Cross-linked denture base resins SUPERACRYL PLUS DURACRYL PLUS PRODUCT PRESENTATION.
Denture base resins
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Transcript of Denture base resins
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Denture base resins
Presented by:Apurva Thampi
PG 1st year
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Contents Introduction History Requirements of an ideal denture base material Introduction to PMMA Polymerisation reaction Types of denture base resin Heat activated resins Chemically activated resin Light activated resin Physical properties of resins Recent advancements Summary Bibliography
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Introduction
Dentures – mode of replacement of natural teeth since 700 BC
Increased patient awareness lead to increased expectations
Significant advances in development of new materials for replacement of lost teeth
Acrylic resin is the most widely accepted and used Denture base material.
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History
First Dental prosthesis – Egypt in 2500 BC
TORTOISE
SHELL
PORCE-
LAIN
CELLULOID
WOOD
CHEOPLAST
ICALUMINIUM
BONE
GUTTA
PERCHA
BAKELITE
PVCSS & alloys
GOLDIVORY
VULCANITE
PMMA
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WOOD: Readily available and inexpensive Easily carvableX Cracked in moistureX Lacked aestheticsX Degraded in oral environment
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BONE Available at reasonable costs Carvable Better dimensional stabilityX Aesthetic and hygiene concerns
IVORY Stable in oral environment Aesthetic and hygienicX Not readily availableX expensive
First fabricated
by FAUCHARD
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PORCELAIN Shaped easily Ensured intimate contact with
underlying tissue Stable Minimal water sorption Smooth surface Less porosity Low solubilityX BrittleX Difficult in grinding and polishing
ALEXIS DUCHATEAU in 1774 -
first to fabricate porcelain denture
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18 – 20 karat gold alloyed with silver and teeth riveted to it
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TORTOISE SHELL• It was the first thermoplastic denture
base material• Formed by CF HARRINGTON in1850
GUTTA PERCHA• Unstable• First formed by EDWIN TRUMAN in 1851
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CHEOPLASTIC• It is a low fusing alloy of silver, bismuth
and antimony• First formed by ALFRED A BLANDY in 1856
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VULCANITE• First self retaining dentures• Functional• Affordable • Durable• Dark red colour• Unhygienic
NELSON GOODYEAR
in 1864
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ALUMINIUM• By Dr Bean in 1867 ( he also invented the
casting machine
CELLULOID• Discolours easily• Has a residual camphor taste• Difficult to repair• Obtained by plasticizing cellulose nitrate
with camphor
J. SMITH HYATT in
1869
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BAKELKITE• Stains easily• Residual phenol taste• Brittle• Difficult to repair• Short shelf life
POLY VINYL CHLORIDE• Pleasing colour but difficult processing
methods
Dr. LEO BAKELAND
in 1909
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STAINLESS STEEL and BASE METAL ALLOYS• Low density• Low metal cost• Higher resistance to tarnishing and
corrosion• High modulus of elasticity• Allergy to nickel
POLYMETHYL METHACRYLATE• Most satisfactory material
tested till date.
Dr. WALTER WRIGHT (1937)
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Requirements of an ideal denture base material
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POLYMETHYL METHACRYLATE
PMMA/Acrylic resin is the material of choice for full denture bases
Chemical model for many other material developments – restorative materials
The most satisfactory denture base material used till date
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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POLYMERISATION REACTION
Acrylic resins are prepared by a free radical addition polymerisation
chain reaction
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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INITIATION RECTION• Vinyl group susceptible to attack by free
radical• Opening of π bond, and formation of σ
bond• Shift of electron takes place
Initiation reaction
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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PROPAGATION REACTION• Process of repeated reaction of the same
type - chain propagation• Steric hindrance effects – increased
effects on attack on next double bond• Polymer chains with free radical –
growing or live chains
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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TERMINATION REACTION• Not a function of the chain length already
created• Depends on the concentration of free
radicals in the system• Self limitation of the reaction – mutual
annihilation of free radicals
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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CHAIN TRANSFER• Hydrogen abstraction - simple transfer of
an H2 atom to attacking radical
• Leaves a free radical residing on attacked species
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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TYPES OF DENTURE BASE RESINS
Based on the mode of activation
• Heat activated PMMA High impact resin Rapid heat polymerising resin Microwave – activated PMMA
• Chemical activated PMMA
• Light activated PMMA
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HEAT ACTIVATED DENTURE BASE RESINS
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COMPOSITION:• Polymer:
pre-polymerised spheres of PMMA Benzoyl peroxide – initiator
• Monomer: Hydroquinone – Inhibitor Glycol dimethacrylate – cross linking agent
(1% - 2% by vol)
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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BENZOYL PEROXIDE is not
a catalyst!!!
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STORAGE • Specific time and limits for storage• May undergo changes• Causes changes in working properties• Change in Chemical and physical
properties of processed denture
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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MANIPULATION
COMPRESSION MOLD
TECHNIQUE
INJECTION MOLD TECHNIQUE
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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COMPRESSION MOLDING TECHNIQUE• Preparation of the mold• Selection of separating medium• Polymer -to-monomer ratio• Polymer –monomer interaction• Dough forming time• Working time• Packing• Polymerization procedure• Temperature rise• Internal porosity• Polymerisation cycle REFERENCE : Phillips' Science of dental materials,
Anusavice, 11th Ed
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Three part flask
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Pressure Clamp
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Precautions before flasking
Proper finishing Periphery should be sealed Apply petroleum jelly on the inner surface of
the flask and on the casts Adjustment of the plaster model Plaster models are wetted - soaked with
slurry water
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Preparation of the mold
Flask is filled with freshly mixed stone Place cast on to the mixture Contour the stone coated with separating media (after
initial set) Another mix of stone is poured into the
flask
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Incisal and occlusal surfaces of teeth should be slightly exposed
Allow to set and coat with separating media
Additional increment of stone filled Lid is gently tapped in place Apply pressure with pressure clamp
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Periphery of flask- in level
with the rim of the flask
Occlusal plane – parallel to
the base of the flask
Retromolar pads and
tuberosity- should be
protected
Devoid of undercut
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Place the flask in boiling water for 4 mins
Remove and separate segments Baseplate and softened wax are
removed Prosthetic teeth remain firmly Cleaned with mild detergent and
rinsed in boiling water
Dewaxing
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Selection and application of separating media
Prevent direct contact between denture base resin and the mold
Failure
Water may affect polymerisation rate and alter optical and physical
properties
Presence of Monomer or free polymer may fuse the
investment to denture base
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Water soluble alginate solution – most popular separating agents
Produce thin film of calcium alginate
Water soluble alginate solution
+ Calcium sulphate dihydrate
Calcium alginate
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Application• Applied on the exposed surfaces of a
warm, clean stone mold• Carefully applied in the interdental
surfaces• Should not contact exposed tooth
surfaces
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Monomer-polymer ratio
Polymerisation results in volumetric and linear shrinkage (21% decrease)
Manufactures pre-polymerize – pre shrinking
Powder + liquid = dough like mass 3:1 is accepted monomer : polymer
ratio (0.5% linear shrinkage)
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Polymer – monomer interaction
A workable mass is produced, which passes through 5 stages
Sandy Stringy Dough-like Rubbery Stiff
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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SANDY• Coarse or grainy• Polymer beads remain unaltered
STRINGY• Increased viscosity• Monomer attacks polymer beads
DOUGH-LIKE (ideal for compression molding)• Pliable dough• Increased number of polymer chains
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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RUBBERY OR ELASTIC• Mass rebounds when compressed or
stretched• Excess monomer is dissipated by
evaporation
STIFF• Due to complete evaporation of free
monomer
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Dough forming time
Time required to reach a dough like stage
According to ADA spec.no.12 , required consistency should be reached in <40mins (clinically - <10min)
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Working time
Defined as the time that a denture base material remains in the dough like stage
According to ADA spec. 12, material should remain in dough like stage for atleast 5 min
Refrigerating increases working time Presence of moisture degrades
physical and aesthetic propertiesREFERENCE : Phillips' Science of dental materials,
Anusavice, 11th Ed
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Packing Placement and adaptation of denture
base resin within the mold cavity
Denture with excessive thickness and resultant mal-positioning
Noticeable denture porosities
OVERPACKING
UNDERPACKING
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Resin should be in dough-like state Bent into an horse-shoe shape and
placed in position Polyethylene sheet placed over resin –
incremental pressure applied
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Excess material – flash Trial closures are repeated till no flash
remains No polyethylene sheet to be placed for
final closure Flask is transferred to a flask carrier –
maintains pressure
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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50Cross sectional representation of the flask and its contents
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Polymerisation procedure
When heated above 60⁰C, benzoyl peroxide decomposes
Yields free radicals Acts rapidly with monomer – chain
growth polymerisation
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Additional monomer molecules attach to individual polymers – rapid
Heat required - activator Benzoyl peroxide - initiator
Coupling of 2 grouping chains Transfer of H2 ion from one chain to another
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Temperature rise
Temperature - time heating curves for the waterBath, investing plaster and acrylic resin during polymerisation
ofa thick denture base
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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Initially heating is slow - resin occupies I the centre of the mold
Temperature >70C – begin to increase rapidly
Decomposition rate of benzoyl peroxide is significantly increased
Resin and dental stone are poor conductors – heat not dissipated
Temperature rises from that of the boiling point of monomer(100.8 C)
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Internal porosity
Porosities are formed when the temperature of the resin exceeds that of the unreacted monomer
resin is poor thermal conductor - heat generated cannot be dissipated
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Polymerisation cycle
Heating process used to control polymerization – curing cycle
Constant temp – 74CFor 8 hrsor longer with no Terminal boiling treatment
Processing at - 74 C for 8hrs and then increasing to 100
At 74 C for 2 hrs and thenIncreasing to 100 C for 1 hr
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Temperature changes in acrylic resin when subjected to various curing schedules
REFERENCE : Material science for dentistry, B. W. Darwell, 9th Ed
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Denture flask should be bench cooled for 30mins before retrieval
Rapid cooling – warpage – differences in thermal contraction of resin and investing material
Immersed in cool tap water for 15 mins Deflasked Stored in water until delivery
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Injection moulding technique
Half of the flask is filled with stone Contoured and permitted to set Sprues are attached to the wax
denture base
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Investment process is completed. Wax elimination is performed Flask is placed under pressure Resin mix is introduced into the mold polymerised
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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MODIFICATIONS OF HEAT ACTIVATED PMMA
High-impact strength resin
• Reinforced with butadiene-styrene rubber.
• Rubber particles are grafted to methyl methacrylate to bond to the acrylic matrix
• Supplied in powder-liquid form • Conventionally processed
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Rapid heat-polymerized resin
• Hybrid acrylics, with both chemical and heat-activated initiators - allow rapid polymerization
• No porosity expected• polymerized in boiling water for 20
minutes
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Microwave-activated PMMA:• Nishii (1968) first used microwave energy
to polymerize denture base resin in a 400 watt microwave oven for 2.5 minutes. This research was later carried on by Kimura et al (1983) and De Clerk.
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CHEMICALLY ACTIVATED DENTURE BASE RESINS
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Chemical activators used to induce polymerisation
Cold curing / self curing/ auto-polymerising resin
Chemical used – dimethyl –para-toluidine (to monomer)
Initiates breakdown of benzoyl peroxide to produce free radicals and
Hence polymerisation
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Degree of polymerisation is not complete – greater amount of unreacted monomer
Less colour stability due to the presence of the amine – susceptible to oxidation
Plasticizer - Results in decreased transverse strength
Potential tissue irritant
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Less shrinkage and greater dimensional accuracy compared to heat activated PMMA
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Technical considerations
Supplied in monomer – polymer form Mixed according to manufacturer’s
instructions to attain dough like consistency
Working time is shorter Refrigerating monomer increases
working time – rate of polymerization decreases
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Processing considerations
Pressure must be maintained throughout
Initial hardening – 30 min Flask should be held under pressure
for min. 3 hrs Low degree of polymerisation –
dimensional instability – soft tissue irritation
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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FLUID RESIN TECHNIQUE
Employs a pourable, chemically activated resin
When mixed – low viscosity resin Completed tooth arrangement is
sealed to the underlying cast Flask is filled with reversible
hydrocolloid – allowed to cool
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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After gelation – cast is removed and sprues and vents are cut on the external surface
Wax is eliminated using hot water Teeth are carefully retrieved and
placed in position Resin is mixed and poured via sprue
channels
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Placed in pressurised chamber at room temperature
Allowed to polymerize for30 – 45minutes
Denture is retrieved, sprues are removed
Returned to articulator for correction of processing changes
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Advantages• Improved adaptation• Decreased probability to damage to the
teeth• Reduced cost• Simplification of procedure
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Disadvantages• Noticeable shift of teeth• Air entrapment• Poor bonding• Technique sensitive
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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LIGHT ACTIVATED DENTURE BASE RESINS
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COMPOSITION:• Matrix : Urethane dimethacrylate,
microfine silica• Filler : acrylic resin beads• Activator : visible light• Initiator : camphorquinone
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Supplied in sheet and rope form Packed in light proof pouches Opaque investing material is required –
no conventional method
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Denture is moulded on an accurate cast
Exposed to a high intensity visible light for a period
Removed from the mold Finished and polished
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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PHYSICAL PROPERTIES OF DENTURE BASE
RESINS
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The physical properties will be discussed under the following headings: Polymerisation shrinkage Porosity Water absorption Solubility Processing stresses Crazing
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Polymerisation shrinkage
During polymerization the density of the mass changes from 0.94 g/cm3 to 1.19 g/cm3. thus a volumetric shrinkage of 21%
Linear shrinkage – denture base adaptation and cuspal interdigitation
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Volumetric shrinkage – 7%, hence linear shrinkage 2%
Initial cooling – resin is soft – contraction occurs at the same rate as that of dental stone
At glass transition temperature – contraction occurs at a faster rate than the surrounding stone.
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Glass transition temperature:
It is a thermal change in which the
resin passes from a soft, rubbery
stage to a rigid glassy state
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Decreases in vertical dimension
Increase in overall vertical
dimension
Fluid Resin
technique
Heat/chemicallyactivated
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Porosity
Surface or subsurface voids compromise physical and aesthetic properties
More likely to develop in thicker portions
Due to vapourization of unreacted monomer and low molecular weight polymers
Does not occur equally
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Can also be due to inadequate mixing of powder and liquid
Regions with more monomer, shrink more – resulting in voids
Using proper monomer – polymer ratio is essential
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Also due to insufficient pressure or less material during polymerisation
Assume irregular shape Resultant resin appears lighter
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Final type is associated with fluid resins
Caused due to air inclusions during mixing and pouring
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Water absorption
Absorbs relatively small amounts when placed in water
Water molecules penetrate the PMMA and occupy positions between polymer chains – forces them apart
Slight expansionIn polymerised mass
Water acts asplasticizers
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Water absorption value – 0.69 mg/cm2
Interferes with the polymer chainMaking them more mobile by releasing
stresses
Changes in shape(insignificant)
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Solubility
Insoluble in fluids in the oral cavity Negligible loss
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Processing stresses
Natural dimensional change is inhibited -contains stresses
Stresses relaxed - distortion occurs During polymerization tensile stresses
are sustained Stress is produced during thermal
shrinkage also (cooling < glass transition temperature)
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Additional factors include • improper mixing and handling of the resin• Poorly controlled heating and cooling of
flask assembly Dimensional changes due to small
stresses - 0.1 to 0.2mm
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Crazing Stress relaxation may produce flaws -
CRAZING Hazy or foggy appearance Tensile stresses most often responsible
and may result the denture to crack.
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Produced due to mechanical separation of individual polymer chains – tensile stresses
Also due to solvent action Begins at surface of the resin and
oriented to right angles to the tensile forces.
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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Strength
Load application produces stresses within the resin – change in shape
Strength of the resin is directly proportional to the degree of polymerisation shrinkage
Heat activated resins display lower degree of polymerisation
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Creep
Act as rubbery solids that recover from elastic deformation once stresses are eliminated – viscoelastic behaviour
If load is not removed additional plastic deformation occurs – creep
Rate at which this deformation occurs – creep rate
REFERENCE : Phillips' Science of dental materials, Anusavice, 11th Ed
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RECENT ADVANCES IN DENTURE BASE
MATERIALS
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Radio-opaque dentures
The radiolucent nature of PMMA is one of its disadvantages as a denture base material.
Denture wearers can endure serious complications if their dentures fractures and a portion is inhaled or ingested.
Use of sophisticated ultrasound techniques also prove to be difficult for detection.
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The most promising material - Silanated barium fluoride impregnated powdered glass. (kasim 1998)
Barium sulphate (BaSO4) has also been added to denture base resins to improve radiopacity.
Lang et al. (2000) investigated the potential for triphenylbismuth incorporated into injection moulded heat cure resins to improve radiopacity.
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Cytocompatible anti-fungal resin
Inhibition of Candida albicans on denture resins could play a significant role in preventing the development of denture stomatitis
PMMA-silver nanoparticle discs were formulated, with the commercial acrylic resin
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The inner surface of the prosthesis is rough, and in addition to local (eg, poor hygiene, local trauma, tissue integrity loss) and systemic factors (eg, malnutrition, diabetes mellitus, human immunodeficiency virus infection, xerostomia), contributes to the proliferation of C. albicans
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Spherical silver nanoparticles were synthesized and added to a PMMA formulation, resulting in successful reduction of adherence of C. albicans
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Titanium denture base
Commercially pure (CP) titanium has appropriate mechanical properties
Lightweight (low density) compared with conventional dental alloys
Outstanding biocompatibility that prevents metal allergic
reactions
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Flexible dentures
Flexible denture material is available in the form of granules in cartridges of varying sizes.
It was first introduced by the name of valplast and flexiplast to dentistry in 1956.
These are superpolyamides which belong to nylon family
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Advantages • Soft inherent flexibility• Will not warp• Clinically unbreakable• No porosity• Less bulky• Biocompatible• Better esthetics • Better chewing efficiency
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Disadvantages• De-bonding of acrylic teeth• Discolouration• High surface roughness• Cannot be relined• Difficult to polish• Technique sensitive• Cannot be repaired
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Contraindications :• Insufficient inter-arch space (< 4mm
space for placement of teeth)
• Prominent residual ridges
• Flat, flabby ridges
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Applications:
Management of xerostomia patients - soft and adapt well to the gums - comfortable for wearing.
retain moisture and give better lubrications than acrylic dentures
biocompatible - safe for patients with carcinoma.
lighter in weight, are not brittle, do not warp suitable in conditions of inadequate vertical
dimension
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NESBIT RPD
One modification of the Valplast partial denture is called the Nesbit.
The Nesbit is used to replace one to three teeth on the same side of the mouth and is much smaller than a conventional partial denture.
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The procedure can be completed in two short visits, requires no anesthesia or drilling of teeth (in most cases), and the cost is substantially less than either a permanent bridge or dental implants.
A Valplast Nesbit is generally easy to get used to, and has a very realistic appearance
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High impact acrylic
Incorporation of a rubber phase butadiene styrene
Improved impact strength
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High impact acrylic resin reinforced with zirconia
The transverse strength of high-impact denture base resin can be increased significantly by a factor of 29% and 76% when reinforced with zirconia in a concentration of 5% and 15% respectively
In this process, expansion of ZrO2 crystals occurs and places the crack under a state of compressive stress and crack propagation is arrested
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Fibre reinforced dentures
To improve the physical and mechanical properties of acrylic resin, it was reinforced with fibres
1. Carbon fibres2. Kevlar fibres 3. Glass fibres
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CARBON FIBRES:• The use of Carbon fibres as denture base
strengtheners have been investigated by Larson et al and Sonit(1991) .
• Carbon fibres have been shown to improve flexural and impact strength, prevent fatigue fracture and increased fatigue resistance on treating with silane coupling agent(Yazdanie-1985)
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KEVLAR FIBRES:• These fibres are resistant to chemicals,
are thermally stable, and have a high mechanical stability, melting point, and glass transitional temperature
• Studies conducted by Berrong et al(1990) have shown to significantly increase the impact strength and the modulus of elasticity of the resin but they are also unesthetic
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GLASS FIBRES:• Different types of glass fibres are
produced commercially; these include E-glass, S-glass, R-glass, V-glass, and Cemfil.
• E-glass fibre - high alumina and low alkali and borosilicate, is claimed to be superior in flexural strength
• Because the modulus of elasticity of glass fibres is very high, most of the stresses are received by them without deformation
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Summary
No denture base material has yet been developed which completely fulfils all the criteria for success and conversely does not posses any of the above noted problems. Since PMMA was introduced, most dental material research has focused upon developing materials with higher strength, lower levels of residual methacrylate monomer after processing, improved dimensional stability, increased radiopacity and improved resistance to candidal infiltration
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Bibliography Phillip’s Sciences of dental materials,
Anusavice, 11th Ed Material science for dentistry, B. W.
Darwell, 9th Ed Young, Beth C. (2010) A comparison of
polymeric denture base materials. Cytotoxicity of denture base acrylic resins:
A literature review http://www.iosrjournals.org/iosr-jdms/papers/Vol13-issue3/Version-2/C013320709.pdf. Denture base resins : From past to future
http://ijds.in/article-pdf-RENU_TANDON_SAURABH_GUPTA_SAMARTH_KUMAR_AGARWAL-63.pdf
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THANK YOU!!!