Tooth Coloured Filling Materials 1

Question 1

What properties are we looking for in a dental filling material?

Answer 1

• tooth coloured
• doesn’t wear away

Question 2

define composite

Answer 2

A product with 2 distinct phases

• purpose is to combine 2 or more materials to produce one with superior properties
• dental composite contains inorganic filler and an organic binder

Question 3

What does dental composite contain?

Answer 3

Inorganic filler
Organic binder

Question 4

Advantages of dental composite

Answer 4

• aesthetic - tooth coloured
• conservation of tooth
• adhesion to tooth structure (through a bonding system)
• low thermal conductivity
• alternative to amalgam (mercury)

Question 5

Disadvantages of dental composite?

Answer 5

• technique sensitivity
• decreased wear resistance
• polymerisation shrinkage (shrinks after curing) results in..

1. Marginal leakage
2. Secondary caries
3. Postoperative sensitivity

Therefore dental composite not as good as amalgam

Question 6

Classification of direct composite

Answer 6

Filler particle size (macro filled?)

How cured? (Chemically / light)

Clinical application - packable? Floatable? Bulk flow?

Question 7

What is dental composite set by?

Answer 7

Dental composite set by free radical addition polymerisation

Question 8

Free radical addition polymerisation

Answer 8

1. Activation
   - chemical
   Organic amine + organic peroxide
   - light
   Camphorquinone + blue light
2. Initiation
3. Propagation
4. Termination

Question 9

What does polymerisation result in?

Answer 9

Shrinkage

Question 10

What can shrinkage lead to?

Answer 10

Poor bond to tooth so easily pulled away from dentine
Which leads to..

• poor retention
• staining
• sensitivity
• secondary caries

Question 11

Monomers are used in dental composite
Why are these important?

Answer 11

Dental composite usually GMA + TEGMA or UDMA + TEGMA

Each material has C C bonds at both ends of monomer chain
- Dimethacrylate

The 2 C C bonds can be broken to initiate polymerisation

Question 12

Bis-GMA

Answer 12

Extremely viscous - large benzene rings
Lowered by adding TEGDMA
- freely moveable
- increases polymer conversion
- increases cross linking
- increases shrinkage

Question 13

Light cure why?

Answer 13

Convert from monomer to polymer
Stress set up at bonding interface
Stress relived up to gel point

After gel point composite = unyielding
Stress transferred to tooth
2mm depth of cure to minimise stress transfer

New materials don’t need this tho

Question 14

Why are fillers used?

Answer 14

placed in dental composites to reduce shrinkage upon curing

• strontium glass
• barium glass
• quartz
• ceramic
• silica
• pre polymerised resin

Question 15

how are fillers classified?

Answer 15

By material, shape, size

Question 16

Filler classification

Answer 16

Fillers are irregular or spherical in shape depending on manufacturer

Spherical particles are easier to incorporate into a resin mix and to fillmore space leaving less resin

One size spherical particle occupies a certain space

Adding smaller particles fills the space between the larger particles to takeup more space.

There is less resin remaining and therefore, less shrinkage on curing

Question 17

What does addition polymerisation result in?

Answer 17

Shrinkage

Question 18

Acrylic restorations when first placed ->

Polymerisation is…
Bond to dentine is…

Answer 18

Polymerisation is highly exothermic
Bond to dentine is poor as dentine is wet and acrylic is hydrophobic

Question 19

Light curing converts?

Answer 19

Monomer to polymer

Question 20

Inorganic fillers reduce…?

Answer 20

• polymerisation shrinkage
• water sorption
• thermal expansion

Question 21

Inorganic fillers increase…?

Answer 21

• compressive / tensile strength
• Modulus of elasticity
• Abrasion resistance

Question 22

What is the 3rd phase?

Answer 22

The coupling phase

Question 23

What does the coupling phase do?

Answer 23

It provides a chemical bond between the filler particle and the resin matrix
This facilitates stress transfer from the relatively weak matrix to the relatively stronger filler

This will typically be the organosilane (bifunctional molecule)
- Siloxane end bonds to hydroxyl groups on filler
- Methacrylate end polymerises with resin

In the middle is the silane coupling agent

Question 24

What is the use of coupling agents

Answer 24

Coupling agents are used to improve adherence of resin to filler surfaces

Question 25

What is the advantage of using coupling agents

Answer 25

Coupling agents chemically coat filler surfaces and increase strength

Question 26

What are the disadvantages of silanes?

Answer 26

They age quickly in a bottle and become ineffective

Silanes are sensitive to water so the silane filler bond breaks down with moisture

Water absorbed into composite results in hydrolysis of the silane bond and eventual filler loss

Question 27

Properties of dental composite

Answer 27

Compressible strength - 170-260MPa (Enamel 100-380, Dentine 250-350)
Tensile strength - 30-55MPa (Enamel 10, Dentine 20-50)
Coefficient of Thermal Expansion 20-77 (Enamel 11.4, Dentine 8.3)
Polymer shrinkage 3%

Question 28

describe flowable composites

Answer 28

Their percentage filler content by weight (50% to 70%) is less than that of traditional hybrid composite resins which givesthem a lower viscosity.

Indications:
– Class V restorations
– Micropreparations
– Extended fissure sealings
– Adhesive cementation of ceramic restorations
– Blocking out cavity undercuts
– Initial (base) layer in any classification

Question 29

Disadvantages of flowable composites

Answer 29

The flowable composite resins have lower filler volumes and thus they exhibit increased shrinkage and wear with decreased strength

Question 30

Packable composites (macrofilled hybrids)

Answer 30

Bulk placed composites
Stiffer materials

Question 31

Summarises dental composite

Answer 31

• BIS GMA resin + methacrylates
• Polymerise through photo initiated mechanisms
• Available in various shades and opacities
• Does not adhere to tooth tissue unless are specifically self etching

Question 32

Bonding to enamel is predictable and relatively easy

What is the structure of dental enamel?

Answer 32

• 95% HAP
• 4% water
• 1% non collagenous protein

Question 33

Etch and rinse
What is it and what does it do?

Answer 33

• An acid (mostly 30-40% phosphoric acid) is appliedand rinsed off.
• pH is 0.2 (very strong acid) and decalcification occursin 5-8 seconds
• Etching decalcifies portions of enamel rods

Question 34

Acid etch technique

Answer 34

• Calcium salts are dissolved which exposes interprismatic and prism areas for interlocking tagformation with the bonding resin.
• This is purely mechanical bonding, not trueadhesion.
• Bond strength ~20 MPa

Question 35

Bonding to dentine - the problem area?

Answer 35

Dentine contains:
– 33% by volume of organic component (mainly Type I collagen).
– 45% by volume of inorganic component(mainly hydroxyapatite).
– 23% by volume of water.
It is a moist, living tissue (hydrophobic) = issue

Question 36

Dentine bonding agents

Answer 36

• Ultimate aim is to bond a hydrophobic, highly viscous composite to a hydrophilic adherent.
• We therefore need something to change the properties of the dentine surface or smear layer from hydrophilic to hydrophobic

Question 37

What is a smear layer?

Answer 37

• Created by any mechanical cutting of dentine.
• Essentially dentine debris of variable thickness.
• In addition smear plugs are formed which block dentinal tubules

Question 38

Advantages of smear layer

Answer 38

Can protect dentine and ultimately the pulp from penetrationof bacteria

Eliminates diffusion of dentinal fluid

Question 39

Disadvantages of smear layer?

Answer 39

Impairs bond of composite to dentine.

It’s self is only relatively loosely bound.

Can harbour bacteria.

Question 40

4 strategies have been used to achieve optimum bonding

Answer 40

The smear layer is left alone

The smear layer is removed

The smear layer is modified

The smear layer is practically removed and partially modified

Question 41

Mechanism

Answer 41

The basic mechanism of bonding to enamel and dentin is essentially an exchange process involving replacement of minerals (removed from either of the hard dental tissues) by resin monomers, which, uponsetting, become micro-mechanically interlocked inthe created porosities

Superficial surface demineralisation of HAP enamel
Or
Removing HAP filler from the dentine and the resin then locking into the dentine

Question 42

What is the dentine hybrid layer

Answer 42

It is a process that creates a molecular-level mixture of adhesive polymers and dental hardtissues – the hybrid layer

Question 43

Define hybridisation

Answer 43

Hybridisation ~ the infiltration of resin monomers into the collagen fibrillar matrix of demineralised dentin, followed by polymerisation.

Question 44

Why is etching important?

Answer 44

Etched dentine has removed some HAP and so end up with exposed collagen fibres

Question 45

What and why do we apply on top of the etch?

Answer 45

Then infiltrate with primer which acts as a deterent to wet collagen and provide a hydrophobic surface for the resin - dual functionality
Resin is applied on top and then bond

Question 46

1. Steps in bonding to dentine

Describe the benefits and process of Acid etching

Answer 46

• Improves the retention of the restoration
• Increases the surface area of the dentine
• Removes “smear layer” from prep
• Allows for penetration of bonding agent into dentine
• Protect pulp exposures before using!
• Phosphoric acid (35-37%) gel or liquid
• Isolate teeth, apply etchant, wait (5-15 seconds)
• Rinse – don’t desiccate! – blot prep to remove wate

Question 47

2. Steps in bonding to dentine

Describe the benefits and process of Primer

Answer 47

• Resin - monomer
• Improves wettability of prep
• Penetrates etched dentin tubules
• Applied in a thin layer; thinned with air; blot
• May require light-curing

Question 48

3. Steps in bonding to dentine

Describe the benefits and process of Bonding adhesive

Answer 48

• Un-filled or lightly filled resin
• Adhesive bonds to collagen fibers in dentin - mechanically “locks-in” therefore a “Hybrid Layer”
• Applied in a thin, uniform layer
• Light-cured 10-20 seconds
• New “generations” being developed

Dental composite then applied

Question 49

Is acid etching good for enamel and dentine?

Answer 49

Yes

Gives good bonding area

It removes / modifies smear layer and exposes dentinal tubules

Question 50

Describe what we do after etching and why

Answer 50

This etching step is followed by a priming step.

• Primer is ampiphillic and low viscosity
• Solvents are added to adjust primer viscosityand improve its wetting
• Usually optimised for dentine surface characteristics rather than enamel

Question 51

Etch and rinse primers are usb classified by the primer solvent
What are they?

Answer 51

1. Acetone based e.g. All-bond 2, One Step
2. Ethanol based e.g. Optibond solo
3. Water based eg scotch bond MP

Question 52

What is the final step?

Answer 52

Final stage, application of the hydrophobic resin and cure, resulting in a three step process
Simplified two-step etch-and-rinse adhesives combine the primer and adhesive resin into one application

Question 53

Self-etch primer adhesive

Answer 53

Make use of acidic monomers that simultaneously etch and prime dentin.
The application of the self-etch primer is followed by the application of a hydrophobic bonding resin.
Without the need for rinsing, application time of self-etch adhesives is shorter and the technique-sensitivity lower

Question 54

Disadvantages of self-etch

Answer 54

As one moves away from phosphoric acid towardsacidic organic monomers, the challenges increase!
No option has yet been tested that is as effective asphosphoric acid for etching tooth structure - No typical microetching patterns on enamel
pH initially only in the range 1-3 and this increases asthe etching proceeds

Question 55

Requirements of self etch primer

Answer 55

Upon application the SE primer must:
– Dissolve the smear layer
– Decalcify intertubular dentine
whilst–
- Penetrating to embed superficial collagen andproduce an effective hybrid layer

Many complicated competitive events!
Consequently, systems relatively unstable

Question 56

Self etch adhesive

Answer 56

Just as was the case with etch-and-rinse adhesives,simplified adhesives that combine the (self-etch) primer with the adhesive resin were developed tocreate what is known as the one-step self-etch adhesives or so-called ‘all-in-one’ adhesives.

Question 57

Self etching enamel dentine adhesives

Answer 57

Question 58

Self etch adhesive requirements

Answer 58

• Some challenges as discussed above and inaddition it must create a surface compatible to hydrophobic restorative materials
• May need to acid etch in advance in complexclinical situations.
• The acidity of the bonding agent can interferewith the setting of self–cure composite andare CI

Question 59

A pathway for successful bonding to dentine?

Answer 59

A pathway for successful bonding to dentine:
– wetting
– infiltration to produce a ‘hybrid zone’
– mechanical interlocking
– stress resistance

Ultimate goal is marginal integrity and sealing tubules to prevent ingress of bacteria