DENTIN BONDING AGENTS
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Jul 10, 2011
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About This Presentation
SHIBIL.V
MALABAR DENTAL COLLEGE
EDAPPAL, KERALA.
Slide Content
DEFINITION
IDEAL REQUIREMENTS
PROBLEMS IN BONDING OF DENTIN
CHRONOLOGY OF DEVOLPMENT
BONDING TO DENTIN
ROLE OF SMEAR LAYER IN DENTIN BONNDING
CONDITIONING OF DENTIN
DENTIN BONDING AGENTS AND GENERATIONS
COMPONENTS OF BONDING AGENTS
INDICATIONS FOR CLINICAL EXAMINATION
CRITICAL STEPS IN BONDING
IDEAL REQUIREMENTS
PROBLEMS IN BONDING OF DENTIN
CHRONOLOGY OF DEVOLPMENT
BONDING TO DENTIN
ROLE OF SMEAR LAYER IN DENTIN BONNDING
CONDITIONING OF DENTIN
DENTIN BONDING AGENTS AND GENERATIONS
COMPONENTS OF BONDING AGENTS
INDICATIONS FOR CLINICAL EXAMINATION
CRITICAL STEPS IN BONDING
Biocompatible
Non toxic, Non irritant, Non poisonous
Low film thickness, Low viscosity
Form strong permanent bond
Good dimensional stability
Similar C.O.T.E as tooth
Low thermal conductivity
Good shelf life
Prevent micro leakage
Non toxic, Non irritant, Non poisonous
Low film thickness, Low viscosity
Form strong permanent bond
Good dimensional stability
Similar C.O.T.E as tooth
Low thermal conductivity
Good shelf life
Prevent micro leakage
GENERATIONGENERATION TIME
PERIOD
DEVELOPMENT
1950-1970 Experimentation with mineral acids for bonding acrylic to
enamel, concern about etching of dentin, bonding agents
not utilized with composites.
Early 1970s
Late 1970s
Acid etching of enamel, enamel bonding agents
Hydrophobic enamel bonding agents, hydrophilic dentin
bonding agents, light cured components.
4 Mid to late
1980s
Removal of dentin smear layer, acidic monomers and
acidic pretreatments,, reduction of steps in bonding
technique, multiuse bonding agents.
5 Early 1990s Etching to achieve hybrid layer in dentin, hydrophilic
agents for both enamel and dentin, bonding to moist
tooth structure, single bottle primer adhesives.
6 Mid to late
1990s
Self etching primers and primer adhesives, light and dual
cured options
7 Early 2000s No mix, self etching adhesives.
PERIOD
DEVELOPMENT
1950-1970 Experimentation with mineral acids for bonding acrylic to
enamel, concern about etching of dentin, bonding agents
not utilized with composites.
Early 1970s
Late 1970s
Acid etching of enamel, enamel bonding agents
Hydrophobic enamel bonding agents, hydrophilic dentin
bonding agents, light cured components.
4 Mid to late
1980s
Removal of dentin smear layer, acidic monomers and
acidic pretreatments,, reduction of steps in bonding
technique, multiuse bonding agents.
5 Early 1990s Etching to achieve hybrid layer in dentin, hydrophilic
agents for both enamel and dentin, bonding to moist
tooth structure, single bottle primer adhesives.
6 Mid to late
1990s
Self etching primers and primer adhesives, light and dual
cured options
7 Early 2000s No mix, self etching adhesives.
ETCHENTS / CONDITIONERS
PRIMERS
ADHESIVES
PRIMERS
ADHESIVES
ORGANIC ACID:- Maleic acid ,EDTA ,citric acid,
tartaric acid.
POLYMERIC ACID:- poly acrylic acid
INORGANIC ACID:- phosphoric acid, nitric acid.
tartaric acid.
POLYMERIC ACID:- poly acrylic acid
INORGANIC ACID:- phosphoric acid, nitric acid.
NTG-GMA
PMDM
BPDM
PENTA
HEMA
PMDM
BPDM
PENTA
HEMA
Hydrophobic monomers
BIS-GMA
UDMA
Diluent
TEGDMA
Wetting agent
HEMA
BIS-GMA
UDMA
Diluent
TEGDMA
Wetting agent
HEMA
Dentin is a dynamic tissue that shows changes
due to ageing, caries or restorative procedures
Dentinal tubules are filled with dentinal fluid
which constantly flow outward from the pulp
Dentin has a considerable amount of organic
material and water
Dentin is close to pulp, so different chemical
used for bonding and etching may irritate the
pulp.
due to ageing, caries or restorative procedures
Dentinal tubules are filled with dentinal fluid
which constantly flow outward from the pulp
Dentin has a considerable amount of organic
material and water
Dentin is close to pulp, so different chemical
used for bonding and etching may irritate the
pulp.
The molecule designed for dentin bonding were
represented by an M-R-X molecule.
M- methacrylate group for bonding to resin
matrix of composite resin
R- spacer such as hydrocarbon chain
X-functional group for bonding to organic or
inorganic component of dentin.
represented by an M-R-X molecule.
M- methacrylate group for bonding to resin
matrix of composite resin
R- spacer such as hydrocarbon chain
X-functional group for bonding to organic or
inorganic component of dentin.
Whenever tooth surface is cut with hand or
rotary instruments , it causes small particles of
the cut tooth surface to the tooth producing the
smear layer
Smear layer is defined as any debris ,calcific in
nature ,produced by reduction or
instrumentation of enamel, of dentin or
cementum
rotary instruments , it causes small particles of
the cut tooth surface to the tooth producing the
smear layer
Smear layer is defined as any debris ,calcific in
nature ,produced by reduction or
instrumentation of enamel, of dentin or
cementum
It has two phases
Solid phase-made up of cutting debris ,
primarily denaturated collagen and mineral
Liquid phase- made up of tortuous fluid filled
channels around the cutting debris
Bacteria entrapped in smear layer can survive
and multiply beneath the restoration
Solid phase-made up of cutting debris ,
primarily denaturated collagen and mineral
Liquid phase- made up of tortuous fluid filled
channels around the cutting debris
Bacteria entrapped in smear layer can survive
and multiply beneath the restoration
Retention of smear layer:-
1)lowers dentin permeability
2)prevent decrease in bond strength
3)lowers effect of pulpal pressure on bond
strength
Recent generations adhesives involves
modification of smear layer to facilitate bonding
1)lowers dentin permeability
2)prevent decrease in bond strength
3)lowers effect of pulpal pressure on bond
strength
Recent generations adhesives involves
modification of smear layer to facilitate bonding
Conditioning of dentin is defined as an
alteration of dentin surface including the
smear layer with the objective of producing a
substrate capable of micromechanical and
possibly chemical bonding to dentin adhesive
1.Acid conditioners ;-several acids like
phosphoric acid, maleic acid citric acid ,nitric
acid, oxalic acid and hydrochloric acid
alteration of dentin surface including the
smear layer with the objective of producing a
substrate capable of micromechanical and
possibly chemical bonding to dentin adhesive
1.Acid conditioners ;-several acids like
phosphoric acid, maleic acid citric acid ,nitric
acid, oxalic acid and hydrochloric acid
2.chelators- remove the smear layer without
decalcification or significant physical changes
on underlying dentin substrate
Chelates refers to a compound with a central
metal ion surrounded by covalently bonded
atoms ,legands which posses additional bonds
for chemical reaction
Best known chelator conditioner is EDTA
3.thermal conditioning- recent trend is to use
lasers in conditioning of teeth
Studies have conformed increased bond
strengths with lased dentin compared to those
with unlased dentin
decalcification or significant physical changes
on underlying dentin substrate
Chelates refers to a compound with a central
metal ion surrounded by covalently bonded
atoms ,legands which posses additional bonds
for chemical reaction
Best known chelator conditioner is EDTA
3.thermal conditioning- recent trend is to use
lasers in conditioning of teeth
Studies have conformed increased bond
strengths with lased dentin compared to those
with unlased dentin
Water act as a plasticizer for collagen and keep
it in soft state
If dentin is excessively dried it will leads to
collapse of dentin
If critical water concentration exists, that
prevents collapse of collagen network and
allows expansion of dried dentin.
Critical amount of water is essential for
bonding but an over wet condition decreases
bond strength and formation of blister like
structures at the interface
it in soft state
If dentin is excessively dried it will leads to
collapse of dentin
If critical water concentration exists, that
prevents collapse of collagen network and
allows expansion of dried dentin.
Critical amount of water is essential for
bonding but an over wet condition decreases
bond strength and formation of blister like
structures at the interface
This is the zone where the adhesive resin of the
dentin bonding agent micromechanically
interlocks within the inter tubular dentin and
surrounding collagen fibers
Hybrid layer is formed in following manner:-
1.etching removes smear layer and exposes
collagen fibers
It also removes hydroxy apetite with in the
intertubular dentin
dentin bonding agent micromechanically
interlocks within the inter tubular dentin and
surrounding collagen fibers
Hybrid layer is formed in following manner:-
1.etching removes smear layer and exposes
collagen fibers
It also removes hydroxy apetite with in the
intertubular dentin
2. Primers penetrate the collagen network.
3.Adhesive resins along with the primers form
resin microtags within the intertubular dentin
Hybrid layer also called resin-dentin
interpenetration/ interdiffusion zone
3.Adhesive resins along with the primers form
resin microtags within the intertubular dentin
Hybrid layer also called resin-dentin
interpenetration/ interdiffusion zone
Development of NPG-GMA, a surface active co-monomer was
the basis of first commercially available dentin bonding agent.
Theoretically NPG-GMA was supposed to chelate with calcium
in dentin to form water resistant chemical bond to dentin
In this M -un saturated methyl methacrylate group
X -acidic phosphate group to react with calcium of dentin
But bond strength produced by this agent very low (2-3 mpa).
Clinically this agent did not successfully bond composite resin
to dentin.
the basis of first commercially available dentin bonding agent.
Theoretically NPG-GMA was supposed to chelate with calcium
in dentin to form water resistant chemical bond to dentin
In this M -un saturated methyl methacrylate group
X -acidic phosphate group to react with calcium of dentin
But bond strength produced by this agent very low (2-3 mpa).
Clinically this agent did not successfully bond composite resin
to dentin.
Introduced in 1970s and attempted to bond chemically
to either inorganic or organic components of dentin
But they produced only limited bond strength (5-6 mpa).
Materials tried were:- halogen phosphoric acid esters of
Bis-GMA, NPG-GMA, PHENYL-P
Examples:-
Clear fill bonds system F
scotch bond
bond lite.
to either inorganic or organic components of dentin
But they produced only limited bond strength (5-6 mpa).
Materials tried were:- halogen phosphoric acid esters of
Bis-GMA, NPG-GMA, PHENYL-P
Examples:-
Clear fill bonds system F
scotch bond
bond lite.
Third generation attempted to deal with smear
layer and dentinal fluid
They employed two approaches:-
Modification of smear layer to improve its property
Or
Removal of smear layer without disturbing smear
plugs that occlude the dentinal tubules.
The idea was to avoid aggressive etching of dentin
because it cause pulpitis
layer and dentinal fluid
They employed two approaches:-
Modification of smear layer to improve its property
Or
Removal of smear layer without disturbing smear
plugs that occlude the dentinal tubules.
The idea was to avoid aggressive etching of dentin
because it cause pulpitis
2% nitric acid
2.5% maleic acid with HEMA
10% citric acid with 3% ferric chloride
10% phosphoric acid
Eg:- Tenure, Scotch bond, Gluma C&B metabond
2.5% maleic acid with HEMA
10% citric acid with 3% ferric chloride
10% phosphoric acid
Eg:- Tenure, Scotch bond, Gluma C&B metabond
Developed in 1990s
Multiple bottles
Etching with phosphoric acid required
Rinsing required
Light and dual cured formulations available.
ETCHANT:- Phosphoric acid, citric acid/ calcium chloride,
oxalic acid/ aluminum nitrate.
PRIMER:- NTG-GMA/BPDM,HEMA/GPDM,4META
ADHESIVES:- Bis-GMA,TEGMA
SOLVENT:- acetone, ethanol/water.
Eg:- all bond 2 ,panavia 21.
Multiple bottles
Etching with phosphoric acid required
Rinsing required
Light and dual cured formulations available.
ETCHANT:- Phosphoric acid, citric acid/ calcium chloride,
oxalic acid/ aluminum nitrate.
PRIMER:- NTG-GMA/BPDM,HEMA/GPDM,4META
ADHESIVES:- Bis-GMA,TEGMA
SOLVENT:- acetone, ethanol/water.
Eg:- all bond 2 ,panavia 21.
This are simplified version of fourth generation
In fifth generation bonding agents primer and
adhesives are in same bottle.
Etching and rinsing required
ETCHANT:- Phosphoric acid,
PRIMER:- PENTA, Methacrylated phosphonates
SOLVENT:- acetone, ethanol/water.
These agents are inferior to fourth generation
bonding agents in terms of bond strength.
Eg:- single bond3,Gluma comfort bond.
In fifth generation bonding agents primer and
adhesives are in same bottle.
Etching and rinsing required
ETCHANT:- Phosphoric acid,
PRIMER:- PENTA, Methacrylated phosphonates
SOLVENT:- acetone, ethanol/water.
These agents are inferior to fourth generation
bonding agents in terms of bond strength.
Eg:- single bond3,Gluma comfort bond.
These includes self etching primers where the etchant
and primer are in one bottle and adhesive resin in
another bottle.
Manipulation is easy , show good bond strength to
dentin but not to enamel
Etching and rinsing not required
Primer applied first then adhesive.
ACIDIC PRIMER ADHESIVE:- Methacrylated phosphates
SOLVENT:- Water
Eg:- clear fill SE bond,XENO
and primer are in one bottle and adhesive resin in
another bottle.
Manipulation is easy , show good bond strength to
dentin but not to enamel
Etching and rinsing not required
Primer applied first then adhesive.
ACIDIC PRIMER ADHESIVE:- Methacrylated phosphates
SOLVENT:- Water
Eg:- clear fill SE bond,XENO
One bottle- no mixing required.
Etching and rinsing not required
Light cured formulation
Useful for direct applications with light cured
restorative material.
ACIDIC PRIMER ADHESIVE:- Methacrylated
phosphates
SOLVENT:- Water
Etching and rinsing not required
Light cured formulation
Useful for direct applications with light cured
restorative material.
ACIDIC PRIMER ADHESIVE:- Methacrylated
phosphates
SOLVENT:- Water
All direct composite resin restoration,both
anterior& posterior
For bonding indirect composite resin inlays, onlays
and veneers.
For bonding indirect ceramic veneers , inlays and
onlays.
Bonded amalgam restorations
Management of dentin hypersensitivity
Luting post and core restorations
anterior& posterior
For bonding indirect composite resin inlays, onlays
and veneers.
For bonding indirect ceramic veneers , inlays and
onlays.
Bonded amalgam restorations
Management of dentin hypersensitivity
Luting post and core restorations
Proper isolation:- by using rubberdam , saliva
contamination can block mechanical bonding.
Pulp protection:- by using calcium hydroxide liner.
Acid etching of enamel and dentin:- by using 37%
phosphoric acid for 15 sec. then wash
Dentin surface must be kept moist. If dentin is
over dried it would result in collapse of exposed
collagen fibers.
Careful application and curing of bonding agents.
Placing the composite resin.
contamination can block mechanical bonding.
Pulp protection:- by using calcium hydroxide liner.
Acid etching of enamel and dentin:- by using 37%
phosphoric acid for 15 sec. then wash
Dentin surface must be kept moist. If dentin is
over dried it would result in collapse of exposed
collagen fibers.
Careful application and curing of bonding agents.
Placing the composite resin.
CLINICAL OPERATIVE DENTISTRY- PRINCIPLES
AND PRACTICE – RAMYA RAGHU
CRAIG’S RESTORATIVE DENTAL MATERIALS
OPERATIVE DENTISTRY – VIMAL.K.SIKRI
SCIENCE OF DENTAL MATERIALS – V .SHAMA
BHUTT
AND PRACTICE – RAMYA RAGHU
CRAIG’S RESTORATIVE DENTAL MATERIALS
OPERATIVE DENTISTRY – VIMAL.K.SIKRI
SCIENCE OF DENTAL MATERIALS – V .SHAMA
BHUTT
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