Summary

This document provides an overview of endodontic materials, their properties, and uses. It discusses various materials used in root canal procedures, including irrigants, lubricants, and sealants. The document also examines the importance of cleaning, shaping, and obturation in root canal treatment.

Full Transcript

**Endodontic Materials** **Introduction** - **Purpose of Endodontic Materials**: Used to obturate (fill) the root canal system when pulp tissue is destroyed due to: - Trauma - Tooth decay involving pulp infection **Objectives of Endodontics** 1. **Cleaning and Shaping**:...

**Endodontic Materials** **Introduction** - **Purpose of Endodontic Materials**: Used to obturate (fill) the root canal system when pulp tissue is destroyed due to: - Trauma - Tooth decay involving pulp infection **Objectives of Endodontics** 1. **Cleaning and Shaping**: - Prepare the root canal to within 0.5 mm of the maximum constriction near the periapex. 2. **Obturating the Canal**: - Use a combination of materials for a complete three-dimensional filling. - Materials must be inert and biocompatible. 3. **Sealing**: - Ensure an adequate seal at the coronal extent to prevent bacterial reinfection from the oral cavity. **Types of Materials Used** - **Irrigants and Lubricants**: Used during canal preparation. - **Interim Materials**: Maintains disinfection between clinical visits. - **Bulk Fill Material and Sealant**: Used for canal obturation. - **Restorative Materials**: Seals the canal access (discussed elsewhere). - **Surgical Materials**: Used in endodontic surgery and for internal repairs within the root canal system. **Endodontic Irrigants and Lubricants** **Purpose of Endodontic Irrigants** - **Flush Debris**: Remove debris from root canal preparation. - **Disinfection**: Help disinfect the canal. **Properties of an Ideal Irrigant (Walton & Torabinejad, 2002)** - **Dissolve/Disrupt Tissue**: Effective in breaking down tissue and debris. - **Non-Toxic**: Safe for use in the canal. - **Low Surface Tension**: Allows penetration into inaccessible areas. - **Lubrication**: Helps lubricate instruments within the canal. - **Sterilization/Disinfection**: Should sterilize or at least disinfect the canal system. - **Remove Smear Layer**: Effectively removes debris from canal walls. **Commonly Used Irrigants** - **Sodium Hypochlorite**: - Most effective irrigant available. - Typically used at concentrations of 2-10%. - Can be diluted from commercially available "thin bleach" (5.25% hypochlorite) by mixing 1:1 with water to create a 2.6% solution. - **Disadvantages**: - Tissue irritant, causing ulceration if ingested or extreme inflammation if extruded into surrounding bone. - Isolation with a rubber dam is recommended to prevent oral leakage. - **Chlorhexidine Gluconate** - **Concentration**: 0.2% solution. - **Alternative**: Recommended when sodium hypochlorite usage is unsafe. **Additional Lubricants** - **EDTA (Ethylene Diamine Tetra Acetic Acid)** - **Form**: Gel preparations used as custom lubricants. - **Function**: Softens canal walls and aids in negotiating mineralized canals. **Intra-canal Medicaments** **Overview** - **Controversial Use**: The benefits of intra-canal medicaments are debated, with limited evidence supporting their use unless there are specific issues like: - Difficulty in obtaining pulpal anesthesia. - Inducing root apex formation in young patients. - Arresting internal or external root resorption. **Common Intra-canal Medicaments** 1. **Paramonochlorophenol (PMCP)** - **Purpose**: Used as a disinfectant to reduce the risk of recurrent infection. - **Limitations**: - Effectiveness is short-lived due to denaturation in the presence of calcium. - Currently lacks clinical indications for routine use. 2. **Non-setting Calcium Hydroxide Paste** - **Properties**: - High pH (around 11) with potent antimicrobial action. - Mild tissue irritant. - **Uses**: - Promotes root apex closure (apexogenesis) in non-vital teeth. - Can be retained in the tooth for extended periods to facilitate apex closure or to manage root resorption. - **Rationale**: Routine use between visits is unclear. 3. **Poly-antimicrobial Paste** - **Composition**: Proprietary mixture of corticosteroid, sulphonamide, and tetracycline. - **Application**: Used for managing inflamed pulp (hot pulps) where local anesthesia is less effective due to altered tissue pH. - **Effectiveness**: Reduces pulpal inflammation, aiding access at subsequent visits. - **Duration**: Loses effectiveness after 5 to 7 days, so should not be left longer in the pulp chamber. **Endodontic Obturation Materials** **Root canal anatomy**: A complex, 3D space that needs to be cleaned, shaped, and prepared for obturation. **Contemporary canal preparation**: ○ Focuses on removing bacteria and debris, not on creating a specific geometric shape. ○ Materials used need to be **plastic during placement** to mold to the canal\'s shape. ○ Must allow easy removal for potential future treatments like post-placement or re-treatment. **Historical Materials in Endodontics** **Silver Points** - **Usage**: Silver points were historically used to obturate root canals, designed to match the taper of the files or reamers used for canal preparation. - **Technique**: - Aiming to create a smooth, tapered canal wall for the silver points to fit securely. - Points were sealed with a suitable sealant. - **Flaws**: - Root canal anatomy is often too complex for effective sealing through machining. - Silver points are prone to corrosive breakdown within the canal, compromising the seal. - **Variants**: - Silver points could fill the entire canal length or be intentionally weakened, leaving a 5--6 mm segment at the apex for potential post preparation. - **Challenges**: - Difficulty retrieving apical fragments if the procedure failed, complicating retreatment efforts. **Dental Amalgam** - **Usage**: Conventional dental amalgam was used as a root filling material with specialized carriers and pluggers for delivery and condensation at the apex. - **Limitations**: - The mercury-rich layer could not be removed from the filling surface, raising concerns about safety. - Like silver points, this method was not suitable for retreatment and presented technical challenges. - **Sealants in Endodontics** - **Purpose of Sealants** - **Function**: Sealants fill spaces between increments of bulk fill material and improve adaptation to root canal walls, maintaining the seal around root fillings. - **Ideal Properties of Sealants (Grossman et al.)** - **Tissue Tolerance**: Safe for surrounding tissues. - **Insolubility**: Should not dissolve in tissue fluids. - **Dimensional Stability**: Maintain shape during setting. - **Hermetic Sealing**: Provide an airtight seal. - **Radiopacity**: Visible on radiographs. - **Bacteriostatic/Bacteriocidal**: Inhibit or kill bacteria. - **Good Adhesion**: Bond well to canal walls when set. - **Ease of Mixing**: Simple to prepare. - **Non-staining**: Should not discolor surrounding tissue. - **Slow Setting Time**: Extended time for precise application. - **Easily Removable**: Should be soluble for easy removal if necessary. - **Types of Sealants** - **Form**: Typically thin pastes that can coat bulk fill materials and be introduced into the canal. - **Common Sealants** - **Glass Ionomer** - Good seal to tooth structure but sets too rapidly for clinical use. - **Zinc Oxide and Eugenol** - Widely used, exemplified by Grossman's formulation: - **Characteristics**: Long setting time (up to 2 months), good peripheral seal, retrievable filling. - **Calcium Hydroxide-Based Products** - Provide a good short-term seal but may have long-term solubility issues. - **Epoxy Resin-Based Sealant** - **Benefits**: Good seal, antimicrobial action. - **Drawbacks**: Associated with dentine staining because it contain 10% silver and formaldehyde release which is tissue toxic. - **Resin and Dentine Bonding Agents** - Used with polyester bulk fill materials. - **Mechanism**: Chemically setting composite resin luting agents bonded to both root dentine and bulk fill material. **Bulk Filling Materials in Endodontics** **Purpose** - **Function**: Bulk filling materials are used to fill the large defects in prepared root canals, providing an inert mass that is malleable during insertion and dimensionally stable after placement. **Commonly Used Materials** 1. **Gutta Percha** - **Description**: The most widely used bulk filling material. - **Source**: Derived from latex as trans-polyisoprene. - **Forms**: - **α Form**: Natural state, used in thermoplastic techniques. - **β Form**: Produced by slow cooling of α material, used in cold packing techniques. - **Composition**: - Trans-polyisoprene , zinc oxide , additional components: coloring agents, resins, waxes, antioxidants, and metallic salts for improved radiographic visibility. - **Presentation**: Available as tapered cones (matched or unmatched to instruments) or as pellets for use in gun-type delivery systems. 2. **Polyester Resin** - **Example**: Resilon®. - **Composition**: Thermoplastic synthetic polyester, barium sulfate, bismuth chlorate, and bioactive glass. - **Bioactive Properties**: Claims to release calcium and phosphate ions upon exposure to bodily fluids, potentially stimulating bone growth. - **Forms**: Available in both tapered and pelleted forms, suitable for cold or thermoplastic filling techniques. **Materials for Root Canal Repair and Peri-radicular Surgery** **Overview** A variety of materials have historically been used for root canal repair and peri-radicular surgery, including: - Dental amalgam - Zinc oxide and modified zinc oxide pastes - Glass ionomer cements **Ideal Material: Mineral Trioxide Aggregate (MTA)** - **Composition**: - Tricalcium silicate - Dicalcium silicate - Tricalcium aluminate - Tetracalcium alumino-ferrite - Calcium sulfate - Bismuth oxide (increases radiopacity and modifies setting reaction) - **Properties**: - Chemically similar to Portland cement, with the addition of bismuth oxide. - Strongly alkaline and sets upon exposure to water. - **Setting Reaction**: - **Initial Phase**: Hydration of particle surfaces, partial dissolution of calcium sulfate. - **Crystal (ettringite) Formation**: Formation of hydrated calcium aluminum sulfate hydroxide (ettringite) from tricalcium aluminate interaction. - **Plastic/Delay Phase**: Material remains workable, allowing for insertion into defects. - **Final Setting**: Growth of calcium silicate hydrate crystals and ettringite, forming a rigid mass. - **Moisture Requirement**: Continues to require moisture for complete setting and can take several hours to reach maturity. - **Expansion**: MTA exhibits significant expansion during setting, which can improve sealing but may risk root fracture if excessive. **Biocompatibility and Applications** - **Biocompatibility**: Evidence suggests it can induce cementogenesis, making it useful in apexification procedures for immature teeth. - **Sealing Ability**: Provides a good seal at the root-material interface. - **Antimicrobial Properties**: Its alkalinity contributes to its antimicrobial effects.

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