Prosthetic III. Fixed dentures Fixed dentures Restore the form (and function) Cemented on (in the ) prepared teeth Can not be removed Fixed dentures Inlays /onlays Crowns Bridges Inlay Onlay Overlay Partial crown Crown Korunka Root canal inlay Root post Stump, snag Crown Root canal filling Root Fixed bridge Replacement one or more teeth Crowns Restore the shape of a damaged tooth Most frequently - Replace the lost part of a tooth (caries, fracture) - Protect before damage - Anchoring of a bridge Indications 1. Badly broken down tooth (previously restored, secondary caries, loss of vitality) 2. Fracture (large) 3. Tooth wear- erosion (chemical) - attrition (mechanical) - abrasion (patological) - diseases of the hard dental tissues 4. Changes in position of teeth Types of crowns Full crowns One material (metal alloy, resin, ceramics) resin and ceramics - jacket crowns Facet crowns Combination of materials Metal alloy –resin Metal alloy – ceramics Partially / full covered Crown Korunka Retention of rigid fillings Whitstand capability against axial forces: Geometry of the preparation (facilitating shape) Quality of the luting material Outer or inner conus Retentiong/mm2 Angle of the convergence Rau G. 1994 Retaining areal Surface of contact Rigid filling Inlay or crown (internal, outer, combined) Full crown The crown The tooth Full crown Posterior teeth Facet crown Tooth Metal allo Facet made of resin or composit Facet crown Anterior teeth Facet made of ceramics Metalceramic The crown The tooth The metal alloy Metalceramic Posterior teeth Anterior teeth Jacket crown Tooth Resin, ceramics Crown Korunka Retention of rigid fillings Whitstand capability against axial forces: Geometry of the preparation (facilitating shape) Quality of the luting material Outer or inner conus Retentiong/mm2 Angle of the convergence Rau G. 1994 Retaining areal Surface of contact Rigid filling Inlay or crown (internal, outer, combined) Basic rules for the crown preparation Reduction of the hard dental tissues – space for the arteficial material (restore the form as well as the function – strong enough) Conical form (5° - 7 ° optimal, max 15°), no undercuts!!!! No sharpe edges!!! Basic rules for the crown preparation Cervical border – shoulder must be clear, it can. The location is: - Supragingival - Subgingival - Gingival Full metal crown Occlusal reduction: 1,5 mm, following the anatomical form Reduction vestibular and oral – 0,5 mm (max 1 mm) Shoulderless Combined crown – facet crown Metal construction + facet (made of acrylic or composit) Incisal or occlusal reduction 1,5 mm Vestibular reduction 1,5 mm Oral reduction 0,5 mm Round shoulder (vestib appr. 1 – 1,5 mm, oral 0,5 – 1 mm) Combined crown - metalceramic Occlusal (incisal reduction) – 2 mm Vestibular and oral reduction and other 1,5 mm Round shoulder Jacket crown – ceramic, composit, acrylic Occlusal (incisal reduction) – 2 mm Vestibular and oral reduction and other 1,5 mm Sharp rectangle shoulder Replacement of missing teeth Bridges Fixed Removable Implants Bridges Abutments (crowns on abutment teeth) Pontic Various size: 3 members bridges, 4 members bridges, 5 members… etc The member: abutment or pontic. Bridges Abutments are Full metal crown Facet crown Metalceramic crown The axis must be parallel Bridges Pontic Full metal Facet Metalceramic Self cleaning bridge (sanitary bridge) Contact pontic Reduction - the area that is in contact with gingiva 1/3 of the occlusal size. Occlusal reduction depends og the magnitude from 10 – 30% reduction. Preparation Preparation grooves Occlusal reduction Vestibular reduction Oral reduction Proximal reduction Finishing and polishing Preparation The long axis of each abutment tooth must be parallel. If not the cementation would not ne possible. Manufacturing procedure 1.st phase in dental ofice Taking impression – elastomers Antagonal impression )alginate Occlusal impresion – bite registration (intermaxillary relationship) Provisional treatment Manufacturing procedure 1.st phase in dental lab Plaster model– the dental arch is made of ultrahard gypsum, the base of a stone. The model is divided after application of guide pins The antagonal model of stone Mounting to the articulator (simulator) Manufacturing procedure 1.st phase in dental lab The wax pattern of the metal framework is manifactured Casted (the method of lost wax) Adapted on the model Manufacturing procedure 2.nd phase in dental ofice The framework is tried out The colour of veneering material is choosen Manufacturing procedure 2.nd phase in dental lab The veneering material is applied on the framework and polymerized ot burnt (ceramics). Manufacturing procedure 3.rd phase in dental ofice The denture is tried out Cemented (zinkoxidphosphate cement, glasionomer or composite) Temporary prosthetic treatment Protection of prepared teeth – dentin wound Keeps the abutment teeth in their position Other reasons - Correction of the intermaxillary relations - Aesthetics - Disorders of TMJ Material Acrylic resin – dental lab Special resins for direct fabrication in oral cavity Sequence of operations I.st phase in dental office Taking the imppression using the alginate impression material ( both dental arches) Intermaxillary relations - wax I.st phase in dental lab - Pouring the impressions - Plaster /mix of plaster and stone - Modellation of the temporary of the wax (pink modellation wax) - Putting of the wax pattern into the flask - Replacement the wax with resin dought - Polymerization II.nd phase in dental office Cementation using the temporary cement Direct fabrication of the temporary crown or bridge Impression before the preparation Preparation Mixing of the special resin Filling of the impression Application os prepared teetrh – the temporary is being formed Finishing and polishing Cementation using the temporary cement