This document provides an overview of anterior composite restorations. It discusses the indications, contraindications, advantages, and disadvantages of composite resins. It also describes the different types of composites and their composition. The document outlines techniques for cavity preparations for Class III, IV, and V lesions and the steps for placing composite restorations, including acid etching, bonding, matrix placement, increment placement, and finishing/polishing. Composite resins are presented as esthetic restorative materials that conserve tooth structure when used for anterior restorations according to the guidelines provided.
2. CONTENTS
⢠INTRODUCTION TO COMPOSITES
⢠INDICATIONS.
⢠CONTRAINDICAIONS.
⢠ADVANTAGES.
⢠DISADVANTAGES.
⢠CLINICAL TECHNIQUES FOR COMPOSITE
RESTORATIONS.
⢠ANTERIOR COMPOSITE RESIN RESTORATIONS:
o CLASS III CAVITY PREPARATION FOR COMPOSITE
RESINS.
3. o CLASS IV CAVITY PREPARATION FOR COMPOSITE
RESINS.
o CLASS V CAVITY PREPARATION FOR COMPOSITE
RESINS.
⢠RESTORATIVE TECHNIQUES.
⢠CONCLUSIONS.
4. INTRODUCTION TO COMPOSITES
⢠DEFINITION:
It is solid formed from two or more distinct phases that
have been combined to produce properties superior to or
intermediate to those of the individual components.
5. CLASSIFICATION OF DENTAL COMPOSITES
1)Based on filler particle type
a) Homogeneous composites
⢠Macrofill- Macro fillers in the range of 10-100um.
⢠Midifill- Midfillers from 1-10um
⢠Minifill â Minifillers from 0.1-1um
⢠Microfill âMicrofillers from 0.01-0.1
⢠Nanofill- Nanofillers from 0.001-0.01um
⢠Megafill- Very large individual fillers particles, called megafillers.
b) Heterogeneous composites
⢠Hetero-Midfill
⢠Hetero-Minifill
⢠Hetero-Microfill
c) Hybrid composites
⢠Midi-Micro Hybrid
⢠Mini-Micro hybrid
⢠Mini-Nano Hybrid
6. 2) Based on matrix composition
⢠BIS-GMA based composites.
⢠UDMA based composites
3) Based on polymerization method
⢠Light cured composites
⢠Chemical cure composites
⢠Dual cure composites
4) Based on viscosity
⢠Packable composites
⢠Flowable composites
7. COMPOSITION OF COMPOSITE RESINS
THE BASIC COMPONENTS OF COMPOSITE RESINS INCLUDE
THE FOLLOWING:
⢠RESIN MATRIX.
⢠FILLERS.
⢠COUPLING AGENTS.
⢠ACTIVATOR-INITIATOR SYSTEMS.
⢠INHIBITORS.
⢠OPTICAL MODIFIERS/ COLORING AGENTS.
8. RESIN MATRIX
⢠It is the continuous phase to which the other ingredients
are incorporated.
⢠Most composite resins contain the following resin
matrices:
o BisGMA (bisphenol A glycidyl methacrylate).
o UDMA (urethane dimethacrylate)
o Combination of bisgma and UDMA.
9. FILLERS
⢠Fillers in composite resins are usually a type of glass such as quartz, silica,
barium glass etc.
⢠The types of fillers used include quartz, silica, borosilicate glass, barium,
strontium, zinc, zirconium .
⢠The filler content in composite resins ranges from 30%-70% or 50%-85% by
weight.
10. COUPLING AGENTS
⢠The coupling agent binds the filler particles to the resin
matrix and allow more flexible resin matrix to transfer
stresses to the stiffer filler particles.
⢠Oraganic silanes like gamma-methacryloxy propyl
trimethoxy silane is commonly used.
11. ACTIVATOR-INITIATOR SYSTEMS
⢠Composite resins polymerize by an addition
polymerization mechanism that is brought about by the
release of free radicals.
Free radicals are released by:
o Chemical activation.
o Light activation:
⢠UV light.
⢠Visible light.
12. INHIBITORS
⢠These are added to prevent spontaneous polymerization of
the monomers by inhibiting the free radical.
⢠Butylated hydroxy toluene 0.01% is added as inhibitor in
composite resins.
13. OPTIMAL MODIFIERS/COLORING AGENTS
⢠Metal oxides in minute amounts are added to the
composite resin to produce different shades of composites.
⢠Aluminium oxides and titanium oxide in small amounts
provide opacity to composite resins.
⢠Darker shades and greater opacities have a lesser depth of
curing than lighter shades.
15. PROPERTIES OF COMPOSITE RESINS
⢠Polymerization shrinkage.
⢠Mechanical properties
⢠Linear coefficient of thermal expansion.
⢠Wear
⢠Water sorption.
⢠Solubility.
⢠Marginal integrity.
⢠Radiopacity.
⢠Esthetics, color, and color stability.
⢠Biocompatibility.
16. INDICATIONS
⢠Class I and class II cavities.
⢠Class III, class IV and class V cavities.
⢠Class VI cavities.
⢠Foundations or core buildups.
⢠Esthetic enhancement procedures.
⢠Luting cements.
⢠Interim restorations.
⢠Miscellaneous applications.
17. CONTRAINDICATIONS
⢠High caries incidence and poor oral hygiene.
⢠Heavy, abnormal occlusal stresses.
⢠Access and isolation difficulties.
⢠Subgingival extensions.
⢠Limited operator skill and knowledge.
18. ADVANTAGES
⢠Esthetics
⢠Conserve tooth structure.
⢠Adhesion.
⢠Low thermal conductivity.
⢠Universal application.
⢠Command set.
⢠Repairable.
⢠Can be polished at the same appointment.
19. DISADVANTAGES
⢠Polymerization shrinkage.
⢠Technique sensitivity.
⢠Time-consuming and expensive.
⢠Difficult to finish and polish.
⢠Increased coefficient of thermal expansion.
21. SHADE SELECTION
GUIDELINES FOR SHADE SELECTION
⢠The shade must be selected before drying the teeth because drying
makes the teeth lighter in shade due to loss of translucency.
⢠Use shade guides for shade selection.
⢠Use good lighting, either natural or artifical during shade
selection.
⢠For complex situation use a combination of shades.
⢠The shade selection should be made quickly within 30sec.
22. GENERAL CONCEPTS FOR CAVITY
PREPARATION FOR COMPOSITES
⢠Minimal extensions.
⢠Pulpal and or axial walls of varying depth.
⢠Enamel bevel.
⢠Butt joint on root surfaces.
⢠Tooth preparation walls must be rough.
23. ANTERIOR COMPOSITE RESIN RESTORATIONS
CLASS III CAVITY PREPARATION FOR COMPOSITE RESINS:
CLASS III RESTORATIONS ARE DONE ON PROXIMAL SURFACES
OF ANTERIOR TOOTH WHICH DO NOT INVOLVE THE
INCISAL ANGLES.
24. CLASS III TOOTH PREPARATION
⢠There is a choice between facial or lingual entry into the tooth.
INDICATIONS FOR LINGUAL APPROACH:
⢠To conserve facial enamel for enhanced esthetics.
⢠Carious lesions is positioned lingually.
⢠Lesion is accessible from the lingual.
25. Indications for facial approach:
⢠The carious lesion is positioned facially.
⢠Teeth is irregularly aligned, making lingual access undesirable.
⢠Extensive caries extent into the facial surfaces.
⢠Faulty restoration that was originally placed at the facial.
26. CLINICAL STEPS IN A CLASS III CAVITY
PREPARTION:
⢠INITIAL CLINICAL PROCEDURE.
⢠TOOTH PREPARATION.
o LINGUAL VS FACIAL APPROACH.
o OUTLINE FORM.
o INITIAL TOOTH PREPARATION.
o FINAL TOOTH PREPARATION.
⢠RESTORATIVE TECHNIQUE
o MATRIX APPLICATION.
o PLACEMENT OF ADHESIVE.
o INSERTION AND LIGHT ACTIVATION OF THE COMPOSITE.
o CONTOURING AND POLISHING OF THE COMPOSITE.
27. TOOTH PREPARATION
TOOTH PREPARATION FOR CLASS III DIRECT COMPOSITE
RESTORATION INVOLVES:
⢠Obtaining access to the defect (caries, fracture).
⢠Removing faulty structures (caries, defective dentin, defective
restoration).
⢠Creating convenience form for the restoration.
DEPENDING UPON THE EXTENT OF THE PREPARATION TO
BE THE RESTORED, THERE ARE THREE DESIGNS:
⢠Conventional.
⢠Beveled conventional.
⢠Modified.
30. RESTORATIVE TECHNIQUE
⢠Matrix application.
⢠Placement of adhesive.
⢠Insertion and light activation of the composite.
⢠Contouring and polishing of the composite.
31.
32.
33. CLASS V CAVITY PREPARATIONS FOR COMPOSITE
RESINS:
CLASS V RESTORATIONS ARE DONE ON THE GINGIVAL
THIRD OF FACIAL AND LINGUAL SURFACES OF ALL
TEETH.
34. TOOTH PREPARATION
⢠After the usual preliminary procedure, the initial tooth preparation is
accomplished with a round diamond bur, eliminating the entire
enamel surface lesions or defect.
⢠The completed preparation is made with etched enamel and primed
dentin.
36. RESTORATIVE TECHNIQUE
⢠Acid etching and placement of the adhesive.
⢠Insertion and light activation of the composite.
⢠Contouring and polishing of the composite.
37. CLASS IV CAVITY PREPARATION FOR COMPOSITE RESINS:
CLASS IV CAVITY PREPARATIONS ARE DONE ON THE
PROXIMAL SURFACES OF ANTERIOR TOOTH THAT
INCLUDE THE INCISAL ANGLES.
38. TOOTH PREPARATIONS
SMALL DEFECT:
⢠The treatment of the teeth with minor coronal fracture requires
minimal preparation.
⢠If the fracture is confined to enamel, adequate retention attained by
beveling the sharp cavosurface margins in the fractured area with a
flamed shaped diamond instrument followed by bonding.
39. LARGE DEFECT:
⢠Using A round carbide bur or diamond instrument of appropriate size
at high speed with air-water coolant, the outline form is prepared.
⢠All weakened enamel is removed and initial axial wall depth is
established.
⢠The bevel is prepared at 45 degree angle to the external tooth surface
with flame shaped diamond instrument.
⢠The width of the bevel should be 0.5 to 2mm.
40. RESTORATIVE TECHNIQUE
Contouring and polishing the class iv composite is similar to the technique of
class iii composite but usually more difficult. The primary differences are:
o The involvement of the incisal angle and edge of the tooth and extended
facial surface in large class iv.
o Close assessment of the incisal edge length and thickness.
o The potential occlusal relationship may be greater and require more
adjustment and refinement.
42. ACID ETCHING
⢠This is done using 37% phosphoric acid liquid or gel.
⢠The gel may be applied using a syringe applicator or brush.
⢠The etching time is 15sec for both enamel and dentin preparations. Following this
it has to be thoroughly rinsed with A water spray for 5 to 15sec.
⢠When the preparation is only in enamel, the surface can be dried with clean dry
air. The etched enamel will appear frosty white due to the removal of both prism
cores and peripheries creating microscopic irregularities.
⢠When the preparation involves both enamel and dentin, the surface should
be dried using cotton pellets.
⢠This is because acid etching of dentin removes the surface hydroxyapatite
from the intertubular and peritubular dentin thus opening the tubules
leaving an interconnected layers of collagen fibrils.
43. BONDING
⢠For the smear layer removing dentin bonding agents,
the primer and adhesive are combined in one bottle thus
simplifying the bonding process.
⢠The bonding agent is applied using a micro brush.
⢠The bonding agent penetrates the irregularities on enamel and bonds
micromechanically by formation of resins tags.
⢠On dentin the bonding agent penetrates the collagen network and the
dentinal tubules forms a hybrid layer consisting of a resin-dentin
interdiffusion zone.
44. MATRIX PLACEMENT
⢠The matrix may be placed either before or after etching and bonding.
⢠It is better to place the matrix band first before etching and bonding as it has
the following benefits:
o Good isolation of the prepared tooth to allow proper adhesion.
o It can help assess the soundness of gingival cavosurface margin during
wedge placement.
⢠For class iii cavities, clear polyester strip matrices are used.
⢠For class iv cavities, clear polyester strip or thin clear plastic crown form may
be used.
⢠No matrix is needed for class v cavities.
45. ⢠Two types of matrices are available
- polyester matrix
- metal matrix
⢠various matrix retainer which can be used are
- Tofflemire retainer
- Compound supported metal matrix
- Sectional matrix system- palodent contact
46. Various matrices used in anterior composite restorations are:
⢠Clear plastic matrix:
Transparent plastic strips are employed as matrices for tooth-
coloured restoration as they allow light to be transmitted during
polymerization of composite resins.
⢠Window matrix:
This is modification of the tofflemire matrix.
It is used for class v amalgam restoration.
⢠Tin foil matrix:
This is used for class V restoration for conventional GIC.
Tin foil may be preshaped and cut according to the gingival third of
the buccal and lingual surfaces of the teeth to be restored.
⢠Preformed transparent cervical matrix:
They are commercially available in various contours for use
in anterior and posterior teeth.
47.
48. INSERTION OF COMPOSITE RESIN
⢠The composite resin is built incrementally using special
hand instruments in 1-2mm thickness.
⢠The material is contoured before light curing.
⢠The cavity is filled and contouring using the matrix
before final curing.
49. DIFFERENT DESIGNS OF INCREMENT PLACEMENT
1.Three increment design
One flat increment at gingival
& Occlusal wall & two oblique
Increments both at proximal box
Occlusal box.
1st increment thinner than 1.00mm.
2. Horizontal layering design
Small increments placed horizontally
One above the other, starting from
Gingival wall to occlusal wall.
50. 3. Oblique layering design
Each increment is placed obliquely Starting from any sides &
Curing Is done from all three sides.
4. U-shaped layering design
At base, both gingival & occlusal gingival,
U-shaped increment is given
51. 5. Vertical layering technique
Increments are placed in vertical fashion starting from one wall
and carried on to another wall and curing is done from behind
the wall.
6. Layering technique
In the proximal box and curing each increment by inserting
the fiber-optic microtip into composite.
52. FINISHING AND POLISHING
⢠After filling the entire cavity, the matrix is removed and
the restoration is finished and polished using finishing
burs, stones and strips.
⢠They are of two types:-
ďź Natural abrasives
ďź Manufactured or synthesized abrasives
54. CONCLUSION
Composite resins have provided clinicians with a wide
range of restorative options. They satisfy almost all the
requirements of an ideal restorative material. Their use has
risen almost exponentially in the last two decades and
have enabled dentists to implement preventive and
minimally invasive techniques, a prospect previously
desired but never truly attained. More importantly,
patients can retain their teeth longer, with a more esthetic
appearance, resulting in a healthier and self-confident
population.
55. REFERENCES
⢠Sturdevantâs art and science of operative dentistry.
⢠Clinical operative dentistry â Ramya Raghu.
⢠Basic dental materials â John J Manappallil.
Editor's Notes
Fiiler,Matrix,polymerisation,viscocity
Poly shrinkage:resin matrix-marginal gaps and enamel #..reduced by addition of fillers and incremental layering
Mech:similar flexural strengths
Coefcient of LE:hig