2331 57.9439 60.1770
40.7144 0.8892 2.2331 39.8230 42.0561
GC) 48.5307 0.3129 0.7542 48.0263 48.7805
1.4841 0.0511 0.1409 1.4045 1.5454
e 0.8236 0.0283 0.0782 0.7794 0.8576
/s) 1.3681 0.0770 0.1950 1.2768 1.4718
ture 0.7592 0.0427 0.1082 0.7086 0.8168
te) 110.5664 3.0792 8.0910 106.1947 114.2857
0.2696 0.0083 0.0166 0.2623 0.2789
) 94.5895 2.9046 5.8245 92.0351 97.8596
0.4186 0.0124 0.0299 0.4051 0.4350
) 37.8064 1.0865 2.5930 36.6356 39.2286
0.1134 0.0156 0.0354 0.0986 0.1340
C) 10.2359 1.3930 3.2180 8.8964 12.1144
Gait Analysis R
Gait cycle (sec) : Stance time (sec) Swing Time (sec) Single support (seDouble support - Cadence (Steps/m Stride length (m)Walking velocityCoP excursion (m !!!! Ensembled av
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
1.0860 Side analys
: 0.6440 Stance tim : 0.4420 Swing time
c) : 0.4186 Single supp HC (sec) : 0.1134 Double sup
in) : 110.5664 Contralate
: 1.4841 Stride lengt (m/s) : 1.3681 Walking ve): 0.2696 CoP (%SL)
erage n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 ❏❏❏❏
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2103-1906A
ed : !!!! Right ❏❏❏❏ Left
e (%GC) : 59.2856 (%GC) : 40.7144
ort (%GC) : 37.8064 port - HC (%GC) : 10.2359
ral HC (%GC) : 48.5307
h / Stature : 0.8236 locity/ Stature : 0.7592 : 94.5895
7 ❏❏❏❏ Other (n = )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 15 Cause of amputation: ❏❏❏❏
Other: Amputation Level: ❏❏❏❏ M
Other: Affected side : !!!! Right
Device category : ❏❏❏❏ Pro Device type: ❏❏❏❏ Clamshe Other: Describe device: Sock stu
eporting Form
September 1996
PVD !!!! Trauma ❏❏❏❏ DM
TP ❏❏❏❏ TMT !!!! Lisfranc ❏❏❏❏
❏❏❏❏ Left
sthesis !!!! Orthosis
ll PTB ❏❏❏❏ Below ankle socket
ffed into end of shoe
Subject ID: 2103-1906A
❏❏❏❏ Gangrene ❏❏❏❏ other
Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO !!!! Toe filler ❏❏❏❏ other
Amputated limb: !!!! R Left
Degs.
120 Flexion (0
15 Extension
30 Abduction
17 Adduction
33 Internal r
40 External r
Comment
145 Flexion (0
Comment
18 Dorsiflexi
50 Plantarfle
25 Inversion
15 Eversion (
Comment
Gait Analysis RSubject ID : 2103-1906A
eporting Form
ight ❏❏❏❏ Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 122
(0-30°°°°) 17
(0-45°°°°) 27
(0-30°°°°) 22
otation (0-45°°°°) 30
otation (0-45°°°°) 40
s:
Knee
-135°°°°) 145
s:
Ankle
on (0-20°°°°) 15
xion (0-50°°°°) 35
(0-35°°°°) 20
0-15°°°°) 0
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
4+ Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 2103-1906A
eporting Form
ght ❏❏❏❏ Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 4+
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 2103-1906A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-17 3.3352 BF2 80-100 6.6338
TA1 1-30 9.6329 TA2 49-100 7.5404
GM1 31-44 9.2009
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 2103-1906A
0 20 400
50
100Vastus Late
0 20 400
50
100Gastrocnemius La
EMG amplitude (%MMT)
0 20 400
50
100Soleus
Gait Cycle
Threshold = 7%MMT
Threshold = 4%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-27 10.1777 VL2 85-100 9.5826
GL1 34-44 16.6554
SOL1 1-20 5.0680 SOL2 29-58 7.1705 SOL3 91-100 7.4949
60 80 100
ralis (-)
Active
60 80 100
teral Head (-)
60 80 100
(-)
[%]
n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2103-1906A
0 20 40 600
10
20
30
40Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40
50Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15
20Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 54.8133 0.5568
ead 77.8445 0.5953 ead 84.4316 0.3448
68.7353 0.6065 ead 68.4361 0.6110
57.2124 0.6705
0 20 40 60 80 1000
10
20
30Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30
40Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 Note: The threshol5%MMT to 3% MMthresholds both Galevels were adjusteline with those expe
Gait Analysis RSubject ID : 2903-1906A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Threshold = 7%MMT
Threshold = 3%MMT
Threshold = 3%MMT
eporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
ds for Biceps Femoris and Tibialis Anterior were reduced from T and the threshold for Soleus was reduced to 4%MMT. The
strocnemi were increased from 5%MMT to 7%MMT. All threshold d so that reasonable muscle on/off times could be determined in cted from visual inspection of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
Active
Threshold = 7%MMT
Threshold = 4%MMT
Gait Analysis RSubject ID : 2103-1906A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 25.9759 HA2 49 -10.0628HA3 59 -0.7862 HA4 88 27.8926 HA5 100 24.6526
KA1 1 0.4257 KA2 16 15.2849 KA3 59 34.4821 KA4 70 58.3296 KA5 100 0.2655
AA1 1 9.5317 AA2 10 -9.3452 AA3 49 11.7581 AA4 59 -3.2144 AA5 63 -7.8166 AA6 100 8.1694
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40-1
0
1
2
H
(Nm/kg) Ext. >
0 20 40
-1
0
1
Kn
(Nm/kg) Ext. >
0 20 40
0
1
2
An
G
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 7 0.9690HM2 57 -0.5559HM3 92 0.3032
KM1 - - KM2 15 0.8726KM3 45 -0.0454KM4 57 0.1603KM5 93 -0.2531
AM1 7 -0.4489AM2 47 0.5248
60 80 100
ip Moment (-)
60 80 100
ee Moment (-)
60 80 100
kle Moment ()
ait Cycle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 14 0.7607 HP2 47 -0.0875 HP3 58 1.3441 HP4 93 0.1385
KP1 10 -1.3118 KP2 21 0.6828 KP3 57 -1.0033 KP4 89 -1.1247
AP1 44 -0.4382 AP2 52 0.5003
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-1906A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 8 -2.0640 FX2 46 1.7265
FZ1 14 11.5075 FZ2 26 6.9715 FZ3 42 9.5072
AX1 1 0 AX2 58 88.2380
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 2103-1906A
Stature (m) : 1.802 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.7511 0.805
Leg 2.9756 3.245
Thigh 7.3094 7.829
PS - 0.524
FPS - 1.329
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 80.65 Age (years): 55
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
9 0.0114 0 -0.0376 0.0008 0.0016 0.0018
7 0 0 -0.1729 0.0442 0.0448 0.0042
8 0 0 -0.1908 0.1220 0.1258 0.0200
0 0.0510 0 -0.0430 - 0.0049 -
9 0.0270 0 -0.0387 - 0.0069 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2103-1906A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 214.3963 0.9827 Fy 44.9392 0.8739 Fz 7.0698 0.9949
CV(%) CMC Ax 27.0341 0.9365
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 2103-1906A
CV
Ankle 52
Knee 14
Hip 15
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.7213 0.9418 121.2977 0.9688 146.7204 0.9064
.6380 0.9789 34.8802 0.9734 77.8674 0.9190
.3079 0.9688 99.0070 0.9333 46.4442 0.8338
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2103-1906A
eporting Form
Mean SD Range Min Max
1.0860 0.0305 0.0800 1.0500 1.1300
0.6440 0.0261 0.0600 0.6200 0.6800
0.4420 0.0084 0.0200 0.4300 0.4500
59.2856 0.8892 2.2331 57.9439 60.1770
40.7144 0.8892 2.2331 39.8230 42.0561
GC) 48.5307 0.3129 0.7542 48.0263 48.7805
1.4841 0.0511 0.1409 1.4045 1.5454
e 0.8236 0.0283 0.0782 0.7794 0.8576
/s) 1.3681 0.0770 0.1950 1.2768 1.4718
ture 0.7592 0.0427 0.1082 0.7086 0.8168
te) 110.5664 3.0792 8.0910 106.1947 114.2857
0.2696 0.0083 0.0166 0.2623 0.2789
) 94.5895 2.9046 5.8245 92.0351 97.8596
0.4186 0.0124 0.0299 0.4051 0.4350
) 37.8064 1.0865 2.5930 36.6356 39.2286
0.1134 0.0156 0.0354 0.0986 0.1340
C) 10.2359 1.3930 3.2180 8.8964 12.1144
Gait Analysis R
Gait cycle (sec) : Stance time (sec) Swing Time (sec) Single support (seDouble support - Cadence (Steps/m Stride length (m)Walking velocityCoP excursion (m !!!! Ensembled av
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
1.0860 Side analys
: 0.6440 Stance tim : 0.4420 Swing time
c) : 0.4186 Single supp HC (sec) : 0.1134 Double sup
in) : 110.5664 Contralate
: 1.4841 Stride lengt (m/s) : 1.3681 Walking ve): 0.2696 CoP (%SL)
erage n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 ❏❏❏❏
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2103-1906A
ed : !!!! Right ❏❏❏❏ Left
e (%GC) : 59.2856 (%GC) : 40.7144
ort (%GC) : 37.8064 port - HC (%GC) : 10.2359
ral HC (%GC) : 48.5307
h / Stature : 0.8236 locity/ Stature : 0.7592 : 94.5895
7 ❏❏❏❏ Other (n = )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 27 Cause of amputation: ❏❏❏❏
Other: Amputation Level: ❏❏❏❏ M
Other: Affected side : !!!! Right
Device category : ❏❏❏❏ Pro Device type: ❏❏❏❏ Clamshe
Other: Describe device: EVA toe
eporting Form
April 1998
PVD !!!! Trauma ❏❏❏❏ DM
TP !!!! TMT ❏❏❏❏ Lisfranc ❏❏❏❏
❏❏❏❏ Left
sthesis !!!! Orthosis
ll PTB ❏❏❏❏ Below ankle socket
filler
Subject ID: 2103-2116A
❏❏❏❏ Gangrene ❏❏❏❏ other
Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes ❏❏❏❏ Runners !!!! other
Other: casual leather shoes with gentle rocker sole and stiffening shank in sole Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO !!!! Toe filler ❏❏❏❏ other
Amputated limb: !!!! R Left
Degs.
118 Flexion (0
12 Extension
37 Abduction
18 Adduction
42 Internal r
32 External r
Comment
140 Flexion (0
Comment
5 Dorsiflexi
38 Plantarfle
27 Inversion
13 Eversion (
Comment
Gait Analysis RSubject ID : 2103-2116A
eporting Form
ight ❏❏❏❏ Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 125
(0-30°°°°) 13
(0-45°°°°) 42
(0-30°°°°) 20
otation (0-45°°°°) 40
otation (0-45°°°°) 31
s:
Knee
-135°°°°) 140
s:
Ankle
on (0-20°°°°) 10
xion (0-50°°°°) 36
(0-35°°°°) 42
0-15°°°°) 5
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 2103-2116A
eporting Form
ght ❏❏❏❏ Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 2103-2116A
0 20 400
50
100Biceps Fe
0 20 400
50
100Tibialis An
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius
Gait Cy
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-22 5.6784 BF2 83-100 5.3407
TA1 1-11 4.5749 TA2 56-77 5.2693 TA3 87-100 10.1204
GM1 19-48 15.2551
60 80 100
moris (-)
Active
60 80 100
terior (-)
60 80 100
medial head (-)
cle [%]
Gait Analysis RSubject ID : 2103-2116A
0 20 400
50
100Vastus La
0 20 400
50
100Gastrocnemius
EMG amplitude (%MMT)
0 20 400
50
100Soleu
Gait Cy
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-17 8.3185 VL2 88-100 3.9248
GL1 31-46 7.4353
SOL1 8-50 11.6547
60 80 100
teralis (-)
Active
60 80 100
Lateral Head (-)
60 80 100
s (-)
cle [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!! 6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2103-2116A
0 20 40 600
10
20
30
40
50Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 55.7522 0.6882
ead 82.3667 0.3308 ead 72.2507 0.6329
73.2549 0.6449 ead 89.5893 0.3118
71.3972 0.7182
0 20 40 60 80 1000
10
20
30
40
50Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
5
10
15
20
25Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
5
10
15
20
25Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 Side analysed : !!!! Note: The thresholrespectively so thatthose expected from
Gait Analysis RSubject ID : 2103-2116A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
Threshold = 3%MMT
eporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
Right ❏❏❏❏ Left
d for Vastus Lateralis was reduced from 5% MMT to 3%MMT reasonable muscle on/off times could be determined in line with visual inspection of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 3%MMT
Gait Analysis RSubject ID : 2103-2116A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 30.7849 HA2 54 -10.1985HA3 63 -1.5322 HA4 85 31.4751 HA5 100 27.8150
KA1 1 -0.7469 KA2 15 22.0895 KA3 63 33.7731 KA4 74 57.6468 KA5 100 -1.7667
AA1 1 -9.3117 AA2 6 -12.9335AA3 48 10.0197 AA4 63 -17.2479AA5 67 -21.8850AA6 100 -11.2204
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 2103-2116A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 6 1.1860HM2 63 -0.3042HM3 94 0.2078
KM1 2 -0.4661KM2 14 0.6099KM3 45 -0.5134KM4 - - KM5 95 -0.2364
AM1 4 -0.0354AM2 50 1.7261
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-2116A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 16 1.2093 HP2 55 0.0044 HP3 65 0.8576 HP4 94 0.0942
KP1 10 -0.9594 KP2 19 0.3964 KP3 66 -0.4515 KP4 91 -1.0220
AP1 43 -1.0724 AP2 57 3.7214
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-2116A
0 20 40
-2
0
2
F
(N/kg)
0 20 400
5
10
F
(N/kg)
0 20 400
50
100
A
(%IFL)
Gait C
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 10 -1.9212 FX2 54 2.0068
FZ1 14 11.6109 FZ2 31 7.2730 FZ3 48 10.3669
AX1 1 0 AX2 60 87.9779
60 80 100
x (-)
60 80 100
z (-)
60 80 100
x (-)
ycle [%]
Gait Analysis RSubject ID : 2103-2116A
Stature (m) : 1.824 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 1.0004 1.065
Leg 3.0838 3.360
Thigh 7.8364 8.400
PS - 0.436
FPS - 1.501
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 84.5 Age (years): 54
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
0 0.0622 0 -0.0432 0.0011 0.0057 0.0060
7 0 0 -0.1722 0.0460 0.0468 0.0045
2 0 0 -0.1922 0.1275 0.1331 0.0242
0 0.0750 0 -0.0720 - 0.0047 -
0 0.0659 0 -0.0515 - 0.0106 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2103-2116A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 856.6232 0.9747 Fy 45.1127 0.8834 Fz 9.8550 0.9873
CV(%) CMC Ax 35.2453 0.8691
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 2103-2116A
CV
Ankle 27
Knee 16
Hip 15
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.9353 0.9812 18.5934 0.9729 284.9649 0.9155
.5226 0.9712 84.1866 0.9505 196.3634 0.8808
.9776 0.9776 30.6501 0.9579 30.1814 0.9124
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2103-2116A
eporting Form
Mean SD Range Min Max
1.1950 0.0173 0.0400 1.1700 1.2100
0.7500 0.0200 0.0400 0.7200 0.7600
0.4450 0.0289 0.0700 0.4100 0.4800
62.7751 2.0637 4.9573 60.0000 64.9573
37.2249 2.0637 4.9573 35.0427 40.0000
GC) 52.8342 0.9817 2.3734 51.7442 54.1176
1.4354 0.0101 0.0206 1.4261 1.4467
e 0.7870 0.0055 0.0112 0.7819 0.7931
/s) 1.2014 0.0230 0.0530 1.1786 1.2316
ture 0.6587 0.0126 0.0290 0.6462 0.6752
te) 100.4344 1.4723 3.3905 99.1736 102.5641
0.2961 0.0054 0.0121 0.2912 0.3033
) 98.6917 1.7841 4.0333 97.0667 101.1000
0.4603 0.0203 0.0382 0.4372 0.4754
) 39.4220 1.0698 2.1298 38.2983 40.4281
0.1559 0.0041 0.0077 0.1512 0.1589
C) 13.3586 0.5792 1.1570 12.7632 13.9202
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2103-2116A
Gait cycle (sec) : 1.1950 Side analysed : ❏❏❏❏ Right !!!! Left Stance time (sec) : 0.7500 Stance time (%GC) : 62.7751 Swing Time (sec) : 0.4450 Swing time (%GC) : 37.2249 Single support (sec) : 0.4603 Single support (%GC) : 39.4220 Double support - HC (sec) : 0.1559 Double support - HC (%GC) : 13.3586 Cadence (Steps/min) : 100.4344 Contralateral HC (%GC) : 52.8342 Stride length (m) : 1.4354 Stride length / Stature : 0.7870 Walking velocity (m/s) : 1.2014 Walking velocity/ Stature : 0.6587 CoP excursion (m): 0.2961 CoP (%SL): 98.6917 !!!! Ensembled average n = !!!!4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 27 Cause of amputation: ❏❏❏❏
Other: Amputation Level: ❏❏❏❏ M
Other: Affected side : !!!! Right
Device category : ❏❏❏❏ Pro Device type: ❏❏❏❏ Clamshe
Other: Describe device: EVA toe
eporting Form
April 1998
PVD !!!! Trauma ❏❏❏❏ DM
TP !!!! TMT ❏❏❏❏ Lisfranc ❏❏❏❏
❏❏❏❏ Left
sthesis !!!! Orthosis
ll PTB ❏❏❏❏ Below ankle socket
filler
Subject ID: 2103-2116A
❏❏❏❏ Gangrene ❏❏❏❏ other
Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes ❏❏❏❏ Runners !!!! other
Other: casual leather shoes with gentle rocker sole and stiffening shank in sole Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO !!!! Toe filler ❏❏❏❏ other
Amputated limb: !!!! R Left
Degs.
118 Flexion (0
12 Extension
37 Abduction
18 Adduction
42 Internal r
32 External r
Comment
140 Flexion (0
Comment
5 Dorsiflexi
38 Plantarfle
27 Inversion
13 Eversion (
Comment
Gait Analysis RSubject ID : 2103-2116A
eporting Form
ight ❏❏❏❏ Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 125
(0-30°°°°) 13
(0-45°°°°) 42
(0-30°°°°) 20
otation (0-45°°°°) 40
otation (0-45°°°°) 31
s:
Knee
-135°°°°) 140
s:
Ankle
on (0-20°°°°) 10
xion (0-50°°°°) 36
(0-35°°°°) 42
0-15°°°°) 5
s:
Amputated limb: !!!! Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 2103-2116A
eporting Form
ght ❏❏❏❏ Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 2103-2116A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-6 8.1359 BF2 85-100 6.0252
TA1 1-14 6.2198 TA2 28-43 5.5853 TA3 54-76 8.2048 TA4 83-100 10.1714
GM1 2-51 15.9949
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 2103-2116A
0 20 400
50
100Vastus La
0 20 400
50
100Gastrocnemius
EMG amplitude (%MMT)
0 20 400
50
100Soleu
Gait Cy
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-40 11.2819 VL2 92-100 7.2764
GL1 40-49 4.5514
SOL1 6-50 13.1625
60 80 100
teralis (-)
Active
60 80 100
Lateral Head (-)
60 80 100
s (-)
cle [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!!7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2103-2116A
0 20 40 600
20
40
60
80Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30
40
50Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 56.7890 0.7936
ead 97.4948 0.1949 ead 71.5146 0.7373
52.2646 0.4770 ead 134.0570 0.3086
53.3373 0.6760
0 20 40 60 80 1000
20
40
60
80Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
5
10
15Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 Side analysed : !!!! Note: The threshol3%MMT respectiveline with those expe
Gait Analysis RSubject ID : 2103-2116A
0 20 400
20
40
60
80
100Gastrocnemius m
Gait Cycl
0 20 400
20
40
60
80
100Tibialis Ant
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Fem
eporting Form
!!!!7 ❏❏❏❏ Other(n = _ )
Right ❏❏❏❏ Left
d for Gastrocnemius Lateral Head was reduced from 5% MMT to ly so that reasonable muscle on/off times could be determined in cted from visual inspection of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
edial head (-)
e [%]
60 80 100
erior (-)60 80 100
oris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
Active
Threshold = 3% MMT
Gait Analysis RSubject ID : 2103-2116A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 23.6029 HA2 51 -10.9900HA3 61 -1.0188 HA4 90 23.6534 HA5 100 23.4392
KA1 1 -0.2583 KA2 15 6.5455 KA3 61 32.5400 KA4 72 55.6628 KA5 100 -2.3548
AA1 1 -0.4220 AA2 8 -12.2712AA3 51 13.9086 AA4 61 -4.2021 AA5 67 -18.5382AA6 100 0.3794
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 2103-2116A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 3 0.6764HM2 60 -0.2805HM3 95 0.2639
KM1 3 -0.2931KM2 16 0.3249KM3 - - KM4 - - KM5 95 -0.2221
AM1 5 -0.0661AM2 47 0.8479
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-2116A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 13 0.6305 HP2 45 -0.1912 HP3 59 0.6065 HP4 93 0.0302
KP1 11 -0.1795 KP2 20 0.2089 KP3 60 -0.3824 KP4 91 -0.7654
AP1 45 -0.8263 AP2 56 0.7203
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2103-2116A
0 20 40
-2
0
2
Fx (-)
(N/kg)
0 20 400
5
10
Fz (-)
(N/kg)
0 20 400
50
100
Ax (-)
(%IFL)
Gait Cycle
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 11 -1.5917 FX2 48 1.6945
FZ1 16 10.3363 FZ2 27 7.8026 FZ3 45 10.1991
AX1 1 0 AX2 60 93.7612
60 80 100
60 80 100
60 80 100 [%]
Gait Analysis RSubject ID : 2103-2116A
Stature (m) : 1.824 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.8055 0.885
Leg 2.9823 3.253
Thigh 7.9834 8.539
PS - 0.544
FPS - 1.429
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 84.5 Age (years): 54
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
0 0.0309 0 -0.0408 0.0009 0.0021 0.0023
4 0 0 -0.1746 0.0456 0.0466 0.0042
1 0 0 -0.1895 0.1285 0.1330 0.0245
0 0.0700 0 -0.0840 - 0.0052 -
0 0.0458 0 -0.0573 - 0.0084 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2103-2116A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 2595.9 0.9744 Fy 30.8039 0.9555 Fz 8.9977 0.9911
CV(%) CMC Ax 32.0923 0.8985
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 2103-2116A
C
Ankle 11
Knee 13
Hip 26
eporting Form
Variability
Angle Moment Power
V(%) CMC CV(%) CMC CV(%) CMC
5.2756 0.9587 22.7039 0.9700 59.3985 0.9483
.7847 0.9892 124.6596 0.9349 63.8179 0.9096
.3627 0.9603 98.0329 0.9728 60.0180 0.8352
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2103-2116A
eporting Form
Mean SD Range Min Max
1.1833 0.0208 0.0400 1.1600 1.2000
0.7200 0 0 0.7200 0.7200
0.4633 0.0208 0.0400 0.4400 0.4800
60.8577 1.0789 2.0690 60.0000 62.0690
39.1423 1.0789 2.0690 37.9310 40.0000
GC) 47.8042 0.7152 1.4260 47.0588 48.4848
1.3600 0.0287 0.0571 1.3297 1.3868
e 0.7456 0.0157 0.0313 0.7290 0.7603
/s) 1.1493 0.0148 0.0292 1.1362 1.1654
ture 0.6301 0.0081 0.0160 0.6229 0.6389
te) 101.4295 1.7981 3.4483 100.0000 103.4483
0.2892 0.0057 0.0113 0.2830 0.2943
) 96.3889 1.9068 3.7667 94.3333 98.10000
0.4441 0.0251 0.0609 0.4148 0.4757
) 37.9485 1.8216 4.3323 36.1562 40.4885
0.1192 0.0123 0.0278 0.1013 0.1291
C) 10.1952 1.0902 2.3954 8.6239 11.0193
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2103-2116A
Gait cycle (sec) : 1.1833 Side analysed : !!!! Right ❏❏❏❏ Left Stance time (sec) : 0.7200 Stance time (%GC) : 60.8577 Swing Time (sec) : 0.4633 Swing time (%GC) : 39.1423 Single support (sec) : 0.4441 Single support (%GC) : 37.9485 Double support - HC (sec) : 0.1192 Double support - HC (%GC) : 10.1952 Cadence (Steps/min) : 101.4295 Contralateral HC (%GC) : 47.8042 Stride length (m) : 1.3600 Stride length / Stature : 0.7456 Walking velocity (m/s) : 1.1493 Walking velocity/ Stature (1/s): 0.6301 CoP excursion (m): 0.2892 CoP (%SL): 96.3889 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ 7 !!!! Other (n = 3 )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 16 June 1979 Cause of amputation: ❏❏❏❏ PVD !!!! Trauma ❏❏❏❏ DM
Other: Amputation Level: ❏❏❏❏ MTP ❏❏❏❏ TMT !!!! Lisfranc
Other: Affected side : ❏❏❏❏ Right !!!! Left
Subject ID: 2703-1903A
eporting Form
❏❏❏❏ Gangrene ❏❏❏❏ other
❏❏❏❏ Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
Device category : !!!! Prosthesis ❏❏❏❏ Orthosis Device type: ❏❏❏❏ Clamshell PTB !!!! Below ankle socket ❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
Other: Describe device: Acrylic resin below ankle socket with custom silicone liner. Socket has 1cm piece cut out of anterior superior edge to allow access into socket and clamps closed with velcro attachment. Prosthetic fore foot bonded onto socket and covered in leather.
Amputated limb: ❏❏❏❏ Ri Left
Degs.
123 Flexion (0
20 Extension
33 Abduction
22 Adduction
45 Internal r
30 External r
Comment
140 Flexion (0
Comment
15 Dorsiflexi
25 Plantarfle
45 Inversion
4 Eversion (
Comment
Gait Analysis RSubject ID : 2703-1903A
eporting Form
ght !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 122
(0-30°°°°) 22
(0-45°°°°) 40
(0-30°°°°) 25
otation (0-45°°°°) 40
otation (0-45°°°°) 37
s:
Knee
-135°°°°) 145
s:
Ankle
on (0-20°°°°) 15
xion (0-50°°°°) 45
(0-35°°°°) 22
0-15°°°°) 17
s:
Amputated limb: ❏❏❏❏ Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 2703-1903A
eporting Form
ght !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 2703-1903A
0 20 400
50
100Biceps Fe
0 20 400
50
100Tibialis An
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius
Gait Cy
Threshold = 7%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-10 10.2452BF2 86-100 15.9815
TA1 1-7 15.8566TA2 86-100 15.9815
GM1 34-46 9.0833
60 80 100
moris (-)
Active
60 80 100
terior (-)
60 80 100
medial head (-)
cle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 400
50
100Vastus La
0 20 400
50
100Gastrocnemius
EMG amplitude (%MMT)
0 20 400
50
100Soleu
Gait Cy
Threshold = 7%MMT
Threshold = 10%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-26 10.1465 VL2 91-100 8.6533
GL1 34-48 14.3687
SOL1 35-46 16.6317
60 80 100
teralis (-)
Active
60 80 100
Lateral Head (-)
60 80 100
s (-)
cle [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!!7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2703-1903A
0 20 40 600
5
10
15
20
25Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40
50Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
20
40
60Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 53.2708 0.6746
ead 60.3273 0.6380 ead 47.0299 0.5710
67.9388 0.7517 ead 79.8148 0.6497
70.0690 0.6987
0 20 40 60 80 1000
10
20
30
40
50Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30
40Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!! Side analysed : ❏❏❏❏ Note: The thresholdSoleus from5% MMTwere chosen so that those expected from
Gait Analysis RSubject ID : 2703-1903A
0 20 400
20
40
60
80
100Gastrocnemius med
Gait Cycle [
0 20 400
20
40
60
80
100Tibialis Anteri
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Femo
Threshold = 7%MMT
eporting Form
7 ❏❏❏❏ Other(n = _ )
Right !!!! Left
s for Gastrocnemius Medial and Lateral head as well as for to 7%, 7% and 10% MMT respectively. These threshold levels
reasonable muscle on/off times could be determined in line with visual inspection of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
ial head (-)
%]
60 80 100
or (-)60 80 100
ris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
Active
Threshold = 7%MMT
Threshold = 10%MMT
Gait Analysis RSubject ID : 2703-1903A
0 20 40
-20
0
20
40
Hip A
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle
Gait C
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 32.9883 HA2 49 -8.4459 HA3 59 -3.0315 HA4 97 31.8845 HA5 100 32.0128
KA1 1 5.4529 KA2 15 24.6183 KA3 59 35.6312 KA4 70 58.5744 KA5 100 6.2052
AA1 1 5.1769 AA2 8 -10.5588AA3 51 17.3127 AA4 59 3.2228 AA5 65 -5.4905 AA6 100 4.8966
60 80 100
ngle (-)
60 80 100
Angle (-)
60 80 100
Angle (-)
ycle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 7 1.3990HM2 59 -0.4582HM3 93 0.3402
KM1 - - KM2 14 0.5599KM3 43 -0.3894KM4 59 0.1342KM5 93 -0.2756
AM1 5 -0.1098AM2 47 0.9424
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 15 1.6630 HP2 45 -0.0908 HP3 59 0.8197 HP4 100 0.0220
KP1 11 -0.7953 KP2 18 0.4118 KP3 59 -0.7625 KP4 90 -0.9758
AP1 45 -1.5695 AP2 54 0.9446
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 11 -2.5256 FX2 47 1.8238
FZ1 14 12.5975 FZ2 27 6.3098 FZ3 44 9.9500
AX1 1 0 AX2 58 92.8401
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 2703-1903A
Stature (m) : 1.8230 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.7011 0.763
Leg 2.8278 3.089
Thigh 7.3846 7.914
PS - 0.770
FPS - 1.533
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 76.6 Age (years): 53
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
4 0.0122 0 -0.0379 0.0007 0.0014 0.0016
1 0 0 -0.1726 0.0449 0.0455 0.0037
7 0 0 -0.1937 0.1231 0.1259 0.0209
0 0.0380 0 -0.0620 - 0.0056 -
4 0.0251 0 -0.0500 - 0.0074 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2703-1903A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 307.2640 0.9713 Fy 34.2528 0.9427 Fz 8.8469 0.9921
CV(%) CMC Ax 28.9366 0.9235
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 02703-1903A
CV
Ankle 41
Knee 9.
Hip 10
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.7035 0.9513 16.5887 0.9839 67.4730 0.9315
2514 0.9877 168.6681 0.8913 221.8836 0.8847
.4011 0.9890 54.2357 0.9435 56.1692 0.8176
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2703-1903A
eporting Form
Mean SD Range Min Max
1.1300 0.0126 0.0300 1.1100 1.1400
0.6633 0.0082 0.0200 0.6600 0.6800
0.4667 0.0121 0.0300 0.4500 0.4800
58.7256 0.7632 1.7544 57.8947 59.6491
41.2944 0.7632 1.7544 40.3509 42.1053
GC) 49.1781 0.4655 1.2500 48.7500 50.0000
1.6106 0.0304 0.0800 1.5852 1.6652
e 0.8835 0.0167 0.0438 0.8696 0.9134
/s) 1.4253 0.0219 0.0689 1.3918 1.4607
ture 0.7819 0.0120 0.0379 0.7634 0.8013
te) 106.2059 1.1969 2.8449 105.2632 108.1081
0.2932 0.0237 0.0586 0.2669 0.3255
) 97.7222 7.9095 19.5333 88.9667 108.5000
0.4515 0.0138 0.0385 0.4381 0.4766
) 38.4618 0.8550 2.5580 37.6561 40.2141
0.1330 0.0091 0.0280 0.1158 0.1438
C) 11.3336 0.8225 2.2550 10.0889 12.3439
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2703-1903A
Gait cycle (sec) : 1.1300 Side analysed : ❏❏❏❏ Right !!!! Left Stance time (sec) : 0.6633 Stance time (%GC) : 58.7056 Swing Time (sec) : 0.4667 Swing time (%GC) : 41.2944 Single support (sec) : 0.4515 Single support (%GC) : 38.4618 Double support - HC (sec) : 0.1330 Double support - HC (%GC) : 11.3336 Cadence (Steps/min) : 106.2059 Contralateral HC (%GC) : 49.1781 Stride length (m) : 1.6106 Stride length / Stature : 0.8835 Walking velocity (m/s) : 1.4253 Walking velocity/ Stature : 0.7819 CoP excursion (m): 0.2932 CoP (%SL): 97.7222 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = _ )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 16 June 1979 Cause of amputation: ❏❏❏❏ PVD !!!! Trauma ❏❏❏❏ DM
Other: Amputation Level: ❏❏❏❏ MTP ❏❏❏❏ TMT !!!! Lisfranc
Other: Affected side : ❏❏❏❏ Right !!!! Left
Subject ID: 2703-1903A
eporting Form
❏❏❏❏ Gangrene ❏❏❏❏ other
❏❏❏❏ Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
Device category : !!!! Prosthesis ❏❏❏❏ Orthosis Device type: ❏❏❏❏ Clamshell PTB !!!! Below ankle socket ❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
Other: Describe device: Acrylic resin below ankle socket with custom silicone liner. Socket has 1cm piece cut out of anterior superior edge to allow access into socket and clamps closed with velcro attachment. Prosthetic fore foot bonded onto socket and covered in leather.
Amputated limb: ❏❏❏❏ Ri Left
Degs.
123 Flexion (0
20 Extension
33 Abduction
22 Adduction
45 Internal r
30 External r
Comment
140 Flexion (0
Comment
15 Dorsiflexi
25 Plantarfle
45 Inversion
4 Eversion (
Comment
Gait Analysis RSubject ID : 2703-1903A
eporting Form
ght !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 122
(0-30°°°°) 22
(0-45°°°°) 40
(0-30°°°°) 25
otation (0-45°°°°) 40
otation (0-45°°°°) 37
s:
Knee
-135°°°°) 145
s:
Ankle
on (0-20°°°°) 15
xion (0-50°°°°) 45
(0-35°°°°) 22
0-15°°°°) 17
s:
Amputated limb: ❏❏❏❏ Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 2703-1903A
eporting Form
ght !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 2703-1903A
0 20 400
50
100Biceps Fe
0 20 400
50
100Tibialis An
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius
Gait Cy
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-24 4.4285 BF2 82-100 4.7673
TA1 1-6 14.2315TA2 55-75 7.93600TA3 86-100 11.0900
GM1 12-48 8.7236
60 80 100
moris (-)
Active
60 80 100
terior (-)
60 80 100
medial head (-)
cle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 400
50
100Vastus La
0 20 400
50
100Gastrocnemius
EMG amplitude (%MMT)
0 20 400
50
100Soleu
Gait Cy
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-15 12.0998 VL2 87-100 9.4046
GL1 1-51 14.0527 GL2 91-100 5.3776
SOL1 1-49 9.5943 SOL2 95-100 4.8985
60 80 100
teralis (-)
Active
60 80 100
Lateral Head (-)
60 80 100
s (-)
cle [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!!7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2703-1903A
0 20 40 600
5
10
15
20
25Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30
40Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15
20Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC 52.4158 0.7113
ead 50.0098 0.7323 ead 46.6567 0.7465
52.7225 0.7233 ead 63.3356 0.5707
65.7372 0.7303
0 20 40 60 80 1000
10
20
30
40Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30
40
50Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!! Side analysed : !!!!R Note: The threshold3% MMT so that reathose expected from
Gait Analysis RSubject ID : 2703-1903A
0 20 400
20
40
60
80
100Gastrocnemius med
Gait Cycle [
0 20 400
20
40
60
80
100Tibialis Anteri
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Femo
Threshold = 3%MMT
eporting Form
7 ❏❏❏❏ Other(n = _ )
ight ❏❏❏❏ Left
for Biceps Femoris Long Head was reduced from 5% MMT to sonable muscle on/off times could be determined in line with visual inspection of multiple MMT data presented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
ial head (-)
%]
60 80 100
or (-)60 80 100
ris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
Active
Gait Analysis RSubject ID : 2703-1903A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 29.8422 HA2 54 -12.4909HA3 62 -4.7857 HA4 87 30.2966 HA5 100 27.6647
KA1 1 5.1554 KA2 15 29.1913 KA3 62 39.1640 KA4 73 66.4169 KA5 100 4.3061
AA1 1 2.2663 AA2 7 -4.6803 AA3 45 12.4285 AA4 62 -10.5360AA5 65 -13.3606AA6 100 -0.2261
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 2 0.7576HM2 52 -0.5948HM3 93 0.3493
KM1 - - KM2 13 0.8783KM3 44 -0.6939KM4 61 0.1245KM5 94 -0.2801
AM1 5 -0.2345AM2 48 1.7774
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 15 0.6051 HP2 48 -0.4075 HP3 62 0.9899 HP4 92 0.2032
KP1 9 -1.8380 KP2 19 0.6890 KP3 61 -0.6806 KP4 90 -1.4106
AP1 38 -0.5897 AP2 55 2.7318
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2703-1903A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 10 -2.1084 FX2 53 1.9694
FZ1 13 13.1306 FZ2 27 6.8058 FZ3 47 11.4056
AX1 1 0 AX2 60 88.8561
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 2703-1903A
Stature (m) : 1.8230 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 1.0696 1.149
Leg 3.1228 3.401
Thigh 7.2938 7.819
PS - 0.442
FPS - 1.591
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 76.6 Age (years): 53
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
6 0.0571 0 -0.0477 0.0012 0.0058 0.0060
3 0 0 -0.1745 0.0463 0.0469 0.0045
2 0 0 -0.1934 0.1206 0.1238 0.0206
0 0.0580 0 -0.0770 - 0.0045 -
6 0.0573 0 -0.0558 - 0.0105 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2703-1903A
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 337.5192 0.9824 Fy 43.9476 0.8738 Fz 8.8323 0.9905
CV(%) CMC Ax 21.3842 0.9527
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 02703-1903A
CV
Ankle 52
Knee 9.
Hip 1.
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.5113 0.9127 20.1812 0.9794 182.8806 0.8655
5027 0.9856 244.9409 0.9168 128.8463 0.8211
5531 0.9902 299.1060 0.8618 76.9317 0.8385
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2703-1903A
eporting Form
Mean SD Range Min Max
1.1814 0.0241 0.0700 1.1600 1.2300
0.7314 0.0195 0.0600 0.7000 0.7600
0.4500 0.0115 0.0300 0.4400 0.4700
61.9071 0.8154 2.3671 60.3448 62.7119
38.0929 0.8154 2.3671 37.2881 39.6552
GC) 50.5807 0.3220 0.8277 50.2959 51.1236
1.4995 0.0214 0.0572 1.4714 1.5286
e 0.8225 0.0118 0.0314 0.8071 0.8385
/s) 1.2696 0.0309 0.0836 1.2342 1.3178
ture 0.6965 0.0170 0.0459 0.6770 0.7229
te) 101.6074 2.0277 5.8873 97.5610 103.4483
0.2784 0.0086 0.0229 0.2671 0.2900
) 92.7952 2.8600 7.6334 89.0333 96.6667
0.4657 0.0140 0.0351 0.4453 0.4804
) 40.8259 0.9583 2.2430 39.6252 41.8259
0.1081 0.0115 0.0314 0.0898 0.1212
C) 9.4796 1.0663 3.001 7.8288 10.8289
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2703-1903A
Gait cycle (sec) : 1.1814 Side analysed : !!!! Right ❏❏❏❏ Left Stance time (sec) : 0.7314 Stance time (%GC) : 61.9071 Swing Time (sec) : 0.4500 Swing time (%GC) : 38.0929 Single support (sec) : 0.4657 Single support (%GC) : 40.8259 Double support - HC (sec) : 0.1081 Double support - HC (%GC) : 9.4796 Cadence (Steps/min) : 101.6074 Contralateral HC (%GC) : 50.5807 Stride length (m) : 1.4995 Stride length / Stature : 0.8225 Walking velocity (m/s) : 1.2696 Walking velocity/ Stature (1/s): 0.6965 CoP excursion (m): 0.2784 CoP (%SL): 92.7952 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!!7 ❏❏❏❏ Other (n = _ )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis
Date of amputation: 1 September 1982 Cause of amputation: ❏❏❏❏ PVD ❏❏❏❏ Trauma ❏❏❏❏ DM
Other: Secondary to Lupus Amputation Level: ❏❏❏❏ MTP ❏❏❏❏ TMT !!!! Lisfran
Other: bilaterally Affected side : !!!! Right !!!! Left
Device category : ❏❏❏❏ Prosthesis !!!! Orthosis Device type: ❏❏❏❏ Clamshell PTB ❏❏❏❏ Below ankle socke
Other: Describe device: Bilateral perforated Plastizote toe filler
Subject ID: 2803-0410A
Reporting Form
!!!! Gangrene ❏❏❏❏ other
c ❏❏❏❏ Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: !!!! Boots ❏❏❏❏ Dress shoes ❏❏❏❏ Runners ❏❏❏❏ other
Other: Canvas boots Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
t ❏❏❏❏ AFO !!!! Toe filler ❏❏❏❏ other
s
Amputated limb: !!!! R Left
Degs.
106 Flexion (0
13 Extension
22 Abductio
17 Adductio
35 Internal r
35 External
Comment
141 Flexion (0
Comment
10 Dorsiflexi
20 Plantarfle
7 Inversion
2 Eversion
Comment
Gait Analysis Subject ID : 2803-0410A
Reporting Form
ight !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 104
(0-30°°°°) 13
n (0-45°°°°) 26
n (0-30°°°°) 15
otation (0-45°°°°) 33
rotation (0-45°°°°) 35
s:
Knee
-135°°°°) 140
s:
Ankle
on (0-20°°°°) 3
xion (0-50°°°°) 21
(0-35°°°°) 4
(0-15°°°°) 2
s:
Amputated limb: !!!! R Left
5 Flexion
4 Extensio
4 Adducti
4 Abducti
5 Internal
5 Externa
5 Flexion
5 Extensio
5 Dorsifle
5 Plantarf
2 Internal
2 Externa
Gait Analysis Subject ID : 2803-0410A
Reporting Form
ight !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 4
on 4
on 4
rotation 5
l rotation 5
Knee
5
n 5
Ankle
xion 5
lexion 5
rotation 2
l rotation 2
Gait Analysis Subject ID : 2803-0410A
0 20 400
50
100Biceps F
0 20 400
50
100Tibialis A
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius
Gait Cy
Threshold = 7%MMT
Threshold = 7%MMT
Reporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-14 9.4290 BF2 73-100 11.9510
TA1 1-35 9.6785 TA2 90-100 13.5014
60 80 100
emoris (-)
Active
60 80 100
nterior (-)
60 80 100
medial head (-)
cle [%]
Gait Analysis Subject ID : 2803-0410A
0 20 400
50
100Vastus L
0 20 400
50
100Gastrocnemius
EMG amplitude (%MMT)
0 20 400
50
100Sole
Gait Cy
Threshold = 2.5%MMT
Reporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-48 3.6968 VL2 84-100 3.5020
60 80 100
ateralis (-)
Active
60 80 100
Lateral Head (-)
60 80 100
us (-)
cle [%]
n = !!!!4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏
Soleus Gastrocnemius Lateral Gastrocnemius Medial Tibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis Subject ID : 2803-0410A
0 20 40 60-1
-0.5
0
0.5
1Gastrocnemius Medial
Gait Cycle [%]
0 20 40 600
10
20
30
40
50Tibialis Anterior (
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30
40
50Biceps Femoris (
Reporting Form
7 ❏❏❏❏ Other(n = _ )
Variability CV(%) CMC
- - Head - - Head - -
71.7845 0.3452 ead 67.0413 0.3981
94.6832 0.0588
0 20 40 60 80 100-1
-0.5
0
0.5
1Soleus (-)
Gait Cycle [%]
0 20 40 60 80 100-1
-0.5
0
0.5
1Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
head (-)
80 100
-)80 100
-)
0 20 40 60 80 1000
5
10
15Vastus Lateralis (-)
EMG
n = !!!! 4 ❏❏❏❏ 5 ❏❏❏❏ 6 Note: The thresholdLateralis were adjusthreshold levels werdetermined in line wpresented. The large variabilityrecorded during muelectrical noise and The EMG patterns rpresented, as there wmaximal muscle conrecorded.
Gait Analysis Subject ID : 2803-0410A
0 20 400
20
40
60
80
100Gastrocnemius me
Gait Cycle
0 20 400
20
40
60
80
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Femo
Threshold = 7%MMT
Threshold = 7%MMT
Reporting Form
❏❏❏❏ 7 ❏❏❏❏ Other(n = _ )
s for Biceps Femoris Long Head, Tibialis Anterior and Vastus ted from5% MMT to 7%, 7% and 2.5% MMT respectively. These e chosen so that reasonable muscle on/off times could be ith those expected from visual inspection of multiple MMT data
in EMG patterns combined with the relatively small voltages scle activity made it difficult to adequately distinguish between the muscle contraction.
ecorded for the Triceps Surae muscle group has not been as no distinguishable muscle activity recorded during gait or
traction. As such, it is not possible to have confidence in the data
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
dial head (-)
[%]
60 80 100
rior (-)60 80 100
ris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 2.5%MMT
Gait Analysis Subject ID : 2803-0410A
0 20 40
-20
0
20
40
Hip A
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
Reporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 28.1148 HA2 53 -4.1509 HA3 65 5.7611 HA4 87 33.4481 HA5 100 28.6170
KA1 1 -0.4286 KA2 15 11.8326 KA3 65 29.7838 KA4 75 50.7717 KA5 100 -3.2856
AA1 1 -1.9641 AA2 8 -6.5800 AA3 51 11.2480 AA4 65 -4.6726 AA5 71 -10.6235AA6 100 -3.3519
60 80 100
ngle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis Subject ID : 2803-0410A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Kne
(Nm/kg) Ext. >
0 20 40
0
1
2
Ank
Ga
(Nm/kg) Ext. >
Reporting Form
Event Time (% GC)
Moment (Nm/kg)
HM1 - - HM2 63 -0.3647 HM3 96 0.2449
KM1 3 -0.4008 KM2 15 0.4491 KM3 - - KM4 62 0.0970 KM5 96 -0.2330
AM1 8 -0.1329 AM2 51 0.7430
60 80 100
Moment (-)
60 80 100
e Moment (-)
60 80 100
le Moment ()
it Cycle [%]
Gait Analysis Subject ID : 2803-0410A
0 20 40-1
0
1
2
Hi
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kn
(W/kg) Gen. >
0 20 40-2
0
2
4
6An
(W/kg) Gen. >
Ga
Reporting Form
Event Time (% GC)
Power (W/kg)
HP1 13 1.2656 HP2 48 -0.0784 HP3 67 0.9443 HP4 96 0.2205
KP1 12 -0.3190 KP2 19 0.2950 KP3 63 -0.5138 KP4 93 -0.9885
AP1 48 -0.4292 AP2 56 0.7027
60 80 100
p Power (-)
60 80 100
ee Power (-)
60 80 100
kle Power ()
it Cycle [%]
Gait Analysis Reporting Form
Subject ID : 2803-0410A
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 13 -1.4417 FX2 53 1.2335
FZ1 15 12.6033 FZ2 29 7.9560 FZ3 47 10.3257
AX1 1 0.5563 AX2 63 88.6217
0 20 40 60 80 100
-2
0
2
Fx (-)
(N/kg)
0 20 40 60 80 1000
5
10
Fz (-)
(N/kg)
0 20 40 60 80 1000
50
100
Ax (-)
(%IFL)
Gait Cycle [%]
Gait Analysis Subject ID : 2803-0410A
Stature (m) : 1.612 Inverse dynamic model:
Volume
(ltrs.)
Ma
(kg
Foot 0.3910 0.42
Leg 2.2204 2.42
Thigh 5.4147 5.71
PS - 0.31
FPS - 0.73
LFPS 0 0
PS : Prosthesis or orthosiFPS : combined foot, prLFPS : combined leg, foo
Reporting Form
Anthropometric data
Weight (kg): 50.0 Age (years): 63
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia ss
.) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
09 0.0140 0 -0.0279 0.0002 0.0007 0.0008
46 0 0 -0.1715 0.0311 0.0315 0.0023
64 0 0 -0.1793 0.0769 0.0789 0.0121
00 0.0500 0 -0.0420 - 0.0030 -
09 0.0930 0 -0.0339 - 0.0040 -
0 0 0 0 0 0
s and shoe osthesis/orthosis and shoe as a lumped segment t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2803-0410A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 140.3942 0.9738 Fy 27.1208 0.9481 Fz 9.9521 0.9882
CV(%) CMC Ax 47.4916 0.8237
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis Subject ID : 02803-0410A
C
Ankle 1
Knee 22
Hip 14
Reporting Form
Variability
Angle Moment Power
V(%) CMC CV(%) CMC CV(%) CMC
373.5 0.9170 49.6052 0.9333 832.4684 0.8591
.2204 0.9659 228.1943 0.8955 166.7496 0.7863
.1578 0.9715 53.2728 0.9387 39.3007 0.8573
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/st
Cadence (steps/min
CoP excursion (m)
CoP excursion (%S
Single support (s)
Single support (%G
Double support (s)
Double support (%G
Gait Analysis Subject ID : 2803-0410A
Reporting Form
Mean SD Range Min Max
1.0750 0.0532 0.1100 1.0200 1.1300
0.6950 0.0473 0.1000 0.6600 0.7600
0.3800 0.0216 0.0500 0.3600 0.4100
64.6218 1.8908 4.1935 60.0631 67.2566
35.3782 1.8908 4.1935 32.7434 36.9369
GC) 50.3132 0.6992 1.5869 49.3333 50.9202
0.9994 0.0052 0.0118 0.9952 1.0070
e 0.6200 0.0032 0.0073 0.6174 0.6247
/s) 0.9314 0.0453 0.0981 0.8807 0.9788
ature 0.5777 0.0281 0.0609 0.5463 0.6072
ute) 111.8336 5.5402 11.4524 106.1947 117.6471
0.2423 0.0210 0.0426 0.2192 0.2618
L) 98.8980 8.5551 17.3877 89.4694 106.8571
0.3973 0.0195 0.0440 0.3813 0.4253
C) 37.0699 1.9079 3.9766 35.4624 39.4390
0.1395 0.0221 0.0465 0.1069 0.1534
C) 13.0215 2.0784 4.3035 9.9116 14.2151
Gait Analysis
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
Reporting Form
100
100
100
20 40 60-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2803-0410A
Gait cycle (sec) : 1.0750 Side analysed : ❏❏❏❏ Right !!!! Left Stance time (sec) : 0.6950 Stance time (%GC) : 64.6218 Swing Time (sec) : 0.3800 Swing time (%GC) : 35.3782 Single support (sec) : 0.3973 Single support (%GC): 37.0699 Double support - HC (sec) : 0.1395 Double support - HC (%GC) : 13.0215 Cadence (Steps/min) : 111.8336 Contralateral HC (%GC) : 50.3132 Stride length (m) : 0.9994 Stride length / Stature : 0.6200 Walking velocity (m/s) : 0.9314 Walking velocity/ Stature : 0.5777 CoP excursion (m): 0.2423 CoP (%SL): 98.8980 !!!! Ensembled average n = !!!!4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = _ )
80 100
80 100
80 100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 1 September 1982 Cause of amputation: ❏❏❏❏ PVD ❏❏❏❏ Trauma ❏❏❏❏ DM
Other: Secondary to Lupus Amputation Level: ❏❏❏❏ MTP ❏❏❏❏ TMT !!!! Lisfranc
Other: bilaterally Affected side : !!!! Right !!!! Left
Device category : ❏❏❏❏ Prosthesis !!!! Orthosis Device type: ❏❏❏❏ Clamshell PTB ❏❏❏❏ Below ankle socket
Other: Describe device: Bilateral perforated Plastizote toe fillers
Subject ID: 2803-0410A
eporting Form
!!!! Gangrene ❏❏❏❏ other
❏❏❏❏ Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: !!!! Boots ❏❏❏❏ Dress shoes ❏❏❏❏ Runners ❏❏❏❏ other
Other: Canvas boots Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO !!!! Toe filler ❏❏❏❏ other
Amputated limb: !!!! Ri Left
Degs.
106 Flexion (0
13 Extension
22 Abduction
17 Adduction
35 Internal r
35 External r
Comment
141 Flexion (0
Comment
10 Dorsiflexi
20 Plantarfle
7 Inversion
2 Eversion (
Comment
Gait Analysis RSubject ID : 2803-0410A
eporting Form
ght !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 104
(0-30°°°°) 13
(0-45°°°°) 26
(0-30°°°°) 15
otation (0-45°°°°) 33
otation (0-45°°°°) 35
s:
Knee
-135°°°°) 140
s:
Ankle
on (0-20°°°°) 3
xion (0-50°°°°) 21
(0-35°°°°) 4
0-15°°°°) 2
s:
Amputated limb: !!!! Ri Left
5 Flexion
4 Extensio
4 Adductio
4 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
2 Internal
2 External
Gait Analysis RSubject ID : 2803-0410A
eporting Form
ght !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 4
n 4
n 4
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 2
rotation 2
Gait Analysis RSubject ID : 2803-0410A
0 20 400
50
100Biceps Fem
0 20 400
50
100Tibialis Ante
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemius m
Gait Cycle
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-4 6.6529 BF2 76-100 9.7410
TA1 1-71 8.7735 TA2 83-100 9.9706
60 80 100
oris (-)
Active
60 80 100
rior (-)
60 80 100
edial head (-)
[%]
Gait Analysis RSubject ID : 2803-0410A
0 20 400
50
100Vastus La
0 20 400
50
100Gastrocnemius
EMG amplitude (%MMT)
0 20 400
50
100Soleu
Gait Cy
Threshold = 7%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-28 15.2904 VL2 87-100 11.5522
60 80 100
teralis (-)
Active
60 80 100
Lateral Head (-)
60 80 100
s (-)
cle [%]
n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 2803-0410A
0 20 40 60-1
-0.5
0
0.5
1Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30
40Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = _ )
Variability CV(%) CMC
- - ead - - ead - -
58.7438 0.3091 ead 60.0477 0.6366
59.2518 0.5499
0 20 40 60 80 100-1
-0.5
0
0.5
1Soleus (-)
Gait Cycle [%]
0 20 40 60 80 100-1
-0.5
0
0.5
1Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
10
20
30
40Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 !!!!5 ❏❏❏❏ 6 ❏❏❏❏ Note: The thresholdthreshold level was cdetermined in line wpresented. The large variabilityrecorded during muselectrical noise and The EMG patterns represented, as there wmaximal muscle conrecorded.
Gait Analysis RSubject ID : 2803-0410A
0 20 400
20
40
60
80
100Gastrocnemius med
Gait Cycle [
0 20 400
20
40
60
80
100Tibialis Anteri
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Femo
eporting Form
7 ❏❏❏❏ Other(n = _ )
for Vastus Lateralis was adjusted from5% MMT to 7%. This hosen so that reasonable muscle on/off times could be ith that expected from visual inspection of the multiple MMT data
in EMG patterns combined with the relatively small voltages cle activity made it difficult to adequately distinguish between the
muscle contraction.
corded for the Triceps Surae muscle group has not been as no distinguishable muscle activity recorded during gait or
traction. As such, it is not possible to have confidence in the data
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
ial head (-)
%]
60 80 100
or (-)60 80 100
ris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 7%MMT
Gait Analysis RSubject ID : 2803-0410A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 36.5652 HA2 54 -1.2891 HA3 63 8.3756 HA4 88 42.8623 HA5 100 37.2930
KA1 1 5.4331 KA2 15 13.2453 KA3 63 27.9307 KA4 75 54.0668 KA5 100 3.1024
AA1 1 -3.0856 AA2 8 -11.4715AA3 58 12.2411 AA4 63 7.2298 AA5 72 -12.4291AA6 100 -2.8780
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 2803-0410A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 3 0.7594HM2 51 -0.5272HM3 93 0.2599
KM1 3 -0.3840KM2 17 0.6887KM3 - - KM4 - - KM5 94 -0.2302
AM1 6 -0.0505AM2 51 0.4276
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 2803-0410A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 14 0.5228 HP2 48 -0.5687 HP3 64 0.8589 HP4 95 0.2293
KP1 11 -0.4344 KP2 22 0.5406 KP3 60 -0.5729 KP4 92 -1.0589
AP1 52 -0.5436 AP2 61 0.1211
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 2803-0410A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 14 -1.2763 FX2 51 1.1945
FZ1 17 11.1079 FZ2 32 8.4869 FZ3 47 9.4396
AX1 1 0 AX2 61 80.8534
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 2803-0410A
Stature (m) : 1.612 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.3270 0.355
Leg 2.0719 2.261
Thigh 5.2913 5.589
PS - 0.326
FPS - 0.681
LFPS 0 0
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 50.0 Age (years): 63
❏ Chopart ! Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
9 -0.0093 0 -0.0283 0.0002 0.0004 0.0005
7 0 0 -0.1680 0.0283 0.0287 0.0021
3 0 0 -0.1832 0.0784 0.0793 0.0112
0 0.0250 0 -0.0400 - 0.0030 -
9 0.0071 0 -0.0339 - 0.0037 -
0 0 0 0 0 0
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 2803-0410A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 1471.4 0.9563 Fy 45.6547 0.8803 Fz 9.6083 0.9897
CV(%) CMC Ax 38.1321 0.8488
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 02803-0410A
CV
Ankle 64
Knee 9.
Hip 7.
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.6537 0.9627 25.6803 0.9525 47.7168 0.9071
5137 0.9922 37.4359 0.9490 116.0539 0.9205
7510 0.9863 215.7508 0.9447 54.7104 0.9314
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 2803-0410A
eporting Form
Mean SD Range Min Max
1.0850 0.0265 0.0600 1.0600 1.1200
0.6850 0.0252 0.0600 0.6600 0.7200
0.4000 0.0216 0.0500 0.3800 0.4300
63.1346 1.7521 3.7352 60.5505 64.2857
36.8654 1.7521 3.7352 35.7143 39.4495
GC) 50.3861 1.0456 2.2022 49.3506 51.5528
0.9780 0.0162 0.0326 0.9607 0.9933
e 0.6067 0.0100 0.0202 0.5960 0.6162
/s) 0.9016 0.0117 0.0262 0.8869 0.9131
ture 0.5593 0.0072 0.0162 0.5502 0.5664
te) 110.6479 2.6709 6.0646 107.1429 113.2075
0.2139 0.0183 0.0386 0.1973 0.2359
) 87.3163 7.4696 15.7551 80.5306 96.2857
0.3782 0.0212 0.0497 0.3554 0.4051
) 36.4705 1.4340 3.0333 35.0642 38.0975
0.1549 0.0201 0.0410 0.1440 0.1850
C) 14.9338 1.8009 4.0309 13.5365 17.5674
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 2803-0410A
Gait cycle (sec) : 1.0850 Side analysed : !!!! Right ❏❏❏❏ Left Stance time (sec) : 0.6850 Stance time (%GC) : 63.1346 Swing Time (sec) : 0.4000 Swing time (%GC) : 36.8654 Single support (sec) : 0.3782 Single support (%GC): 36.4705 Double support - HC (sec) : 0.1549 Double support - HC (%GC) : 14.9338 Cadence (Steps/min) : 110.6479 Contralateral HC (%GC) : 50.3861 Stride length (m) : 0.9780 Stride length / Stature : 0.6067 Walking velocity (m/s) : 0.9016 Walking velocity/ Stature (1/s): 0.5593 CoP excursion (m): 0.2139 CoP (%SL): 87.3163 !!!! Ensembled average n = !!!!4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = _ )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 14 September 1989 Cause of amputation: ❏❏❏❏ PVD !!!! Trauma ❏❏❏❏ DM
Other: Amputation Level: ❏❏❏❏ MTP ❏❏❏❏ TMT ❏❏❏❏ Lisfranc
Other: Affected side : ❏❏❏❏ Right !!!! Left
Device category : !!!! Prosthesis ❏❏❏❏ Orthosis Device type: !!!!Clamshell PTB ❏❏❏❏ Below ankle socket
Other: Describe device: Acrylic laminated socket with posterior wthe bottom of the socket
Subject ID: 3004-1102A
eporting Form
❏❏❏❏ Gangrene ❏❏❏❏ other
!!!! Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
indow with SACH foot bonded onto
Amputated limb: ❏❏❏❏ Ri Left
Degs.
112 Flexion (0
17 Extension
35 Abduction
15 Adduction
37 Internal r
29 External r
Comment
147 Flexion (0
Comment
8 Dorsiflexi
20 Plantarfle
8 Inversion
2 Eversion (
Comment
Gait Analysis RSubject ID : 3004-1102A
eporting Form
ght !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 135
(0-30°°°°) 18
(0-45°°°°) 40
(0-30°°°°) 17
otation (0-45°°°°) 39
otation (0-45°°°°) 25
s:
Knee
-135°°°°) 135
s:
Ankle
on (0-20°°°°) 8
xion (0-50°°°°) 55
(0-35°°°°) 18
0-15°°°°) 12
s:
Amputated limb: ❏❏❏❏ Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 3004-1102A
eporting Form
ght !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 3004-1102A
0 20 400
50
100Bicep
0 20 400
50
100Tibial
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnem
Gai
Threshold = 10%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 18-49 12.1998BF2 82-96 15.5224
60 80 100
s Femoris (-)
Active
60 80 100
is Anterior (-)
60 80 100
ius medial head (-)
t Cycle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 400
50
100Vastu
0 20 400
50
100Gastrocnem
EMG amplitude (%MMT)
0 20 400
50
100S
Gai
Threshold = 3%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-23 5.2133 VL2 87-100 4.3810
60 80 100
s Lateralis (-)
Active
60 80 100
ius Lateral Head (-)
60 80 100
oleus (-)
t Cycle [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ 7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 3004-1102A
0 20 40 60-1
-0.5
0
0.5
1Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 60-1
-0.5
0
0.5
1Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
10
20
30
40Biceps Femoris (-
eporting Form
!!!! Other(n = 3 )
Variability CV(%) CMC
- - ead - - ead - -
- - ead 55.4699 0.5366
62.7749 0.6619
0 20 40 60 80 100-1
-0.5
0
0.5
1Soleus (-)
Gait Cycle [%]
0 20 40 60 80 100-1
-0.5
0
0.5
1Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
5
10
15Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ Side analysed : ❏❏❏❏ Note: The thresholdMMT to 10% and 3%reasonable muscle ovisual inspection of munable to be obtainebecause of the Clamin these muscles - ev
Gait Analysis RSubject ID : 3004-1102A
0 20 400
20
40
60
80
100Gastrocnemius med
Gait Cycle [
0 20 400
20
40
60
80
100Tibialis Anteri
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Femo
Threshold = 10% MMT
eporting Form
7 !!!! Other(n = 3 )
Right !!!! Left
s for Biceps Femoris and Vastus Lateralis were altered from 5% MMT respectively. These threshold levels were chosen so that
n/off times could be determined in line with those expected from ultiple MMT data presented. Good quality EMG data were
d for the triceps surae muscle group and Tibialis Anterior shell PTB socket and the significant electrical inactivity observed en during maximal contractions.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
ial head (-)
%]
60 80 100
or (-)60 80 100
ris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 3%MMT
Gait Analysis RSubject ID : 3004-1102A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 26.7153 HA2 53 -21.2736HA3 61 -14.9424HA4 - - HA5 100 26.1554
KA1 1 2.8872 KA2 14 15.1117 KA3 61 23.1136 KA4 73 55.1557 KA5 100 1.4166
AA1 1 -1.4545 AA2 12 -10.3013AA3 50 0.2561 AA4 61 -4.8930 AA5 69 -9.2502 AA6 100 -1.6592
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 3 0.9128HM2 51 -0.3289HM3 94 0.2353
KM1 3 -0.4262KM2 14 0.3327KM3 47 -0.7531KM4 - - KM5 95 -0.2176
AM1 - - AM2 - -
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 20 0.8631 HP2 49 -0.2125 HP3 63 0.4601 HP4 93 -0.0330
KP1 9 -0.2060 KP2 19 0.1725 KP3 66 -0.2292 KP4 91 -0.7546
54 1.3343
AP1 - - AP2 - -
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 16 -1.6404 FX2 53 1.7019
FZ1 17 10.4509 FZ2 35 7.3298 FZ3 49 11.8970
AX1 1 1.1290 AX2 59 88.3625
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 3004-1102A
Stature (m) : 1.785 Inverse dynamic model:
Volume
(ltrs.)
Mas
(kg.
Foot 0.4045 0.443
Leg 2.4370 2.672
Thigh 9.9998 10.65
PS - 1.589
FPS - 0
LFPS - 4.705
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 93.0 Age (years): 19
! Chopart ❏ Normal / Orthotic
Centre of Mass Mass moment of Interia s
) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
4 -0.0127 0 -0.0364 0.0003 0.0006 0.0006
8 0 0 -0.1584 0.0394 0.0398 0.003
4 0 0 -0.1803 0.1518 0.1583 0.0403
0 0.0280 0 -0.3750 - 0.0339 -
0 0 0 - 0 -
2 0.0083 0 -0.2587 - 0.1605 -
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 3004-1102A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 181.6388 Fy 34.3969 Fz 9.7649
CV(%) CMC Ax 28.4291
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 3004-1102A
CV
Ankle 23
Knee 22
Hip 29
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.7687 0.9134 - - - -
.5721 0.9667 41.5874 0.9603 5851.0 0.9004
.5559 0.9872 51.5744 0.9459 56.2476 0.8218
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 3004-1102A
eporting Form
Mean SD Range Min Max
1.2275 0.0171 0.0400 1.2100 1.2500
0.7500 0.0115 0.0200 0.7400 0.7600
0.4775 0.0222 0.0500 0.4600 0.5100
61.1102 1.3559 3.0951 59.2000 62.2951
38.8898 1.3559 3.0951 37.7049 40.8000
GC) 50.6317 0.5265 1.1141 50.2825 51.3966
1.4193 0.0188 0.0410 1.4024 1.4434
e 0.7951 0.0105 0.0229 0.7857 0.8086
/s) 1.1564 0.0246 0.0530 1.1399 1.1929
ture 0.6479 0.0138 0.0297 0.6386 0.6683
te) 97.7738 1.3535 3.1736 96.0000 99.1736
0.3045 0.0025 0.0051 0.3017 0.3068
) 96.9825 0.7893 1.6242 96.0828 97.7070
0.4610 0.0099 0.0280 0.4466 0.4746
) 37.0291 0.6862 1.7313 36.0245 37.7558
0.1647 0.0082 0.0225 0.1542 0.1767
C) 13.2320 0.7321 2.0826 12.1723 14.2549
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 3004-1102A
Gait cycle (sec) : 1.2275 Side analysed : ❏❏❏❏ Right !!!! Left Stance time (sec) : 0.7500 Stance time (%GC) : 61.1102 Swing Time (sec) : 0.4775 Swing time (%GC) : 38.8898 Single support (sec) : 0.4610 Single support (%GC) : 37.0291 Double support - HC (sec) : 0.1647 Double support - HC (%GC) : 13.2320 Cadence (Steps/min) : 97.7738 Contralateral HC (%GC) : 50.6317 Stride length (m) : 1.4193 Stride length / Stature : 0.7951 Walking velocity (m/s) : 1.1564 Walking velocity/ Stature : 0.6479 CoP excursion (m): 0.3045 CoP (%SL): 96.9825 !!!! Ensembled average n = !!!!4 ❏❏❏❏ 5 ❏❏❏❏ 6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = _ )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >
Gait Analysis R
Date of amputation: 14 September 1989 Cause of amputation: ❏❏❏❏ PVD !!!! Trauma ❏❏❏❏ DM
Other: Amputation Level: ❏❏❏❏ MTP ❏❏❏❏ TMT ❏❏❏❏ Lisfranc
Other: Affected side : ❏❏❏❏ Right !!!! Left
Device category : !!!! Prosthesis ❏❏❏❏ Orthosis Device type: !!!!Clamshell PTB ❏❏❏❏ Below ankle socket
Other: Describe device: Acrylic laminated socket with posterior wthe bottom of the socket
Subject ID: 3004-1102A
eporting Form
❏❏❏❏ Gangrene ❏❏❏❏ other
!!!! Chopart ❏❏❏❏ other
Skin Condition: !!!! Intact ❏❏❏❏ Lesions : Sensation : !!!! Intact ❏❏❏❏ Impaired : Footware: ❏❏❏❏ Boots ❏❏❏❏ Dress shoes !!!! Runners ❏❏❏❏ other
Other: Gait aids: !!!! None ❏❏❏❏ 1 x single point stick ❏❏❏❏ 2 x single point stick ❏❏❏❏ other
Other:
❏❏❏❏ AFO ❏❏❏❏ Toe filler ❏❏❏❏ other
indow with SACH foot bonded onto
Amputated limb: ❏❏❏❏ Ri Left
Degs.
112 Flexion (0
17 Extension
35 Abduction
15 Adduction
37 Internal r
29 External r
Comment
147 Flexion (0
Comment
8 Dorsiflexi
20 Plantarfle
8 Inversion
2 Eversion (
Comment
Gait Analysis RSubject ID : 3004-1102A
eporting Form
ght !!!! Left
Joint range of motion Right
Hip
Degs.
-120°°°°) 135
(0-30°°°°) 18
(0-45°°°°) 40
(0-30°°°°) 17
otation (0-45°°°°) 39
otation (0-45°°°°) 25
s:
Knee
-135°°°°) 135
s:
Ankle
on (0-20°°°°) 8
xion (0-50°°°°) 55
(0-35°°°°) 18
0-15°°°°) 12
s:
Amputated limb: ❏❏❏❏ Ri Left
5 Flexion
5 Extensio
5 Adductio
5 Abductio
5 Internal
5 External
5 Flexion
5 Extensio
5 Dorsiflex
5 Plantarfl
5 Internal
5 External
Gait Analysis RSubject ID : 3004-1102A
eporting Form
ght !!!! Left
Oxford Manual Muscle strength test Right
Hip
5
n 5
n 5
n 5
rotation 5
rotation 5
Knee
5
n 5
Ankle
ion 5
exion 5
rotation 5
rotation 5
Gait Analysis RSubject ID : 3004-1102A
0 20 400
50
100Biceps
0 20 400
50
100Tibialis
EMG amplitude (%MMT)
0 20 400
50
100Gastrocnemiu
Gait C
Threshold = 3%MMT
Threshold = 7%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
BF1 1-18 3.9738 BF2 82-100 7.9284
TA1 1-4 11.5706TA2 55-78 7.3075 TA3 89-100 9.1923
GM1 8-47 16.7597
60 80 100
Femoris (-)
Active
60 80 100
Anterior (-)
60 80 100
s medial head (-)
ycle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 400
50
100Vastus
0 20 400
50
100Gastrocnemiu
EMG amplitude (%MMT)
0 20 400
50
100Sol
Gait C
Threshold = 3%MMT
Threshold = 6%MMT
eporting Form
Event Active period (% GC)
Mean (MMT%)
VL1 1-13 5.8815 VL2 39-49 3.7555 VL3 87-100 5.3285
GL1 1-50 9.7297 GL2 62-67 7.6564
SOL1 2-51 11.6156 SOL2 77-94 7.9516
60 80 100
Lateralis (-)
Active
60 80 100
s Lateral Head (-)
60 80 100
eus (-)
ycle [%]
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!!7
Soleus Gastrocnemius Lateral HGastrocnemius Medial HTibialis Anterior Biceps Femoris Long HVastus Lateralis
Gait Analysis RSubject ID : 3004-1102A
0 20 40 600
20
40
60Gastrocnemius Medial h
Gait Cycle [%]
0 20 40 600
10
20
30Tibialis Anterior (-
EMG - Normalised to 100% MMT
0 20 40 600
5
10
15
20
25Biceps Femoris (-
eporting Form
❏❏❏❏ Other(n = )
Variability CV(%) CMC 47.6827 0.5697
ead 49.1386 0.6951 ead 54.8985 0.6965
57.2558 0.6405 ead 60.9726 0.6037
61.0671 0.5953
0 20 40 60 80 1000
10
20
30
40Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
10
20
30
40Gastrocnemius lateral head (-)
EMG - Normalised to 100% MMT
80 100
ead (-)
80 100
)80 100
)
0 20 40 60 80 1000
5
10
15Vastus Lateralis (-)
EMG
n = ❏❏❏❏ 4 ❏❏❏❏ 5 ❏❏❏❏ 6 !!!! Side analysed : !!!! Note: The thresholdand gastrocnemius mMMT respectively. Ton/off times could bemultiple MMT data p
Gait Analysis RSubject ID : 3004-1102A
0 20 400
20
40
60
80
100Gastrocnemius med
Gait Cycle [
0 20 400
20
40
60
80
100Tibialis Anteri
EMG amplitude (%MMT)
0 20 400
20
40
60
80
100Biceps Femo
Threshold = 3%MMT
Threshold = 7%MMT
eporting Form
7 ❏❏❏❏ Other(n = )
Right ❏❏❏❏ Left
s for Biceps Femori, Vastus Lateralis, gastrocnemius lateral head edial head were altered from 5% MMT to 3%, 3%, 6% and 7% hese threshold levels were chosen so that reasonable muscle determined in line with those expected from visual inspection of resented.
0 20 40 60 80 1000
20
40
60
80
100Soleus (-)
Gait Cycle [%]
0 20 40 60 80 1000
20
40
60
80
100Gastrocnemius lateral head (-)
EMG amplitude (%MMT)
60 80 100
ial head (-)
%]
60 80 100
or (-)60 80 100
ris (-)
0 20 40 60 80 1000
20
40
60
80
100Vastus Lateralis (-)
ActiveThreshold = 3%MMT
Threshold = 6%MMT
Gait Analysis RSubject ID : 3004-1102A
0 20 40
-20
0
20
40
Hip An
(Deg.) Flex. >
0 20 40-20
0
20
40
60
80Knee A
(Deg.) Flex. >
0 20 40-40
-20
0
20
Ankle A
Gait Cy
(Deg.) Flex. >
eporting Form
Event Time (% GC)
Angle (Deg.)
HA1 1 29.2586 HA2 52 -14.0157HA3 63 -4.4099 HA4 - - HA5 100 28.8352
KA1 1 -0.0837 KA2 14 21.5620 KA3 63 38.8622 KA4 73 62.3869 KA5 100 0.3282
AA1 1 -5.0965 AA2 6 -11.3314AA3 49 2.4119 AA4 63 -23.6783AA5 65 -25.0397AA6 100 -9.9616
60 80 100
gle (-)
60 80 100
ngle (-)
60 80 100
ngle (-)
cle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 40-1
0
1
2
Hip
(Nm/kg) Ext. >
0 20 40
-1
0
1
Knee
(Nm/kg) Ext. >
0 20 40
0
1
2
Ankl
Gai
(Nm/kg) Ext. >
eporting Form
Event Time (% GC)
Moment(Nm/kg)
HM1 2 0.9425HM2 51 -0.5633HM3 93 0.2795
KM1 2 -0.5212KM2 13 0.4931KM3 45 -0.4769KM4 60 0.0965KM5 94 -0.2373
AM1 4 -0.0911AM2 49 1.6858
60 80 100
Moment (-)
60 80 100
Moment (-)
60 80 100
e Moment ()
t Cycle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 40-1
0
1
2
Hip
(W/kg) Gen. >
0 20 40
-2
-1
0
1
2Kne
(W/kg) Gen. >
0 20 40-2
0
2
4
6Ank
(W/kg) Gen. >
Gai
eporting Form
Event Time (% GC)
Power (W/kg)
HP1 16 0.8753 HP2 46 -0.3256 HP3 61 0.5363 HP4 90 0.0153
KP1 9 -0.8057 KP2 17 0.2561 KP3 61 -0.4801 KP4 91 -1.0101
AP1 45 -0.5879 AP2 55 3.0950
60 80 100
Power (-)
60 80 100
e Power (-)
60 80 100
le Power ()
t Cycle [%]
Gait Analysis RSubject ID : 3004-1102A
0 20 40
-2
0
2
Fx
(N/kg)
0 20 400
5
10
Fz
(N/kg)
0 20 400
50
100
Ax
(%IFL)
Gait Cy
eporting Form
Event Time (% GC)
Force (N/kg)
CoP (%SL)
FX1 12 -1.8402 FX2 53 2.2979
FZ1 16 11.2214 FZ2 34 7.7967 FZ3 49 11.4459
AX1 1 0 AX2 61 93.3066
60 80 100
(-)
60 80 100
(-)
60 80 100
(-)
cle [%]
Gait Analysis RSubject ID : 3004-1102A
Stature (m) : 1.785 Inverse dynamic model:
Volume
(ltrs.)
Ma
(kg
Foot 0.9970 1.06
Leg 3.6643 3.99
Thigh 10.3135 10.9
PS - 0.38
FPS - 1.44
LFPS - -
PS : Prosthesis or orthosisFPS : combined foot, proLFPS : combined leg, foo
eporting Form
Anthropometric data
Weight (kg): 93.0 Age (years): 19
❏ Chopart !Normal / Orthotic
Centre of Mass Mass moment of Interia ss
.) X
(m)
Y
(m)
Z
(m)
X
(kg.m2)
Y
(kg.m2)
Z
(kg.m2)
35 0.0542 0 -0.0409 0.0011 0.0051 0.0055
16 0 0 -0.1705 0.0525 0.0533 0.0063
828 0 0 -0.1809 0.1547 0.1637 0.0433
20 0.0650 0 -0.0750 - 0.0045 -
55 0.0570 0 -0.0499 - 0.0100 -
- - - - - -
and shoe sthesis/orthosis and shoe as a lumped segment
t, prosthesis/orthosis and shoe as a lumped segment
Gait Analysis Subject ID : 3004-1102A
0 50
-2
0
2
Fx (.)
Gait Cycle [%]
(N/kg)
0 500
50
100
Ax (-)
Gait Cycle [%]
(%IFL)
Reporting Form
Variability
CV(%) CMC
Fx 914.6996 0.9828 Fy 28.1184 0.9491 Fz 8.8786 0.9906
CV(%) CMC Ax 20.1611 0.9497
100 0 50 100
-1
0
1
Fy(.)
Gait Cycle [%]
(N/kg)
0 50 1000
5
10
Fz (.)
Gait Cycle [%]
(N/kg)
100 0 50 100-0.2
0
0.2
0.4
0.6
Ax (.)
Gait Cycle [%]
(M)
Gait Analysis RSubject ID : 3004-1102A
CV
Ankle 22
Knee 9.
Hip 9.
eporting Form
Variability
Angle Moment Power
(%) CMC CV(%) CMC CV(%) CMC
.5215 0.9692 14.4934 0.9841 165.6558 0.9292
5138 0.9900 94.1956 0.9474 135.1132 0.9043
6229 0.9952 167.9103 0.9451 81.0559 0.8927
Gait cycle (s)
Stance time (s)
Swing time (s)
Stance time (%GC)
Swing time (%GC)
Contralateral HC (%
Stride length (m)
Stride length / statur
Walking velocity (m
Walking velocity/sta
Cadence (steps/minu
CoP excursion (m)
CoP excursion (%SL
Single support (s)
Single support (%GC
Double support (s)
Double support (%G
Gait Analysis RSubject ID : 3004-1102A
eporting Form
Mean SD Range Min Max
1.2383 0.0133 0.0300 1.2200 1.2500
0.7767 0.0197 0.0400 0.7600 0.8000
0.4617 0.0098 0.0200 0.4500 0.4700
62.7121 1.0290 2.2114 61.7886 64.0000
37.2880 1.0290 2.2114 36.0000 38.2114
GC) 49.4451 0.6826 1.9616 48.3146 50.2762
1.4867 0.0326 0.0907 1.4431 1.5338
e 0.8329 0.0182 0.0508 0.8085 0.8593
/s) 1.2007 0.0278 0.0671 1.1662 1.2333
ture 0.6726 0.0156 0.0375 0.6534 0.6909
te) 96.9138 1.0427 2.3607 96.0000 98.3607
0.3057 0.0087 0.0234 0.2951 0.3185
) 97.3726 2.7852 7.4522 93.9809 101.4331
0.4775 0.0191 0.0432 0.4622 0.5054
) 38.3159 1.7822 4.2310 36.5761 40.8071
0.1285 0.0200 0.0456 0.0999 0.1455
C) 10.2989 1.5471 3.4420 8.0693 11.5113
Gait Analysis R
20 40 60 80
-20
0
20
40
Hip Angle (-)
(Deg.) Flex. >
20 40 60 80-20
0
20
40
60
80Knee Angle (-)
(Deg.) Flex. >
20 40 60 80-40
-20
0
20
Ankle Angle (-)
(Deg.) Flex. >
Gait Cycle [%]
eporting Form
100
100
100
20 40 60 80-1
0
1
2
Hip Moment (-)
(Nm/kg) Ext. >
20 40 60 80
-1
0
1
Knee Moment (-)
(Nm/kg) Ext. >
20 40 60 80
0
1
2
Ankle Moment (-)
(Nm/kg) Ext. >
Gait Cycle [%]
Subject ID: 3004-1102A
Gait cycle (sec) : 1.2383 Side analysed : !!!! Right ❏❏❏❏ Left Stance time (sec) : 0.7767 Stance time (%GC) : 62.7121 Swing Time (sec) : 0.4617 Swing time (%GC) : 37.2880 Single support (sec) : 0.4775 Single support (%GC) : 38.3159 Double support - HC (sec) : 0.1285 Double support - HC (%GC) : 10.2989 Cadence (Steps/min) : 96.9138 Contralateral HC (%GC) : 49.4451 Stride length (m) : 1.4867 Stride length / Stature : 0.8329 Walking velocity (m/s) : 1.2007 Walking velocity/ Stature : 0.6726 CoP excursion (m): 0.3057 CoP (%SL): 97.3726 !!!! Ensembled average n = ❏❏❏❏ 4 ❏❏❏❏ 5 !!!!6 ❏❏❏❏ 7 ❏❏❏❏ Other (n = _ )
100
100
100
20 40 60 80 100-1
0
1
2
Hip Power (-)
(W/kg) Gen. >
20 40 60 80 100
-2
-1
0
1
2Knee Power (-)
(W/kg) Gen. >
20 40 60 80 100-2
0
2
4
6Ankle Power (-)
Gait cycle [%]
(W/kg) Gen. >