restorative and esthetic dental materials
DESCRIPTION
Restorative and esthetic dental materialsTRANSCRIPT
Copyright 2003, Elsevier Science (USA). All rights reserved.
Chapter 43Restorative and Esthetic
Dental Materials
Chapter 43Restorative and Esthetic
Dental Materials
Copyright 2003, Elsevier Science (USA).
All rights reserved. No part of this product may be reproduced or transmitted in any form or by any means, electronic or mechanical, including input into or storage in any information system, without permission in writing from the publisher.
PowerPoint® presentation slides may be displayed and may be reproduced in print form for instructional purposes only, provided a proper copyright notice appears on the last page of each print-out.
Produced in the United States of America
ISBN 0-7216-9770-4
Copyright 2003, Elsevier Science (USA). All rights reserved.
IntroductionIntroductionRestorative dental materials fulfill an important role in the way dentistry is delivered today.
Restorative dental materials fulfill an important role in the way dentistry is delivered today.
Copyright 2003, Elsevier Science (USA). All rights reserved.
ADA: criteria for a new material• Must not be poisonous or harmful to the
body.• Must not be harmful or irritating to the
tissues of the oral cavity. • Must help protect the tooth and oral
tissues of the oral cavity. • Must resemble the natural dentition. • Must be easily formed and placed in the
mouth.
ADA: criteria for a new material• Must not be poisonous or harmful to the
body.• Must not be harmful or irritating to the
tissues of the oral cavity. • Must help protect the tooth and oral
tissues of the oral cavity. • Must resemble the natural dentition. • Must be easily formed and placed in the
mouth.
Standardization of Dental MaterialsStandardization of Dental Materials
Copyright 2003, Elsevier Science (USA). All rights reserved.
Mechanical properties must withstand the biting and chewing force in the posterior area of the mouth.
Force is any push or pull on matter. Stress is the reaction within the
material that can cause distortion. Strain is the change produced within
the material that occurs as the result of stress.
Mechanical properties must withstand the biting and chewing force in the posterior area of the mouth.
Force is any push or pull on matter. Stress is the reaction within the
material that can cause distortion. Strain is the change produced within
the material that occurs as the result of stress.
Properties of Dental MaterialsProperties of Dental Materials
Copyright 2003, Elsevier Science (USA). All rights reserved.
Types of stress and strain:• Tensile stress pulls and stretches
the material.• Compressive stress pushes the
material together.• Shear stress is the breakdown of the
material.
Types of stress and strain:• Tensile stress pulls and stretches
the material.• Compressive stress pushes the
material together.• Shear stress is the breakdown of the
material.
Mechanical PropertiesMechanical Properties
Copyright 2003, Elsevier Science (USA). All rights reserved.
A change in temperature in the oral cavity due to either a hot or cold product.
Contraction and expansion • Dental materials will contract or
expand at their own rate. • Change in temperature can cause a
dental material to pull away from the tooth.
• Microleakage• Faulty restoration
A change in temperature in the oral cavity due to either a hot or cold product.
Contraction and expansion • Dental materials will contract or
expand at their own rate. • Change in temperature can cause a
dental material to pull away from the tooth.
• Microleakage• Faulty restoration
Thermal ChangesThermal Changes
Copyright 2003, Elsevier Science (USA). All rights reserved.
An electrical current, or galvanic action, is created when two different or dissimilar metals are present in the oral cavity.
Conditions:• Saliva. • Two metallic components of different
composition. • Electrical current. • Galvanic action, or shock, is the coming
together of all conditions.
An electrical current, or galvanic action, is created when two different or dissimilar metals are present in the oral cavity.
Conditions:• Saliva. • Two metallic components of different
composition. • Electrical current. • Galvanic action, or shock, is the coming
together of all conditions.
Electrical PropertiesElectrical Properties
Copyright 2003, Elsevier Science (USA). All rights reserved.
Reaction a metal has when it comes into contact with corrosive products.
Solubility is the degree to which a substance will dissolve in a given amount of another substance.
Reaction a metal has when it comes into contact with corrosive products.
Solubility is the degree to which a substance will dissolve in a given amount of another substance.
Corrosive PropertiesCorrosive Properties
Copyright 2003, Elsevier Science (USA). All rights reserved.
Flow:• The dental material must be pliable
enough to be placed in the preparation. Adhesion:
• The force that causes unlike materials to adhere to each other.
Wetting is the ability of a liquid to flow over the surface.
Viscosity is the property of a liquid that causes it not to flow easily.
Flow:• The dental material must be pliable
enough to be placed in the preparation. Adhesion:
• The force that causes unlike materials to adhere to each other.
Wetting is the ability of a liquid to flow over the surface.
Viscosity is the property of a liquid that causes it not to flow easily.
Application Properties Application Properties
Copyright 2003, Elsevier Science (USA). All rights reserved.
Surface characteristics is where a liquid flows more easily on a rough surface than on a very smooth surface.
Film thickness: In general, the thinner the film, the stronger the adhesive junction.
Retention is the ability to hold two things firmly together when they will not adhere to each other.
Curing• Auto-cured material hardens as the result of
a chemical reaction of the materials.• Light-cured material does not harden until it
has been exposed to a curing light.
Surface characteristics is where a liquid flows more easily on a rough surface than on a very smooth surface.
Film thickness: In general, the thinner the film, the stronger the adhesive junction.
Retention is the ability to hold two things firmly together when they will not adhere to each other.
Curing• Auto-cured material hardens as the result of
a chemical reaction of the materials.• Light-cured material does not harden until it
has been exposed to a curing light.
Application Propertiescont’d Application Propertiescont’d
Copyright 2003, Elsevier Science (USA). All rights reserved.
Restorative: To replace or bring something back to its natural appearance and function.
Esthetic: To replace or bring something back to its pleasing appearance.
Restorative: To replace or bring something back to its natural appearance and function.
Esthetic: To replace or bring something back to its pleasing appearance.
Restorative and Esthetic MaterialsRestorative and Esthetic Materials
Copyright 2003, Elsevier Science (USA). All rights reserved.
Restorative materials that are applied to the tooth while the material is pliable and able to carve and finish.• Amalgam• Composite resins• Glass ionomer• Intermediate restorative materials• Tooth-whitening products
Restorative materials that are applied to the tooth while the material is pliable and able to carve and finish.• Amalgam• Composite resins• Glass ionomer• Intermediate restorative materials• Tooth-whitening products
Direct Restorations Direct Restorations
Copyright 2003, Elsevier Science (USA). All rights reserved.
Amalgam is a safe, affordable, and durable material that is used predominantly to restore premolars and molars (Figure 43-8).
Amalgam is a safe, affordable, and durable material that is used predominantly to restore premolars and molars (Figure 43-8).
AmalgamAmalgam
Copyright 2003, Elsevier Science (USA). All rights reserved.
Fig. 43-8 Packing an amalgam carrier. Fig. 43-8 Packing an amalgam carrier.
Copyright 2003, Elsevier Science (USA). All rights reserved.
In individuals of all ages. In stress-bearing areas of the mouth. When there is severe destruction of tooth
structure. As a foundation. When personal oral hygiene is poor. When moisture control is problematic. When cost is an overriding patient
concern.
In individuals of all ages. In stress-bearing areas of the mouth. When there is severe destruction of tooth
structure. As a foundation. When personal oral hygiene is poor. When moisture control is problematic. When cost is an overriding patient
concern.
Indications for Using Amalgam Indications for Using Amalgam
Copyright 2003, Elsevier Science (USA). All rights reserved.
Indications for Not Using AmalgamIndications for Not Using Amalgam Esthetics is important. Patient has a history of allergy to
mercury or other amalgam components. The cost of other restorative materials or
treatment options is not a factor.
Esthetics is important. Patient has a history of allergy to
mercury or other amalgam components. The cost of other restorative materials or
treatment options is not a factor.
Copyright 2003, Elsevier Science (USA). All rights reserved.
Mercury (43% to 54%) Alloy powder (57% to 46%)
• Silver, which gives it its strength.• Tin for its workability and strength.• Copper for its strength and corrosion
resistance.• Zinc to suppress oxidation.
Mercury (43% to 54%) Alloy powder (57% to 46%)
• Silver, which gives it its strength.• Tin for its workability and strength.• Copper for its strength and corrosion
resistance.• Zinc to suppress oxidation.
Chemical Makeup of AmalgamChemical Makeup of Amalgam
Copyright 2003, Elsevier Science (USA). All rights reserved.
Harm to patients: Essentially harmless. The exception is with patients who have
many amalgam restorations, or a high sensitivity to metals.
Harm to Dental Personnel: Health concerns with high exposure to mercury, not amalgam.• Tremors• Kidney dysfunction • Depression• Nervous system disorders
Harm to patients: Essentially harmless. The exception is with patients who have
many amalgam restorations, or a high sensitivity to metals.
Harm to Dental Personnel: Health concerns with high exposure to mercury, not amalgam.• Tremors• Kidney dysfunction • Depression• Nervous system disorders
Issues Concerning Amalgam Issues Concerning Amalgam
Copyright 2003, Elsevier Science (USA). All rights reserved.
Do not contact mercury with your skin. Protect against spillage during trituration. Keep lid closed during trituration. Do not discard scrap amalgam into waste
containers. Collect all scrap amalgam and store under
water or photographic fixer solutions in a closed container.
Do not contact mercury with your skin. Protect against spillage during trituration. Keep lid closed during trituration. Do not discard scrap amalgam into waste
containers. Collect all scrap amalgam and store under
water or photographic fixer solutions in a closed container.
Amalgam Hygiene Amalgam Hygiene
Copyright 2003, Elsevier Science (USA). All rights reserved.
Capsules (600 mg of alloy): For small or single‑surface restorations.
Capsules (800 mg of alloy): For larger restorations.
Trituration: The process by which the mercury and alloy are mixed together to form the mass of amalgam.
Capsules (600 mg of alloy): For small or single‑surface restorations.
Capsules (800 mg of alloy): For larger restorations.
Trituration: The process by which the mercury and alloy are mixed together to form the mass of amalgam.
Preparation of Amalgam Preparation of Amalgam
Copyright 2003, Elsevier Science (USA). All rights reserved.
1. Mixed amalgam placed in amalgam well.2. Amalgam carried to the prepared tooth. 3. Amalgam placed in increments in the
prepared tooth.4. Each increment is condensed immediately.5. Carvers are used to carve anatomy into the
amalgam.6. A burnisher is used to smooth the
amalgam.7. The new restorations occlusion is checked.
1. Mixed amalgam placed in amalgam well.2. Amalgam carried to the prepared tooth. 3. Amalgam placed in increments in the
prepared tooth.4. Each increment is condensed immediately.5. Carvers are used to carve anatomy into the
amalgam.6. A burnisher is used to smooth the
amalgam.7. The new restorations occlusion is checked.
Direct Application of AmalgamDirect Application of Amalgam
Copyright 2003, Elsevier Science (USA). All rights reserved.
Becoming the most widely accepted material of choice by dentists and patients because of their esthetic qualities and new advances in their strength (Figure 43-13).
Becoming the most widely accepted material of choice by dentists and patients because of their esthetic qualities and new advances in their strength (Figure 43-13).
Composite ResinsComposite Resins
Copyright 2003, Elsevier Science (USA). All rights reserved.
Fig. 43-13 Resins supplied in a syringe.Fig. 43-13 Resins supplied in a syringe.
Copyright 2003, Elsevier Science (USA). All rights reserved.
Withstand the environments of the oral cavity.
Be easily shaped to the anatomy of a tooth.
Match the natural tooth color. Be bonded directly to the tooth surface.
Withstand the environments of the oral cavity.
Be easily shaped to the anatomy of a tooth.
Match the natural tooth color. Be bonded directly to the tooth surface.
Indications for Using Composite ResinsIndications for Using Composite Resins
Copyright 2003, Elsevier Science (USA). All rights reserved.
Resin matrix • Dimethacrylate, referred to as BIS‑GMA
• Monomer used to make synthetic resins
• Polymerization additives • Allow the material to take form
through a chemical process• Initiator• Accelerator• Retarder• Ultraviolet (UV) stabilizers
Resin matrix • Dimethacrylate, referred to as BIS‑GMA
• Monomer used to make synthetic resins
• Polymerization additives • Allow the material to take form
through a chemical process• Initiator• Accelerator• Retarder• Ultraviolet (UV) stabilizers
Chemical Makeup of Composite ResinsChemical Makeup of Composite Resins
Copyright 2003, Elsevier Science (USA). All rights reserved.
Fillers Add the strength and characteristics necessary for use as a restorative material.
Inorganic fillers• Quartz • Glass• Silica• Colorants
Fillers Add the strength and characteristics necessary for use as a restorative material.
Inorganic fillers• Quartz • Glass• Silica• Colorants
Chemical Makeup of Composite Resinscont’dChemical Makeup of Composite Resinscont’d
Copyright 2003, Elsevier Science (USA). All rights reserved.
A coupling agent strengthens the resin by chemically bonding the filler to the resin matrix.• Organosilane compound
A coupling agent strengthens the resin by chemically bonding the filler to the resin matrix.• Organosilane compound
Chemical Makeup of Composite Resinscont’dChemical Makeup of Composite Resinscont’d
Copyright 2003, Elsevier Science (USA). All rights reserved.
Types of CompositesTypes of Composites Macrofilled composites contain the
largest of filler particles, providing greater strength but a duller, rougher surface.
Microfilled composites: The inorganic filler is much smaller and is capable of producing a highly polishee, finished restoration, which is used primarily in anterior restoration.
Hybrid composites contain both macrofill and microfill particles.
Macrofilled composites contain the largest of filler particles, providing greater strength but a duller, rougher surface.
Microfilled composites: The inorganic filler is much smaller and is capable of producing a highly polishee, finished restoration, which is used primarily in anterior restoration.
Hybrid composites contain both macrofill and microfill particles.
Copyright 2003, Elsevier Science (USA). All rights reserved.
The process in which the resin material is changed from a plastic state into a hardened restoration.
The process in which the resin material is changed from a plastic state into a hardened restoration.
Polymerization of Composite ResinsPolymerization of Composite Resins
• Auto-Cured• Light-Cured
• Auto-Cured• Light-Cured
Copyright 2003, Elsevier Science (USA). All rights reserved.
1. Select the shade of the tooth. 2. Express the needed amount of material
onto the treated pad or in the light-protected well.
3. Material placed in increments.4. Material is light-cured.5. Material is finished and polished.
1. Select the shade of the tooth. 2. Express the needed amount of material
onto the treated pad or in the light-protected well.
3. Material placed in increments.4. Material is light-cured.5. Material is finished and polished.
Direct Application of Composite ResinsDirect Application of Composite Resins
Copyright 2003, Elsevier Science (USA). All rights reserved.
1. Reduction of the material is completed by the use of a white stone or a finishing diamond.
2. Fine finishing is completed with carbide finishing burs and diamond burs.
3. Polish with medium discs and finish with the superfine discs.
4. Finishing strips assist in the polishing of the interproximal surfaces.
5. Use polishing paste with a rubber cup.
1. Reduction of the material is completed by the use of a white stone or a finishing diamond.
2. Fine finishing is completed with carbide finishing burs and diamond burs.
3. Polish with medium discs and finish with the superfine discs.
4. Finishing strips assist in the polishing of the interproximal surfaces.
5. Use polishing paste with a rubber cup.
Steps in Finishing a Composite RestorationSteps in Finishing a Composite Restoration
Copyright 2003, Elsevier Science (USA). All rights reserved.
Glass ionomer is a versatile material with chemical properties allowing it to be a restorative material, liner, bonding agent, and permanent cement.
Glass ionomer is a versatile material with chemical properties allowing it to be a restorative material, liner, bonding agent, and permanent cement.
Glass Ionomer Materials Glass Ionomer Materials
Copyright 2003, Elsevier Science (USA). All rights reserved.
Primary teeth. Final restorations in non-stress areas. Intermediate restorations. Core material for a buildups. Long-term temporary restorations.
Primary teeth. Final restorations in non-stress areas. Intermediate restorations. Core material for a buildups. Long-term temporary restorations.
Indications for Using Glass IonomersIndications for Using Glass Ionomers
Copyright 2003, Elsevier Science (USA). All rights reserved.
The ability to chemically bind to the teeth.
No need to prepare the tooth structure as extensively as for preparing for an amalgam or composite resin.
The release of fluoride after its final setting.
The ability to chemically bind to the teeth.
No need to prepare the tooth structure as extensively as for preparing for an amalgam or composite resin.
The release of fluoride after its final setting.
Qualities of Glass IonomersQualities of Glass Ionomers
Copyright 2003, Elsevier Science (USA). All rights reserved.
Glass Ionomer Glass
• Ceramic particles• Glassy matrix
Acrylic acid Tartaric acid Maleic acid Metal-reinforced glass ionomer
• Silver-tin alloy + Glass ionomer
Glass Ionomer Glass
• Ceramic particles• Glassy matrix
Acrylic acid Tartaric acid Maleic acid Metal-reinforced glass ionomer
• Silver-tin alloy + Glass ionomer
Properties of Glass Ionomers Properties of Glass Ionomers
Copyright 2003, Elsevier Science (USA). All rights reserved.
Powder and Liquid: Manually mixed together on a treated paper pad.
Light-Protected Tubes: Dispensed onto a treated paper pad.
Paste/Paste System: Mixed for application.
Premeasured Capsule: Triturated for application.
Powder and Liquid: Manually mixed together on a treated paper pad.
Light-Protected Tubes: Dispensed onto a treated paper pad.
Paste/Paste System: Mixed for application.
Premeasured Capsule: Triturated for application.
Supply of Glass IonomersSupply of Glass Ionomers
Copyright 2003, Elsevier Science (USA). All rights reserved.
Designed to maintain or restore function to a tooth or teeth and keep the patient comfortable for a period of time.
Designed to maintain or restore function to a tooth or teeth and keep the patient comfortable for a period of time.
Temporary Restorative MaterialsTemporary Restorative Materials
Copyright 2003, Elsevier Science (USA). All rights reserved.
Reduce sensitivity and discomfort of a tooth to determine its diagnosis.
Maintain the function and esthetics of a tooth until a permanent restoration can be placed.
Protect the margins of a prepared tooth that will receive a permanent casting at a later time.
Prevent shifting of the adjacent or opposing teeth because of open space.
Reduce sensitivity and discomfort of a tooth to determine its diagnosis.
Maintain the function and esthetics of a tooth until a permanent restoration can be placed.
Protect the margins of a prepared tooth that will receive a permanent casting at a later time.
Prevent shifting of the adjacent or opposing teeth because of open space.
Indications for Using a Temporary Restorative MaterialIndications for Using a Temporary Restorative Material
Copyright 2003, Elsevier Science (USA). All rights reserved.
Composition:• Zinc-Oxide gives strength and
durability.• Eugenol has a sedative effect.
Composition:• Zinc-Oxide gives strength and
durability.• Eugenol has a sedative effect.
Intermediate Restorative Materials (IRM)Intermediate Restorative Materials (IRM)
Copyright 2003, Elsevier Science (USA). All rights reserved.
Restoration of primary teeth Restorative emergencies Caries management program Supply of IRM
• Powder/liquid• Premeasured capsules
Restoration of primary teeth Restorative emergencies Caries management program Supply of IRM
• Powder/liquid• Premeasured capsules
Indications for Using IRM Indications for Using IRM
Copyright 2003, Elsevier Science (USA). All rights reserved.
Restorative material that covers the major portion, if not the entire clinical portion of a tooth or several teeth for a period of time.
Restorative material that covers the major portion, if not the entire clinical portion of a tooth or several teeth for a period of time.
Provisional Restorative MaterialsProvisional Restorative Materials
Copyright 2003, Elsevier Science (USA). All rights reserved.
Auto-cured acrylic (methylmethacrylate) Light-cured resin Process of application
• Material is placed in either an alginate impression or a vacuum-formed tray.
• Material is seated over the prepared tooth and allowed to cure.
• Occlusion is adjusted.• Material is cemented in place with
temporary cement.
Auto-cured acrylic (methylmethacrylate) Light-cured resin Process of application
• Material is placed in either an alginate impression or a vacuum-formed tray.
• Material is seated over the prepared tooth and allowed to cure.
• Occlusion is adjusted.• Material is cemented in place with
temporary cement.
Types of Materials UsedTypes of Materials Used
Copyright 2003, Elsevier Science (USA). All rights reserved.
The process of applying a material on anterior teeth for a prescribed period of time to whiten the color of one’s teeth.
The process of applying a material on anterior teeth for a prescribed period of time to whiten the color of one’s teeth.
Tooth Whitening MaterialsTooth Whitening Materials
Copyright 2003, Elsevier Science (USA). All rights reserved.
Teeth discolored Aging Consumption of staining substances Trauma Tetracycline staining Excessive fluoride Nerve degeneration Old restorations
Teeth discolored Aging Consumption of staining substances Trauma Tetracycline staining Excessive fluoride Nerve degeneration Old restorations
Indications for Using Tooth-WhiteningProducts Indications for Using Tooth-WhiteningProducts
Copyright 2003, Elsevier Science (USA). All rights reserved.
Carbamide Peroxide: When the carbamide peroxide breaks down, oxygen enters the enamel and dentin and bleaches the colored substances.
Concentrations: 10%, 16%, 22%
Carbamide Peroxide: When the carbamide peroxide breaks down, oxygen enters the enamel and dentin and bleaches the colored substances.
Concentrations: 10%, 16%, 22%
Tooth-Whitening ProductsTooth-Whitening Products
Copyright 2003, Elsevier Science (USA). All rights reserved.
Types of dental restorations that dental laboratory technicians create in the dental laboratory.
These restorations are also referred to as castings, cannot be reshaped, and are carved once they are in this stage.
Types of dental restorations that dental laboratory technicians create in the dental laboratory.
These restorations are also referred to as castings, cannot be reshaped, and are carved once they are in this stage.
Indirect RestorationsIndirect Restorations
Copyright 2003, Elsevier Science (USA). All rights reserved.
By combining gold with other metals to form an alloy, it creates the characteristics and hardness required as an excellent choice for an indirect restoration.• Gold• Palladium• Platinum
By combining gold with other metals to form an alloy, it creates the characteristics and hardness required as an excellent choice for an indirect restoration.• Gold• Palladium• Platinum
Gold AlloysGold Alloys
Copyright 2003, Elsevier Science (USA). All rights reserved.
Soft, Type I alloys are used for casting inlays subject to slight stress during mastication.
Medium, Type II alloys can be used for practically all types of cast inlays and possibly posterior bridge abutments.
Hard, Type III alloys are acceptable for inlays, full crowns, three‑quarter crowns, and anterior or posterior bridge abutments.
Extra-hard, Type IV alloys are designed for cast-removable partial dentures.
Soft, Type I alloys are used for casting inlays subject to slight stress during mastication.
Medium, Type II alloys can be used for practically all types of cast inlays and possibly posterior bridge abutments.
Hard, Type III alloys are acceptable for inlays, full crowns, three‑quarter crowns, and anterior or posterior bridge abutments.
Extra-hard, Type IV alloys are designed for cast-removable partial dentures.
Types of Casting AlloysTypes of Casting Alloys
Copyright 2003, Elsevier Science (USA). All rights reserved.
Ceramics are compounds that involve a combination of metallic and nonmetallic elements, creating strength and aesthetics.
Ceramics are compounds that involve a combination of metallic and nonmetallic elements, creating strength and aesthetics.
CeramicsCeramics
Copyright 2003, Elsevier Science (USA). All rights reserved.
Porcelain fused to metal (PFM) Porcelain bonded to metal (PBM) Ceramco-metal restorations Porcelain-metal restorations (P-M)
Porcelain fused to metal (PFM) Porcelain bonded to metal (PBM) Ceramco-metal restorations Porcelain-metal restorations (P-M)
Types of Ceramic RestorationsTypes of Ceramic Restorations
Copyright 2003, Elsevier Science (USA). All rights reserved.
Type of ceramic that is most commonly used in dentistry. It combines strength, translucence and the ability to match the natural tooth color.
Type of ceramic that is most commonly used in dentistry. It combines strength, translucence and the ability to match the natural tooth color.
PorcelainPorcelain
Copyright 2003, Elsevier Science (USA). All rights reserved.
The shading of colors matches the tooth color well.
It esthetically improves the appearance of anterior teeth.
It has the strength of metal. The material is a good insulator. The material has a low coefficient of
thermal expansion.
The shading of colors matches the tooth color well.
It esthetically improves the appearance of anterior teeth.
It has the strength of metal. The material is a good insulator. The material has a low coefficient of
thermal expansion.
Indications for Using PorcelainIndications for Using Porcelain