Measuring Neonatal Measuring Neonatal Lung VolumeLung Volume
Advisor: Dr. Bill WalshAdvisor: Dr. Bill Walsh
Doug AndersonDoug Anderson
David LammleinDavid Lammlein
Janine McKinnonJanine McKinnon
BackgroundBackground
The Division of Neonatology at The Division of Neonatology at Vanderbilt Children’s Hospital has an Vanderbilt Children’s Hospital has an interest in determining the Functional interest in determining the Functional Residual Capacity (FRC) in neonates Residual Capacity (FRC) in neonates who are mechanically ventilated who are mechanically ventilated
Methods must be simple, non-Methods must be simple, non-invasive, and allow free access to invasive, and allow free access to neonatesneonates
Neonatal Intensive Care Unit (NICU) Neonatal Intensive Care Unit (NICU) includes 60 intensive and includes 60 intensive and intermediate beds, a 3 bed ECMO intermediate beds, a 3 bed ECMO unit, and 10 bed intensive care unit, and 10 bed intensive care nurserynursery
Extracorporeal Membrane Extracorporeal Membrane Oxygenation (ECMO)Oxygenation (ECMO)
ECMO is a form of long-term heart-lung bypass used in infants, children, and adults ECMO is a form of long-term heart-lung bypass used in infants, children, and adults in cardiac and/or respiratory failure despite maximal medical treatmentin cardiac and/or respiratory failure despite maximal medical treatment
Similar to heart-lung bypass used in the operating roomSimilar to heart-lung bypass used in the operating room
Respiratory failures for infants include:Respiratory failures for infants include: Acute Respiratory Distress Syndrome (ARDS)Acute Respiratory Distress Syndrome (ARDS) PneumoniaPneumonia SepsisSepsis Congenital Diaphragmatic Hernia (CDH)Congenital Diaphragmatic Hernia (CDH) Pulmonary HypertensionPulmonary Hypertension Inborn Errors of MetabolismInborn Errors of Metabolism
ECMO is used when a ventilator does not provide sufficient oxygen or remove ECMO is used when a ventilator does not provide sufficient oxygen or remove enough carbon dioxide. enough carbon dioxide.
ECMO takes over the work for the lungs so they can rest and healECMO takes over the work for the lungs so they can rest and heal
Problem DescriptionProblem Description
Problem:Problem: Too small a FRC results in the inability to Too small a FRC results in the inability to oxygenate blood and consequently death because blood oxygenate blood and consequently death because blood entering the lung actually exits the lung without coming entering the lung actually exits the lung without coming into contact with a gas surfaceinto contact with a gas surface
Solution:Solution: Designing a device that measures FRC in Designing a device that measures FRC in neonates can allow doctors and researchers to optimize neonates can allow doctors and researchers to optimize ventilator settings so as to prevent this sort of shuntingventilator settings so as to prevent this sort of shunting
BenefitBenefit: Allows physicians to utilize appropriate methods : Allows physicians to utilize appropriate methods to facilitate breathing in neonates suffering from lung to facilitate breathing in neonates suffering from lung pathologies, and specifically allows physicians to assess pathologies, and specifically allows physicians to assess the need for ECMOthe need for ECMO
Functional Residual Capacity Functional Residual Capacity (FRC)(FRC)
Functional Residual Capacity Functional Residual Capacity (FRC) of the human lung is the (FRC) of the human lung is the volume volume remaining in remaining in the the lungs lungs at resting expiratory levelat resting expiratory level Equivalent to the alveolar Equivalent to the alveolar
volume (Va) which volume (Va) which contains 60-70% of the contains 60-70% of the total lung volumetotal lung volume
Normal FRC in adults is Normal FRC in adults is 1.8 to 3.4 L1.8 to 3.4 L
Estimated FRC in healthy Estimated FRC in healthy neonates 5 to 12 mLneonates 5 to 12 mL
Measuring FRCMeasuring FRC
Helium Dilution Method•Inspiration of known [He]
•Gas in lungs dilutes He and [He] drops
•Gases equilibrate
•Measure difference in [He] to determine initial lung volume
Nitrogen Washout Method•Unknown FRC contains about 78% N2 and an unknown amount of O2 and CO2
•Washout N2 by breathing 100% O2
•Exhale so that expired [N2] falls between 1 and 1.5%
““Functional Residual Capacity and Ventilation Homogeneity in Functional Residual Capacity and Ventilation Homogeneity in Mechanically Ventilated Small Neonates” (1992)Mechanically Ventilated Small Neonates” (1992)
Modification of computerized tracer gas (SF6) washout methodModification of computerized tracer gas (SF6) washout method Designed for serial measurements of FRC and ventilation homogeneity in Designed for serial measurements of FRC and ventilation homogeneity in
mechanically ventilated infantsmechanically ventilated infants Very low birth weightVery low birth weight Tidal volume down to 4 mLTidal volume down to 4 mL Mild to moderate RDSMild to moderate RDS
FRC increased with body weightFRC increased with body weight FRC (mL) = -1.4 + 17 x weight (kg)FRC (mL) = -1.4 + 17 x weight (kg) The method gave reproducible results in a lung model and good agreement The method gave reproducible results in a lung model and good agreement
compared with He dilution in rabbitscompared with He dilution in rabbits
Previous Attempt to Measure FRCPrevious Attempt to Measure FRC(Journal of Applied Physiology)(Journal of Applied Physiology)
““Modification of the Open Circuit N2 Washout Technique for Modification of the Open Circuit N2 Washout Technique for Measurement of Functional Residual Capacity in Premature Measurement of Functional Residual Capacity in Premature Infants” (1997)Infants” (1997)
Compared standard N2 washout technique for measuring FRC with Compared standard N2 washout technique for measuring FRC with a modified technique using heliox as a washout gasa modified technique using heliox as a washout gas
Volumes can be measured with high precision and reproducibility, Volumes can be measured with high precision and reproducibility, even in premature infants with low lung volumes and/or high even in premature infants with low lung volumes and/or high baseline FIO2baseline FIO2
Correction factor may be needed because using helioxCorrection factor may be needed because using heliox
Previous Attempt to Measure FRCPrevious Attempt to Measure FRC(Pediatric Pulmonology) (Pediatric Pulmonology)
Our ChoiceOur Choice
1978 - A Method for Measuring Functional 1978 - A Method for Measuring Functional Residual Capacity in Neonates with Residual Capacity in Neonates with Endotracheal TubesEndotracheal Tubes
€
FRC =VCiC f
−1 ⎛
⎝ ⎜ ⎜
⎞
⎠ ⎟ ⎟
C∧
f =CHe' (t2)
CHe' (t1)
CHe' (t2)
⎡
⎣ ⎢
⎤
⎦ ⎥
t2 t2 −t1( )( )
The DeviceThe Device
PFM or
Evita 4 VentilatorEvita 4 Ventilator
Evita 4 VentilatorEvita 4 Ventilator
ResultsResults
In VitroIn Vitro Confirmed expected exponential relationshipConfirmed expected exponential relationship Real vs. Calculated: r = 0.995, p<0.001Real vs. Calculated: r = 0.995, p<0.001
In VivoIn Vivo
Used in infants as small as 600 gUsed in infants as small as 600 g
CPAP (cm HCPAP (cm H22O)O)
00 33
FRCFRC 22.0 22.0 1.9 1.9 25.8 25.8 1.4 1.4
NN 1515 3030
AdvantagesAdvantages
Easy to set upEasy to set up Uses common equipmentUses common equipment Can be used for a large range of infantsCan be used for a large range of infants Useable with both CPAP and ventilator Useable with both CPAP and ventilator
supportsupport Relatively inexpensiveRelatively inexpensive
LimitationLimitation
Breathing rate and tidal volume assumed Breathing rate and tidal volume assumed constantconstant No calculation if minute ventilation (respiratory No calculation if minute ventilation (respiratory
rate X tidal volume) changed by more than rate X tidal volume) changed by more than 25% over measurement period25% over measurement period
Obstructive diseases may delay Obstructive diseases may delay equilibrationequilibration
Research into subsequent efforts into this Research into subsequent efforts into this limitation is ongoinglimitation is ongoing
Assembling Prototype Assembling Prototype
Compile list of necessary supplies and Compile list of necessary supplies and equipmentequipment
Procure or obtain access to all necessary Procure or obtain access to all necessary items, contacts: Chris Lynnitems, contacts: Chris Lynn
Assemble and test prototypeAssemble and test prototype Refine and upgrade prototypeRefine and upgrade prototype
Supplies and EquipmentSupplies and Equipment
Medical grade tubingMedical grade tubing Valves and stopcocksValves and stopcocks Expandable Expandable
membranesmembranes Solenoid ValveSolenoid Valve
Inexpensive Purchaseables
VUMC Equipment
Air PumpsAir Pumps
Digital Helium MeterDigital Helium Meter
Pulmonary Function MachinePulmonary Function Machine
Design GoalsDesign Goals
Use primarily existing equipmentUse primarily existing equipment Avoid complicated, dangerous, or Avoid complicated, dangerous, or
invasive proceduresinvasive procedures Allow for uncooperative nature of Allow for uncooperative nature of
infantsinfants Mobility of deviceMobility of device Continued free access to Continued free access to
neonateneonate
Market PotentialMarket Potential
Clients: Neonatal Intensive Care UnitsClients: Neonatal Intensive Care Units
Competitors: No current patents exist on this Competitors: No current patents exist on this exact device; however, other more costly exact device; however, other more costly methods (i.e. tomography, ultrasonic flow meter) methods (i.e. tomography, ultrasonic flow meter) exist.exist.
Production: Creating simple modification to Production: Creating simple modification to existing equipment will result in lower production existing equipment will result in lower production costs and overhead.costs and overhead.
Social ImpactSocial Impact
Profound: Families and Profound: Families and friends of critically ill friends of critically ill neonatesneonates
Minimal: Environment, Minimal: Environment, helium is an inert gashelium is an inert gas
ReferencesReferences
Schwartz JG, Fox WW, Shaffer TH. A Method Schwartz JG, Fox WW, Shaffer TH. A Method for Measuring Functional Residual Capacity in for Measuring Functional Residual Capacity in Neonates with Endotracheal Tubes. IEEE Neonates with Endotracheal Tubes. IEEE Trans. On Biomed. Engineering. 25(3): 304-7. Trans. On Biomed. Engineering. 25(3): 304-7. 1978 May.1978 May.
Journal of Applied Physiology. 73(1): 276-83. Journal of Applied Physiology. 73(1): 276-83. 1992 July.1992 July.
Pediatric Pulmonology. 23(6): 434-41. 1997 Pediatric Pulmonology. 23(6): 434-41. 1997 June.June.
QuestionsQuestions