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Fiber Post Selection and Placement Criteria: A ReviewRichard
Trushkowsky
There has been an increased demand for endodontic therapy in the
last several decades. When a toothrequires endodontic treatment,
consideration must be given to the restorability of the tooth. If
the tooth requirescrown lengthening or orthodontic extrusion to
expose adequate tooth structure for the fabrication of
thedefinitive restoration, the selection of extraction and implant
placement has to be considered. The patientshealth, comfort, and
thoughts on treatment need consideration. The quantity and quality
of the bone, the softtissue architecture in the area and the
condition of the remaining dentition need to be addressed. 1,2
Crownlengthening or orthodontic extrusion may create an esthetic
problem, as the diameter of the exposed tooth isless and an
unfavorable crown-to-root ratio might occur. In a study by
Torabinejad et al, implant-supportedsingle crowns and root canal
treatment and restorations provided similar outcomes and better
long-termsurvival compared to fixed partial dentures. 3 Once the
decision is made to implement endodontic treatment, adecision needs
to be made as to the final restoration and necessity for a
post.Previously, it was believed that a post was necessary after
endodontic treatment to strengthen the remainingroot structure
weakened by the access to the canal and canal preparation. However,
it is now felt that a postpreparation and the post itself weaken
the tooth further and make the root more susceptible to fracture.
4,5 The
decision to place a post should only be based on the need for
retention of coronal structure.6
Once a post is deemed necessary for retention of the core, the
type of post and appropriate luting material toachieve maximum
longevity and support for the final restoration needs to be decided
(Figure 1 ). Some authorshave felt that the elastic modulus of
fiber posts more closely resembles that of dentin compared to metal
posts.This similarity may possibly result in greater stress
reduction between the dentin and the post. This would resultin less
catastrophic failure such as root fracture. 7Cheung felt that by
having the post and the dentin with similarphysical properties
bonded together, the post can strengthen and reinforce the root but
still does not make thetooth stronger. 8 The success of the
endodontic treatment is predicated not only on good treatment but
properprosthetic reconstruction of the damaged tooth. Oral fluids
and bacteria have to be prevented from gainingaccess to the
periradicular areas by placement of adequate coronal restorations.
8,9 The final treatment plan tocreate appropriate esthetics and
function will help to determine the best post. It is imperative to
determine ifthere is an ideal clinical situation for the variety of
post systems currently available. 10
Criteria for a post and determining its needsSedgley and Messer
determined that vital dentin is harder than dentin from
endodontically treated teeth but notenough to indicate that the
teeth had become more brittle. 11 Papa et al also felt there was
not a major differencebetween vital and non-vital teeth as far as
moisture content. 12 The loss of tooth structure created by
endodonticaccess (5% loss in structural stability) accompanied by a
mesio-occluso-distal (MOD) cavity can result in anapproximately 63%
loss of stability. 10 The indication for post placement depends on
ascertaining the amount ofdestruction exhibited and whether the
remaining tooth structure will support the selected restoration. 13
The mainfactors that determine the prognosis of restored pulpless
teeth have been the preservation of healthy dentin,the ferruling of
crown margins on sound tooth structure, and the type of
intermaxillary relation. 14-17 Peroz et al described a
classification of the amount of remaining tooth structure that
depends on the amount ofaxial walls. 9 Class I has all four axial
walls remaining and only the access preparation involves removal of
toothstructure. Class II has one cavity wall removed, which can
consist of a mesio-occlusal or a disto-occlusal
cavity. In Class III, a MOD cavity and two remaining cavity
walls are present. Class IV has only one cavity wallremaining
(either the buccal or lingual wall). In Class V, no cavity wall
remains. This classification is useful indetermining the need for a
post.Varvara et al felt the amount of residual dentin is important
relative to failure load. However, it is the height ofthe remaining
dentin and not the buccal thickness that affects the failure load.
It is also thought that the heightand location of the remaining
tooth structure will affect the mechanical properties of the
restored teeth. 10 Dietschi et al reviewed the change in dentin
composition, physical characteristics, fracture resistance,
toothstiffness, and restorative materials and techniques in an
effort to delineate material selection and treatment
ofendodontically treated teeth. 18 Endodontically treated teeth
have a change in water content but this only
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modifies the Young modulus and proportional limit slightly;
there is no decrease in compressive and tensilestrength. Collagen
cross-linking was the same in both vital and nonvital dentin. 18
Sodium hypochlorite and ethylenediaminetetraacetic acid (chelator)
and calcium hydroxide used for canalirrigation and disinfection
modify the mineral content (chelator) or the organic substrate
(sodium hypochlorite)of dentin. Chelators diminish calcium and may
also affect noncollagenous proteins, resulting in softening.
Theproteolytic affect of sodium hypochlorite is possibly caused by
fragmentation of long peptide chains
(collagen). 19 The use of disinfectants such as eugenol and
formocresol result in increased dentin tensilestrength as a result
of protein coagulation and chelation with hydroxyapatite. 20
Retention and cementation of fiber postThe use of
fiber-reinforced composite-resin posts (FRC posts) has become
popular in the last fewyears. 21,22 The reason this has occurred is
because the dentin-like modulus of elasticity of the FRC post
allowsbetter distribution of forces along the length of the root.
10 The modulus of elasticity of composite resins (5.7 GPato 25 GPa)
and FRC posts (16 GPa to 40 GPa) provide elevated shock resistance,
weakening of vibration,shock absorption, and augmented
fatigue-resistance. 23 The majority of the FRC posts contain a
resin matrixwith embedded glass or quartz fibers. Quartz fibers
possess a higher tensile strength than glass fibers. Thedensity,
diameter, and adhesion of the fibers to the resin matrix vary in
the different systems available andaffect their strength. 24 Resin
is injected under pressure into preshaped molds containing
prestressed fibers. Theresin is usually an epoxy resin. The fibers
in the FRC posts are designed to provide high tensile strength
andthe resin matrix is supposed to withstand compressive stresses
and absorb stresses in the entire post system.Stresses can occur at
the interface between the glass/silica fibers and resin matrix as
the posts are loaded.This is because of their different elastic
moduli. These stresses can result in voids, cracks, or micro
bubblesand may weaken the post system. An increase in fiber/matrix
and an increase in total interface area may leadto greater
stiffness and a higher elastic modulus. However, increasing the
stiffness of the FRC posts to a highvalue may result in root
fractures (vertical or oblique) that require tooth extraction.
Posts with an elasticmodulus close to that of dentin are less prone
to catastrophic fracture. 25
Most posts are fabricated from E-glass fibers. R- and S-glass
fibers have a smaller diameter and allowincreased matrix spread to
improve laminar tightness. The elastic modulus of D.T. LIGHT-POST
and D.T.LIGHT-POST Illusion (BISCO, Inc, Schaumburg, IL) is similar
but its low thermal coefficient of expansion helpsto maintain its
structural integrity during thermal changes.
During the manufacturing process, the fibers are prestressed and
soaked with resin and released after curing.This technique creates
compression around the glass fibers resulting in reduced tensile
stresses when the postis exposed to flexural forces. Seefeld et al
also found a high degree of correlation between the fiber/matrix
ratioand the flexural strength of these systems. 25 Fiber posts are
passively retained within the root canals. FRC posts are prevented
from dislodgment by theluting agent adherence to the post and to
the intraradicular dentin. There is also a need for adherence to
thecore material and the coronal dentin. 26 Debonding has been a
common cause of failure with FRC posts andusually occurs at the
dentin interface. The pullout resistance of FRC posts decreases
when the cementthickness is excessive. 27 The bonding capacities of
FRC are influenced by a variety of factors. The various designs and
composition ofthe various post systems have a direct bearing on
their retention and the resulting microleakage that may occuras a
result of reduced bonding capability. High wall-to-wall contraction
shrinkage may occur because thin resin
films generate high shrinkage stress during polymerization. The
composite flow is hindered by the confinementof the material bonded
to the tooth in the pre-gel phase, and, as a result, contraction
manifests itself as stressat the adhesive interface. The C-factor
typically varies from 1 to 5 in intracoronal restorations; it
exceeded 200in the cementation of endodontic posts to root canal
dentin. To evenly distribute the stress generated byfunctional
load, minimize the contraction stress, and ensure a good bond
between dentin and post, thecomposite cement should have a low
conversion rate and, consequently, a low modulus of elasticity
whilemaintaining a good mechanical resistance. 28 The bonding
quality to dentin is also a factor. There is decreased microleakage
in teeth restored with bondedfiber-reinforced posts compared to
teeth with posts that are not bonded. 29 However, leakage along the
post is
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still a problem. Bonfante et al found that the amount of
uninterrupted interface between dentin and cementdepended upon the
resin cement used and the time of water storage. No gaps were seen
at the cement-postinterface, suggesting that bonds to dentin are
weaker. Bonds were stronger at the cervical portion than at
theapical portion. Water molecules diffuse into the resin matrix
resulting in hydrolytic degradation and swelling ofthe composite.
30 If the composite is only cured by light (Figure 2 ),
insufficient light intensity will affect the degree of conversion
at
the apex and middle third. This reduced degree of conversion
will result in the composite being adverselyaffected by moisture.
It is harder to control moisture and placement of adhesive in the
apical portion. Thesmear layer, sealer, and gutta-percha not
cleaned off the walls can be found in the canal after
acid-etching.They also concluded that the swelling of the composite
from water sorption and resulting friction retain the postin the
canal despite poor bond strengths. 30 A variety of luting agents
and the corresponding adhesives can be used to bond fiber posts
into root canals.These adhesives can be of the self-etch or
total-etch varieties. Giannini et al compared the influence of
tubuledensity and areas of solid dentin using a self-etch system
(Clearfil Liner Bond 2V, Kuraray America, Inc, NewYork, NY) and an
acetone-based system in a total-etch technique. They found the
self-etching system was lesssensitive to dentin depth and tubular
depth compared to the acetone-based system. 31 In a study by Zicari
et al,the curing mode did not effect the push-out bond strength but
dual-cure cements demonstrated poor sealingability. 32 Self-etching
systems and total-etch systems sealed the root system much better
than the self-adhesive
cements. Etch-and-rinse alcohol-based adhesives are supposed to
be applied to moist dentin but this is almostimpossible to control
in the canal. Cements that contain the self-etch 10-MDP (Clearfil
Esthetic Cement,Kuraray America) react with the hydroxyapatite in
the hybrid layer to form a low-soluble MDP-calcium salt toimprove
long-term stability. Self-curing cements also seem to be the most
effective in preventing microleakage,possibly because of better
flow as a result of the slower self-polymerization reaction.
Because the bondstrength to root canal dentin is less than coronal
dentin, it is important to maximize adhesive procedures. 32
Ideally, the post diameter should be less than one third the
diameter of the root at the cementoenamel junctionand 1 mm or more
of dentin should remain around the post. Post removal, internal
resorption, or currentcoronal flaring to gain access to the apical
aspect may result in reduced dentin thickness at the coronal
portion.The reduced thickness of the coronal walls may decrease the
effect of the ferrule. The restorative proceduresrequired for
endodontically treated teeth are dependent upon the amount of
coronal dentin remaining. 33 A 2-mm cervical ferrule increases
fracture resistance with any luting material, but resin is
superior. In addition,
there will not be a close apposition between the post and the
dentinal walls at the coronal portion of the canaland the luting
agent has to fill in this space. The increased amount of luting
material may result in the resinpulling away from the dentin as a
result of polymerization shrinkage. 29 A variety of resin cements
with their associated bonding systems have been suggested for use
with FRC posts.Resin cements are either traditional bis-GMA-based
resin systems or adhesive resin cements having functionalmonomers,
for example, 10-MDP or 4-Meta. 22 The luting agents can also be
divided into self-etching adhesivesand etch-and-rinse systems.
Recently, self- adhesive resins such as RelyX Unicem (3M ESPE, St
Paul, MN)have been introduced. ContactCure (Centrix, Shelton CT)
and Multilink (Ivoclar Vivadent, Amherst, NY)both contain
self-etching primers. Multilink also contains a silane and a metal
primer.
Influence of post and cores on light transmission through
all-ceramic crownsUsually all-ceramic restorations display optical
behavior that mimics natural teeth. The optics of the ceramics
ismodified by its structure, the luting material, and any post and
cores that may need to be placed. Some ceramic
systems are semi-translucent (IPS Empress, Ivoclar Vivadent) and
others are semi-opaque (In-Ceram,Vident, Brea, CA). A traditional
metal post (gold or titanium) results in poor esthetics because of
the lack of lighttransmission. The metal can be masked by opaque
porcelain or opaque resin but the results are poor. This isbecause
of the lack of light transmission at the coronal portion of the
tooth and also to the periodontal tissues.Metallic posts also
create a light blue/gray appearance at the gingival margin,
possibly as a result of shadows.Ceramic, zirconium, and polyester
with zirconium fibers (Snowlight, Carbotech, Lewis Center, OH)
allow morenatural light transmission. In a study by Michalakis et
al, a post made of zirconium fibers embedded in apolyester matrix
allowed light transmission similar to a zirconia post. 34 However,
zirconium posts have a highdegree of rigidity, are difficult to
remove, are harder to bond, and are brittle.
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A Sampling of Systems
RelyX Fiber Post (3M ESPE) is made of glass fibers embedded in a
cu red epoxy-resin matrix containingzirconia filler, which aids in
the radiopacity of the post. The post contains 60% to 70% (by
weight) glass fibers.The fibers are oriented longitudinally in the
post and are dispersed homogeneously within the cross section ofthe
post. The adhesion of the epoxy-resin to the glass fibers is a key
point for excellent fatigue properties of the
post.
The composition of the RelyX Fiber Post provides an elastic
modulus similar to dentin, allowing functionalstresses to be
dissipated rather than concentrated in the root. Therefore, the
likelihood or potential for rootfractures is reduced. The outer
surface of RelyX Fiber Post has a microporous surface which aids in
goodmechanical retention of RelyX Unicem cement, which aids in the
adhesive strength between the post and thecement. RelyX Fiber Post
does not require pre-treatment when cemented with RelyX Unicem
cement (Figure3).
Dentatus Luscent Anchors (Dentatus USA Ltd, New York, NY)
transmit polymerizing light within the confinesof canals and
provide a one-stop core anchor foundation with all restorative
materials. They reflect natural huesfor esthetic restorations and
provide visible radiolucency in canals and through the core
materials. They areavailable in three diameters to fit very slim
and large canals. Dentatus Twin Luscent Anchors have a cone -
shaped end that can be placed in deeper and narrower canals
without excess removal of dentin or the canalwall. The parallel end
can be alternately placed into long, wider canals of teeth. The
parallel canals can berefined with drills and used in
parallel-canal post techniques. A longitudinal vent groove
eliminates trapped airbubbles for complete filling of the canal.
Additionally, the vent groove creates an anti-rotational resistance
in thesurrounding polymerized resin material.
ParaPost Fiber Lux/Taper Lux (Coltene Whaledent, Cuyahoga Falls,
OH) is available in both parallel (Figure4) and tapered Translucent
Fiber Post Systems. The tapered post is recommended for teeth
prepared with thecrown-down technique and rotary endodontics. The
post assumes the shape of the canal wider coronally andnarrowing
apically. Less tooth structure has to be removed apically in
preparation for the post, making thistreatment a more conservative
option. The rounded head is designed to reduce stress and lock in
corematerial. It is light-transmitting for faster cementation and
has a higher concentration of fibers for increasedstrength, with
good radiopacity and removability.
GTFiber Posts (DENTSPLY Tulsa, Tulsa, OK) are composed from
glass fiber and epoxy resin. They aresized to the Profile GT-shaped
canal and color-coordinated to match the GT family of products, and
areparallel-sided and translucent for light transmission while
curing.
FRC Postec Plus (Ivoclar Vivadent) has been further developed
from FRC Postec, which has been insuccessful clinical use for 5
years. It uses the combination of an innovative glass fiber
material and a speciallydeveloped composite matrix to impart a
natural translucency. FRC Postec Plus offers a high radiopacity
similarto that of metal posts, but their design, consisting of
glass fibers embedded in a composite matrix, produces apost with a
modulus of elasticity similar to that of dentin, unlike metal or
ceramic posts. In combination withMultilink and MultiCore, FRC
Postec Plus produces effective, reproducible results because of a
clearapplication protocol. The retention of adhesively cemented
posts is three to four times higher than that ofconventionally
cemented posts in the root canal.
The UniCore Post and Drill System (Ultradent Products, Inc,
South Jordan, UT) features a heat -dissipating,diamond-coated
collar that eliminates excessive heat production caused by the
friction of drill-to-tooth contact(Figure 55 ). The patented
heat-generating tip softens the matrix of fiber posts, greatly
simplifying their removalfor retreatment and also greatly enhances
the removal of stubborn rigid carriers like Thermafil
(DENTSPLYTulsa), as well as gliding down canals filled with
traditional gutta-percha or synthetic Resilon (Pentron
ClinicalTechnologies, LLC, Wallingford, CT) cones.
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Specially designed flutes only cut the sides of the canal, never
the bottom, so no zipping or stripping of the postchamber walls
occurs. The UniCore Drill flutes quickly and efficiently remove
material up and out of the postchamber. The drills and posts are
color-coded according to size, making identification of matching
posts anddrills simple.
The FibreKleer Post from Pentron Clinical Technologies is
available in three body designs: parallel with a
retentive head, tapered, and serrated. The transparency of the
glass fibers allows light transmission throughthe post and makes
FibreKleer Posts the ideal choice for use under all -ceramic
restorations. FibreKleer postshave a flexural strength of 1,423 MPa
for durability in high-stress areas and a flexural modulus
engineered tominimize root fractures. They possess high radiopacity
for easy detection on radiographs, are pre-silanated forconvenience
and enhanced adhesion of resin cements, and are easily retrieved
using conventional burs anddrill bits.
Peerl essPost (Sybron Endo, Orange, CA) features coronal and
apical 1 -mm adjustable sections (Figure 6 ) and comes in .04 and
.06 tapered varieties. Composed of continuous, pre-stressed,
high-quality fibers, they arecustomizable for every canal shape and
length. With a low elastic modulus and high tensile and
flexuralstrength, PeerlessPost absorbs and dissipates stress to
prevent root fracture. They are bonded, not cemented;their
retentive surface prevents rotation and dislodgement.
Tooth-colored, radiopaque, and with three sectionsper post, they
are easy to adapt, with minimal dentin removal.
The everStickPost (Stick Tech Ltd, Turku, Finland) is a
flexible, resin-impregnated glass fiber post that can
beprecision-shaped to the root canal and the core structure.
Because it can be anatomically contoured, it is tissuesaving. The
unique interpenetrating polymer network (IPN) structure allows
bonding of the everStick fibers withcomposites, adhesives, and
composite cements. The IPN network also makes it possible to
reactivate fibersurfaces for repair and allows for reinforcement of
the pulp chamber area (the chamber can be tightly filled
withfibers).
D.T. LIGHT-POST Illusion (BISCO) is an anatomical, two-taper
design. Esthetic and light-transmitting, it has aflexural strength
exceeding that of most metal posts with a modulus of elasticity
close to dentin. Radiopaque forvisibility on radiographs, it also
features patented color-on-command technology. When the post is
placedintraorally, the intrinsic color disappears. When retreatment
is required the post will reappear on command byspraying water
(Figure 7 ).Rebilda Post (Voco Gmbh, Cuxhaven, Germany) has a
modulus of elasticity of 24 GPa (90), a transversestrength at 90 of
1,240 MPa, and a transverse strength at 45 of 1,904 MPa. It has a
translucency of 27.2%,radiopacity of 350% Al, and a water
absorption capacity of 10.6 g/mm 3.
LuxaPost (Zenith Dental, Englewood, NJ) is a transparent
glass-fiber reinforced composite post with a flexuralmodulus that
reacts to pressure and stress much like natural dentin used in
conjunction with LuxaBond total-etch (Zenith Dental). The
dual-curing adhesive system is compatible with all commercially
available self-curingand dual-curing materials. No light is needed
for LuxaBond. LuxaCore Z-Dual can be used as the lutingmedium and
core material. The manufacturer states the material has a 20 m film
thickness and 380 MPacompressive strength.
Flexi-Post Fiber and Flexi-Flange Fiber from Essential Dental
Systems (Hackensack, NJ), have serratedheads that permit greater
retention of core material. The second tier of the shank increases
the intimacy of fitbetween the post and the natural point at which
the canal widens. The Flexi-Post Fiber Vent releases
internalhydrostatic pressure upon cementation. Flexi-Posts are made
of an epoxy-reinforced S-glass fiber. Theirthreaded design is
reported by the manufacturer to have greater retention than passive
fiber posts without theneed for a bonding agent. The manufacturer
also reports that during tap insertion and thread-pattern
creation,the patented Split-Shank Tap allows the stresses of
insertion to be absorbed by the tap, not the root,
virtuallyeliminating the major cause of root fracture. Vertical
blades remove dentinal debris, enhancing ease of postplacement.
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ConclusionNo post-and-core system is ideal for all clinical
situations. The ideal post should have the same shape as
theendodontic preparation, and should be non-corrosive, readily
adjusted, and able to be removed withoutdifficulty. Radiopacity,
minimal removal of tooth structure, and a modulus of elasticity
similar to dentin are otherimportant features, as are retentiveness
in the canal and to the core. 35 The post must provide all of
themechanical requirements needed to restore the tooth. The
interaction of the modulus of elasticity andmechanical properties
of the post with the luting material and core material are critical
in the longevity of therestoration.
Disclosure
The author has received material support from the companies
mentioned in this article.
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