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