Introduction105Replacement of lost coronal tooth structure105Choice of - PDF document

Introduction105Replacement of lost coronal tooth structure105Choice of core material106Dental amalgam107Resin composite107Glass ionomer cements107Resin ionomers and compomers108Preoperative assessment108Restorability of tooth108Pulpal/endodontic status109Periodontal/occlusal assessment109Pin retention for core foundations109Foundation restorations for endodontically treated teeth110Crowns112Preoperative planning112Choice of material for indirect restorations113Gold113Porcelain (ceramic)114Indirect composite114Metal ceramic115Tooth preparation guidelines for indirect restorations115Features of preparations for indirect restorations115Types of Þnish margins116Preparation stages116Indirect adhesive restorations116Tooth-coloured inlays116The dentine-bonded crown118Porcelain laminate veneers119Indications120Contraindications120Design considerations121Tooth preparation121Impression123Temporary cover123Laboratory aspects123Try-in124Cementation124Finishing124Review and maintenance125 Summary125Traditionally,more extensive restorations on teeth wereperformed using non-adhesive techniques.The materialsof choice were gold,porcelain and metallic ceramics.Thesewere placed either intra- or extracoronally and relied onthe preparation having near-parallel walls,assisted by aluting cement to Þll the marginal gap and help with theretention process.With the development of new materialsand techniques for bonding to the tooth,there has been ablurring of the methods used and often restorations rely ona multitude of factors for retention which incorporate both mechanical and adhesive principles.Indirect restorations are frequently placed on teeth whichhave lost substantial amounts of tooth structure.Retentionand resistance form are lost as the height of the toothpreparation is reduced in relation to the intended occlusalsurface position of the Þnal restoration.A foundation orcore build-up restoration may be required to supplementretention and resistance form.The strength required of afoundation restoration will vary,depending on the locationof the tooth in the dental arch,as well as on the design ofthe surrounding tooth preparation.Apart from acting as atransitional restoration in the management of a damagedtooth,a core build-up restoration must withstand crownpreparation and impression-taking and contribute to the 105Restoration of teeth(complex restorations) 10 retention and support of a provisional crown before thedeÞnitive crown restoration is placed (Fig.10.1).the core build-up,the strength of the foundation restora-directly inßuence the survival of the restoration.Somecore materials lack sufÞcient strength and/or adhesion totooth tissues to serve this function.Posterior teeth areexposed to greater forces than are anterior teeth and thedirection of load differs.Teeth that have to serve as abut-ments for Þxed or removable prostheses are subject toincreased stress.Almost one-quarter of all posterior crowns were pro-vided with a pin or post retained core.The restoration ofseverely broken down teeth is an increasing problem forthe restorative dentist,as more patients retain their naturalteeth into older age.Clinical studies demonstrate anrestorations compared with sound or minimally restoredWhilst advances in adhesive restorative materials andtechniques may result in more predictable retention ofrestorations with compromised retention,the success ofthese techniques is still to be conÞrmed by clinical trials.Such techniques may be operator-sensitive as the successof an indirect restoration depends on the ability of thecement or resin lute to prevent dislodgement of therestoration from the tooth preparation;the latter mustpossess adequate retention and resistance form.Whilstresistance form is considered more critical than retention form,it is impossible to separate these two features.Retention will prevent dislodgement of the restorationalong a direction parallel to its path of insertion,whilstresistance prevents dislodgement in any other direction.Minimal taper and maximum preparation height are criti-cal features for good retention.The Þt of the restoration,any surface treatments which facilitate adhesion,and thenature of the cement lute are also important variables.Ifadequate retention and resistance form can be developedfrom natural tooth structure,the strength of any core orfoundation restoration is less critical and minor depres-sions or undercuts in the tooth preparation can be restoredwith adhesive restorative materials.CHOICE OF CORE MATERIALClinically,there are times when the remaining tooth struc-ture is so reduced that the margins of the crown must beplaced at or just below the core.It is under these con-ditions that the choice of core material may be critical.Core build-up materials for direct placement include:resin compositereinforced glass ionomer cementsresin-modiÞed glass ionomers/compomers (polyacid-modiÞed resin composites)Gold alloys and ceramics have been used as indirectcore build-up materials.Each candidate core material hasadvantages and disadvantages. Fig.10.1Core build-up of lost coronal tooth structure. Short setting time to allow tooth preparation and coreLow cost Amalgam has adequate mechanical properties for manycore build-up situations.It is radio-opaque and has beenshown to have superior cariostatic properties to com-posites.It has high thermal conductivity and coefÞcient ofthermal expansion.It is not adhesive to tooth structure,adhesives are available,and glass ionomer/resin ionomercements show promise.Conventional dental amalgams settoo slowly to allow tooth preparation during the same visitas core build-up.Modern fast-setting spherical alloys mayallow preparation 20Ð30 minutes after placement.Silveramalgam has been reported to be the most reliable directcore build-up material under simulated clinical conditionsbecause of its high compressive strength and rigidity (Fig.10.2).Resin compositeComposite core materials are becoming increasinglypopular for core build-ups.Provided adequate moisturecontrol is obtained,these materials may be reliably bondedto tooth substance,and their command set nature allowsimmediate tooth preparation.An incremental technique isrequired to ensure complete polymerisation unless speciÞclight-activated core composites are used.Some of thesematerials offer depth of cure of up to 8 mm (CavexClearÞl Photo-Core,Kuraray).Composite materials adaptwell to pins and pin-retained composite cores.Some resin 10 / Restoration of teeth (complex restorations) composite core materials possess similar compressive andtensile strengths to amalgam cores.Only radio-opaquecomposites should be considered as core materials.Thehigh coefÞcient of thermal expansion of composite coresand their greater potential for water uptake are negativeaspects of these materials.In addition,eugenol-basedtemporary cements may soften their surface or impedebonding of resin-based luting cements.Composite is bestas a direct core material when substantial coronal toothstructure remains for bonding and where reliable moisturecontrol may be obtained.Several composite core materialscontain ßuoride which is released in trace amounts for upto 5 years but no clinically relevant cariostatic property hasyet to be established for these materials (Fig.10.3).Conventional glass ionomer restoratives are popular withmany dentists as core materials because of their adhesiveproperties and ease of handling.They are relatively slow-setting and their early resistance to moisture is poor.Manyproducts are not radio-opaque.Although they may beconsidered to have adequate compressive strength for useas core build-up materials,their ßexural strength andfracture toughness are low.Conventional glass ionomerstantial tooth substance remaining to support the materialand where adequate resistance form may be obtained onnatural tooth tissue.Cermet cements do not provideadvantages over conventional glass ionomers and often Fig.10.2 Fig.10.3 have poor adhesion to tooth structure.Recently intro-duced condensable glass ionomer cements may prove abetter alternative as these materials can be bonded morereliably and are stronger.Resin-modiÞed glass ionomers (RMGIs) and polyacid-modiÞed resin composites (compomers) are attractivecandidates for core materials because they are consideredto offer the advantages of both glass ionomers and resincomposites.These materials offer improved ßexuralstrength in comparison to conventional glass ionomerswhilst the high coefÞcient of thermal expansion of com-posite has been reduced.Light activation offers speed ofset.Some concerns have been expressed about the risk offracture of all-ceramic crowns when resin ionomers orcompomers are used as core build-up materials and/orluting cements,and there is in vitro evidence to supportthis.Glass ionomers,resin-reinforced glass ionomers andmost compomers are signiÞcantly weaker than toothstructure.They should be limited to situations whereonly minimal tooth structure is missing,and whereincreased tooth strength and abutment retention are notPREOPERATIVE ASSESSMENT (Table 10.1)Restorability of tooth The extent of caries and the existing restorations shouldbe assessed.When teeth are prepared for crowns there is often amalgam remaining in proximal boxes,class V areasand other regions.All previously placed materials shouldbe removed (unless the operator has recently placed therestoration and is sure it is reliably retained to sound toothtissue),allowing teeth to be rebuilt without the risk of aninsecure foundation or previous pulpal exposure remain-ing undetected.If more than 50% of the coronal toothstructure is remaining and there is no requirement forincreased tooth preparation strength,then a bonded com-pomer or resin ionomer base may be used to restore thetooth to the ideal preparation form.If tooth structure has been lost and there is not a mini-mum of 2 mm sound tooth structure circumferentiallygingival to the tooth preparation,a high-strength (bondedamalgam or composite) core build-up is required toincrease tooth strength and aid crown retention/resistanceform.Mechanical retention in teeth may be increased by:grooves boxes dovetails converting sloping surfaces into vertical and horizontalreducing/covering undermined cusps.a last resort as they will further weaken already compro-mised teeth.In clinical situations,ßat one-surface cavitydesigns occur infrequently and it is often possible to createsteps or varying levels within a preparation increasingretention and resistance to occlusal forces.Other methodsof increasing retention and resistance without having toresort to pins include circumferential slots,amalgapinchannels or Ôpot-holesÕand peripheral shelves. Table 10.1 Pattern of tooth lossMinimalModerateModerate to severeTotal loss of coronal tooth structureCentral/internalAmalgam or Cement base and Pin core and crownN/A(i.e. occlusal dentine composite (PRR)amalgamPeripheral/external Amalgam, composite Amalgam, composite CrownN/A(i.e. tooth surface caries)or RMGIor RMGIAbove combinedAmalgam, composite Amalgam (large tooth) Pin core and crownPin core and or RMGIor cast gold onlay crown (molars) (small tooth)or root canal PRR, pin-retained restoration; RMGI, resin-modiÞed glass ionomer. Spherical alloys are best suited to condensing into smallretentive features of a cavity preparation and suitablesmall-diameter condensers are required.Slot-retainedrestorations are more sensitive to dislodgement duringmatrix removal than pin-retained restorations.Occa-sionally,when minimal tooth structure remains formechanical retentive features,pins may be required tosupplement retention.The amount of remaining coronaltooth structure (not undermined) is assessed after removalof caries and old restorations.Unsupported tooth struc-ture may need to be removed if the build-up is to serve asa direct permanent load-bearing restoration.Retention ofthin slivers of unsupported tooth structure may,however,be appropriate if the build-up is to serve as a foundationfor a crown. Prior to core build-up,an assessment should be made ofthe pulpal status of the tooth in question.If the pulp isexposed or there are signs/symptoms of irreversible pulp-itis,endodontic treatment should be performed.In the caseof an endodontically treated tooth,the quality of the treat-ment should be assessed radiographically (Fig.10.4).If thetreatment is considered inadequate,a decision will need tobe taken as to whether there is potential for retreatment orwhether the tooth would be better extracted.The periodontal status of the abutment should beassessed.If there is inadequate sound tooth structureapical to the preparation margin for satisfactory retentionand resistance form,surgical crown lengthening may haveto be considered.The occlusal relationships should beassessed,but not all teeth requiring build-up will sub-sequently need to be crowned and the occlusal relation-Greater strength is required for crowns in the followingpatients with bruxism or clenching habits teeth that support crowns with heavy canine or incisalabutments for Þxed and removable prostheses.PIN RETENTION FOR CORE FOUNDATIONSThe increased strength of the latest dentine/enamel bond-ing agents,coupled with the revived use of retentive slots,pot-holes,grooves and channels,has led to a reduction inthe use of pins.However,pins may be useful for providingretention to the core,although they should be used care-fully.There tend to be more disadvantages associated withFig.10.4Assessment of RCT molar tooth for crown. Fig.10.5Pins used in amalgam core build-up. their use,and incorrect placement can lead to pulpal orroot surface perforation.Other problems include crazing/tooth fracture or failure of the pin to seat fully,leading tolooseness or fracture of the pin (Fig.10.5).Use one pin per missing cusp or marginal ridge,up toa maximum of four.Use large-diameter pins whenever possible.Use the minimum number of pins compatible with adequate retention (pins weaken amalgam).Pins should extend 2 mm into dentine and restorativematerial.Keep 1 mm of dentine between the pin and thePins should be placed away from furcation areas andparallel to the external tooth surface.Coating of pins with adhesion promoters such asPanavia and 4-META materials improves fracture resis-tance of composite and amalgam cores. FOUNDATION RESTORATIONS FORENDODONTICALLY TREATED TEETHFor endodontically treated anterior teeth with moderate to severe coronal destruction,cast gold post and cores are the restorative method of choice (Fig.10.6;see alsoBox 10.2).Root-Þlled molar teeth often perform satis-factorily with direct cores retained by extension into thepulp chamber together with a portion of the root canals. Fig.10.6Gold post and core on anterior tooth. Treatment alternatives for endontically treated(molars only). The Ôcoronal-radicular amalgam coreÕonly) where the crown has two or more cuspsCast gold post and core where there are molarPrefabricated post (+ pin) retained amalgam orcomposite core where the crown is placed on premolar Fig.10.7(a) Prefabricated intraradicular posts.(b) In situ on posterior RCT molar. ment of one or more prefabricated intraradicular posts(Fig.10.7).Endodontically treated premolar teeth may be restoredeither with custom cast post and cores or prefabricatedposts used with direct core build-ups.Direct pattern postcores allow better control over the Þt and the shape of the Þnal core.They result in a better-Þtting Þnal crownrestoration because they are cemented before crownpreparation and impression-taking.The disadvantage isthat additional clinical time is spent at the chairside incomparison to an indirect technique.However,an accu-rate impression of the prepared post space that extendsdeeply into the canal of an endodontically treated tooth isalso a challenge.Many post crowns fail because posts are made too short,and frequently the full length of the prepared post hole is not employed in the Þnal restorationFor optimal post preparation:Use a length equal to or greater than the length of theÞnal clinical crown Shorter posts are undesirable because they:are less retentiveproduce unfavourable stresses within the root result in loss of cementation.A ßat seat should be created at the occlusal end of thetooth preparation to prevent possible wedging effects,and 10 / Restoration of teeth (complex restorations) as much coronal and radicular tooth structure as possibleshould be preserved.Parallel-sided posts are more reten-tive than custom-made tapered posts;however,when aincreased risk of perforation laterally towards the apex(Fig.10.9).Parallel-sided posts with tapering apical sec-tions are commercially available (TYNAX,Whaledent).Post width should be the minimum to allow for a close Þtbetween post and root canal dentine wall in the coronalalloys or heat-treated type 4 cast gold alloys,otherwisethere is an increased risk of displacement or distortion.Wider posts lead to excessive destruction of tooth tissueand reduce the strength of the radicular dentine.Thethickness of the remaining dentine is crucial to avoid rootfracture.A post and core can transfer occlusal forcesintraradicularly,predisposing the tooth root to verticalfracture.The role of the Þnal crown restoration in protect- Fig.10.8A post that has been made too short. Fig.10.9Commercially available parallel-sided posts. Fig.10.10The ferrule effect. ing the post-restored endodontically treated tooth is veryimportant.Clinical experience and laboratory studies haveshown that extension of the cast crown restoration at leasttooth structure provides extracoronal bracing and preventsfracture of tooth structure.This Ôhugging actionÕof a sub-gingival collar of cast metal has been described as theferrule effect (Fig.10.10).This element is more important than the design of thepost if tooth fracture is to be avoided.In vitro fatiguestudies have shown that failure of the cement seal of acrown occurs Þrst on the tension side of the tooth,espe-cially when the ferrule effect is small and the post is off-centre.Clinical studies indicate a high potential for postfracture when cemented crowns do not provide a ferruleeffect (Table 10.2).The placement of an indirect restoration requires prep-aration of a cavity with undercut-free cavity walls to allow apath of withdrawal and insertion of the completed restora-tion.This allows a pattern or impression to be removed fromthe cavity.The Þnished restoration should be capable ofinsertion into the tooth without the generation of stress.Pre-servation of remaining tooth structure is important becausethe restoration relies on the strength and integrity of theremaining prepared tooth substance for retention.The res-toration can be used to protect and reinforce the remainingtooth structure to some extent,but the less remainingenamel and dentine,the greater the risk of mechanical orbiological failure.Indirect restorations must be cemented or bonded intoplace to provide retention and cavity margin seal.The degreeof retention available for a non-adhesive indirect restorationdepends upon the surface area of the opposing vertical wallsof the cavity and their degree of convergence.Only when the restoration is adhesively luted with a resin-based lutingcement combined with an enamel/dentine adhesive is theluting agent a major contributor to retention.Indirect restorations may be:intracoronal (inlays) extracoronal (crowns) a combination of intra- and extracoronal (onlays).Restorations may be:wholly metallic (precious or non-precious alloys)a combination of the above (metal-ceramic crown) Crowns may cover all available surfaces of the tooth(full veneer crowns),or they may be partial veneer (e.g.three-quarter or seven-eights crowns).The stages in the clinical procedure involved in anindirect restoration are usually as follows:1.Decision as to restoration type (full or partial coverage;intracoronal or extracoronal),materials and method ofluting (conventional cementation or bonding with aresin-based luting material) 2.Discussion with patient before tooth preparation stageas to type of restoration and aesthetic implications 3.Tooth preparation (this may require prior occlusal ad-justment or diagnostic wax-up to facilitate productionof provisional restoration)4.Fabrication of temporary/provisional restoration5.Impressions and occlusal records6.Shade selection7.Try-in8.Cementation or bonding.PREOPERATIVE PLANNINGBefore considering embarking on indirect restorations,patients should be assessed to ensure that their periodon-tal condition has been stabilised and their caries risk is low. Table 10.2 Extent of tooth lossClinical situationOperative procedureFinal restorationModerate to severeShort preparation or Modify isthmuses/boxes Non-standard partial or full veenerexcessive taper Add grooves/pinholes One or two cusps missing Modify sloping surfaces into 50% coronal tooth horizontal walls/horizontal structure remains planes W�all thickness/length ratio 1:1Surgical crown lengtheningSevere�Loss of 50% crown wall Apply necessary pulpal Standard full veneerThickness/length ratio protection Short preparation for a long Pin amalgam or composite core crownSurgical crown lengtheningTotal loss of coronal All cusps undermined/lost As above plus elective Standard full veneertooth structureSupragingival height endodontics and post/core for The restorative assessment of the individual toothinvolves:long cone periapical radiographexamination of the quality of any existing restorationsassessing whether the remaining tooth structure afterpreparation will have sufÞcient strengthassessing the need for crown lengthening prior to treatmentocclusal considerations.The occlusal assessment should involve considerationof the tooth position relative to the opposing as well as theadjacent teeth,as this will inßuence preparation design.Ifthere are occlusal interferences,these may place such acrown under high functional stresses and will requireremoval at a prior visit.The surfaces of the crown will needto be duplicated so that either the group function orThe tooth may be a key unit in the arch,i.e.partialdenture abutment,and the shape of the surface should be modiÞed to allow the subsequent placement of thedenture.In such situations,mounted study casts are auseful aid in planning the preparation design as well ascarrying out the occlusal assessment.Any tooth preparation for a crown should follow theappropriate biomechanical principles (Box 10.3),andwhen planning replacement of a failed indirect restoration,it is important to identify the cause(s) of failure so that thismay be corrected at the time of preparation.Common causes of failure include:poor preparation design/shape resulting in lack of reten-tion and/or resistance forminsufÞcient reduction or lack of support/thickness forceramic or compositeundercut preparationsfailure to identify and/or correct occlusal problemspoorly Þtting restorations resulting from poor impres-sion procedures or faulty laboratory techniqueinappropriate prescription/planning;no preventiveregimeincorrect shade. CHOICE OF MATERIAL FOR INDIRECTRESTORATIONSThere are four types of material that can be used forindirect restorations:indirect compositemetal ceramic.This is generally considered to be the most satisfactoryextracoronal restorative material.It has a hardness similarto enamel,and occlusal and axial contours can easily bebuilt up in the wax prior to casting.Cast gold alloy restora-tions include single and multiple surface inlays.The lattermay include partial or complete coverage (onlays) of theocclusal surface.Extracoronal gold restorations includefull veneer crowns and three-quarter crowns,in whichonly one surface of the tooth (usually the buccal) is leftuncovered (Fig.10.11).Gold can be used in thin sections but it is not aesthetic.One millimetre of tooth reduction is required occlusally,with the exception of the functional cusp bevel where 1.5 mm is necessary.The choice of restoration and prep-aration design will depend upon the exact details of eachclinical situation.Indications for use In situations of severe occlusal stressFollowing endodontic treatment of posterior teethFull or partial coverage of posterior teeth where thereIn situations where other materials are not suitable forestablishing proper proximal and/or occlusal contactsFor restoration of adjacent and/or opposing teeth toavoid problems arising from use of dissimilar metals. Biomechanical principles of tooth preparation¥Preservation of tooth structure and pulp vitality¥Obtaining adequate retention and resistance form¥Obtaining adequate structural durability of therestorationObtaining adequate marginal integrity¥Preservation of periodontal health¥Appropriate aesthetics Fig.10.11Cast gold veneer crown at UL5. Evidence of active caries/periodontal diseaseEconomic and social factors Where patient management requires short visits andsimple procedures.Porcelain (ceramic)This is a brittle material which is liable to fracture in thinsection unless appropriate Þt surface treatment is per-formed (etching and silanisation) and the restoration isadhesively luted with a resin-based cement (porcelainveneers and dentine-bonded ceramic crowns).A mini-mum margin reduction of 0.8 mm is required with 1.5Ð2.0 mm incisally/occlusally.Crown margins are pre-pared just below the gingival margin (intracrevicularly) ifaesthetics dictates that this is necessary (Fig.10.12).Adequate retention for non-adhesive ceramic crownsdepends on near-parallelism of opposing walls,particu-larly in the gingival third of the preparation.Porcelaincrowns are relatively weak restorations and are restrictedto anterior teeth unless a high-strength ceramic (Inceram,Procera,or Empress II) is used.Indications for use Large inadequate restorations on anterior teeth,pro-preparation Severely discoloured anterior teeth Over an existing post and core substructure.Teeth which do not allow ideal preparation form tosupport the porcelainTeeth with short clinical crowns When opposing teeth occlude on the cervical Þfth of thepalatal surface.Porcelain jacket crowns are Þnished to a shoulder orbutt joint margin design unless the preparation is to bebonded (dentine-bonded crowns).All-ceramic crowns arepreferred to metal ceramic crowns on post-crowned teethwhere there is a risk of trauma.In this case,the weakerporcelain jacket crown fractures rather than the stressbeing transferred via the post core leading to root fracture.Indirect compositeLaboratory composites with improved strength and wearresistance are now commercially available and are increas-ing in popularity.Coupled with improvements in resin-indirect composite restorations (with or without Þbrereinforcement) may be considered appropriate for singleunit inlays,onlays and crowns (Fig.10.13).Laboratory composites are generally preferred to porce-lain restorations for inlays,whereas the latter offer more Fig.10.12An all-porcelain crown at UL5. Fig.10.13An indirect composite crown at UL4. permanent form stability in onlay and crown situations.Some prefer a material which is less wear-resistant and assuch is sacriÞcial in nature to a highly wear-resistantceramic restoration which may ultimately cause excessivewear of the opposing dentition.Metal ceramic crown restorations offer a combination ofstrength and good aesthetics.Additional tooth preparation(1.5 mm) is required to allow for both the metal substruc-ture and metal overlay.These crowns are frequently over-contoured due to inadequate tooth reduction.Heavy toothpreparation to achieve adequate thickness for both materi-als may result in an increased incidence of pulp death.Ifthis is a risk then a bevelled shoulder or cervical chamfermay be preferred to the conventional full 1.5 mm axialreduction in cases where the tooth preparation has to beextended down onto root surface or where there is a largepulp.Metal occlusal coverage is generally preferred tomaximise retention and resistance form and to minimisetooth reduction.Metal occlusal contacts are easier tocreate and adjust.Porcelain occlusal surfaces are moreaesthetic but demand additional tooth reduction andcreate the risk of excessive occlusal wear of opposing toothsurfaces (Fig.10.14).Indications for use Anterior teeth where there is insufÞcient space for anall-ceramic restorationRepeated failure of porcelain jacket crowns (identifyreason Þrst)Posterior crowns where aesthetics is important and fullor partial veneer gold crowns are contraindicated onthis basis. Where excessive wear of teeth opposing porcelainocclusal surfaces may be expected.Either a sacriÞcialindirect composite approach is preferred or permanentnight-time protection with a Michigan splint may beindicatedWhere pulpal damage risk is high,particularly in ayoung patient.Dentine-bonded ceramic crowns haveprovided a more conservative viable option in many ofthese cases.TOOTH PREPARATION GUIDELINES FORINDIRECT RESTORATIONSAll preparations should have the maximum height andminimum taper for optimal resistance and retention formconsistent with the chemical situation.To achieve this andto permit an adequate thickness of restorative materialwithout over-contour,the surface of the preparationshould mimic that of the intended restoration,bothocclusally and axially.Features of preparations for indirectrestorationsUndercut-free preparation Ð there must be one pointabove the preparation from which all the margins andinternal line angles can be seen.A single path of insertion over as great a distance aspossible Ð this is achieved by preparing opposing wallsto be near-parallel to give maximum retention.Thethey may overhang the margins of the prepared tooth.The path of insertion is therefore dictated by theResistance form needs to be provided by restoration to displacing forces which are usually occlusal in origin.The opposing walls in the gingival half of the prepara-tion should be made near-parallel.The occlusal third tohalf will usually be more tapered as a result of the twoplains of labial reduction required to provide sufÞcientroom for the restorative material within the originaltooth contours.With short clinical crowns there is an increased risk offailure because of the short insertion path.Preparationlength can be increased by crown lengthening,andresistance form may be improved by the use of grooves,slots or boxes and by converting sloping surfaces intovertical and horizontal components.Occlusal reduction should follow cuspal outline tomaximise retention and minimise tooth reduction.Forporcelain fused to metal crowns and for gold crownsthese distances are 2 and 1 mm,respectively. Fig.10.14Metal ceramic crowns on posterior teeth with (left) andwithout (right) occlusal porcelain coverage. The Þnished margin position and type are determinedby the gingival contour,the nature of the restorativematerial,the presence or absence of a core margin andthe choice of luting agent.Whenever possible,the marginshould be supragingival following the natural gingivalcontours.Finish margins should ideally extend at least1mm past core margins to rest on sound tooth tissue.Types of Þnish margins (Box 10.4,Fig.10.15)Chamfers and shoulders give deÞnite Þnish margins whichmay be identiÞed on preparations,temporary crowns anddies.Occasionally,knife-edge preparations may be indi-cated for full veneer crowns where there are deeply sub-gingival margins (however,periodontal surgery may bemore appropriate here),bulbous teeth or pins close to thepreparation margin.Metal ceramic crowns may be con-structed with metal collars,especially on long prepara-tions on posterior teeth.Lipline on smiling may indicatewhether this is a practical proposition.A chamfer or knife-edge Þnish may avoid excessive tooth reduction in thissituation.Preparation stagesThe following sequence is usually adopted:Occlusal reduction using depth grooves as a guide tothe amount of tooth reduction.Grooves are only of usewhen the shape of the restoration is intended to matchthe original tooth.Gross buccal and palatal/lingual axial reduction.Thepreparation is kept near-parallel cervically and thethe Þnal restoration in two,or occasionally three,planes. The preparation is extended as far interproximally aspossible without risking contact with adjacent toothstructure.Initial interproximal reduction is achieved with a narrow tapered diamond.A sliver of tooth substance/restoration may be left to protect the adjacent tooth atComplete axial reduction can determine Þnal Þnishingline position.Finish margins at least 1 mm past anyexisting restorations and just below the gingival marginlabially if required for aesthetics.INDIRECT ADHESIVE RESTORATIONSTooth-coloured inlays(Box 10.5)The increasing expectation of patients that restorations beand indirect composite and ceramic restorations in poste-rior teeth.Ceramic and composite inlays are generallyconsidered to be appropriate for larger rather than smallercavities,given that direct placement resin compositerestorations may provide good service in small- tomedium-sized cavities.Computer-aided design and manufacture techniques(CAD-CAM,e.g.Cerec,Siemens,Germany) are capableof producing increasingly accurately Þtting inlays fromblocks of ceramic material.These techniques have thedistinct advantage of producing the inlay at the chairsidein a short time (within 15 minutes),thereby obviating theneed for placement of a temporary restoration and a Types of Þnish margins (a) (b) (c) (d) (e) Fig.10.15Types of Þnish margins.(a) Knife edge;(b) bevel;(c)chamfer;(d) shoulder;(e) bevelled shoulder. Pressed ceramics (such as Empress II: Ivoclar-Vivadent, Gold inlay Fig.10.16Comparison between typical inlay cavities for gold andcomposite inlays. Composite inlays are constructed from a variety ofcomposite types and are ÔsupercuredÕusing a mixture ofheat and pressure,and heat and light.Despite the differences in the physical properties of com-posite and ceramic inlay materials,the suggested cavitypreparation designs may be similar.The conceptsdescribed above for adhesive preparations may be 10 / Restoration of teeth (complex restorations) employed.This type of restoration will normally be appro-priate to larger rather than smaller cavities,and will oftenbe a replacement for a failed amalgam or gold restoration.The aesthetic inlay cavity will therefore often have anapproximal ÔboxÕand occlusal key.The taper for the prepa-ration should be greater than that employed for gold inlaypreparations,i.e.at least 6¡,given that the inlays are weakbefore cementation,and try-in or removal from a near-parallel preparation may result in fracture of the inlay (Fig.10.16). Table 10.3Clinical and laboratory techniques for aesthetic inlays (stages 1 and 2) OperationRationaleImpression techniqueAs for a gold inlayLaboratory instructionsRequest for etching of the Þtting surface of ceramic inlays with Temporary restorationThe temporary restoration should be constructed in a light or Remove temporary and clean cavity with pumiceRemoves contaminants such as eugenolHandle inlay with care, try into cavity: do NOT Inlay is weak prior to cementationIf satisfactory Þt, clean inlay Þtting surface with Fitting surface may have been contaminated with salivary pellicleApply silane bond enhancer to inlay Þtting Silane will improve adhesion of resin to ceramic inlay by circa 20%Isolate, preferably under rubber damSaliva and/or blood contamination will reduce bond strengthApply matrix, or organise alternative means for Excess luting material will cause gingival irritationMix luting material and apply to cavityApplication of luting material to inlay may result in fracture of inlayPlace inlay slowly and carefullyRapid insertion of the inlay may result in its fractureRemove excess luting material from accessible Removal of excess luting material is much more difÞcult when it has surfaces with sponge pellets or equivalent, and been curedCover margins with anti-air-inhibition gelThis will allow full polymerisation of the lute and prevent removal of Light cure from all directions in excess of It is not possible to overcure a composite and light is absorbed by the manufacturerÕs suggested timinginlay, especially if a dark shade has been chosen. Physical properties of dual-cure materials are better when light-curedFinish margins, check occlusion in all positions, Smooth margins will not retain plaque No bevels should be placed on the occlusal aspect ofthe cavity,as thin sections of composite or ceramic may be prone to fracture under occlusal loading.All cavitymargins should be in enamel and they should be supra-gingival to permit moisture control during placement ofthe inlay.Cavities should be at least 2 mm deep occlusally.All line angles should be rounded.Clinical and laboratory technique for aesthetic inlaysare outlined in Table 10.3.Using these techniques,a satisfactory aesthetic result is possible (Figs 10.17 andThe dentine-bonded crownThe dentine-bonded crown is a comparatively recent addi-tion to the clinicianÕs armamentarium.It has beendescribed as a full-coverage ceramic restoration which isbonded to the underlying dentine (and any remainingenamel) using a resin composite-based luting material,with the bond being mediated by the use of a dentinebonding system and a micromechanically retentiveceramic Þtting surface.Appropriate ceramics includefeldspathic porcelain and aluminous porcelain,but anyreinforced ceramic (e.g.Empress:Ivoclar-Vivadent,Leichtenstein) may also be appropriate provided that it ispossible to etch its Þtting surface with hydroßuoric acid or a hydroßuoric/hydrochloric acid mixture to produce amicromechanically retentive Þtting surface.The bondbetween ceramic and resin luting material is enhanced byapplication of silane to the Þtting surface.As with ceramicinlays,these crowns are weak until bonded to the under-lying tooth.Indeed,since feldspathic porcelain is oftenused as the outer ceramic layer in many restorative modal-ities,such as metal-ceramic or aluminous porcelain,in thedentine-bonded crown technique,the tooth acts as thecore,bonded to the ceramic by way of the dentine bondingagent and luting material (Fig.10.19).Advantages and disadvantages of dentine-bondedcrownsare as follows:Advantages Achievement of good aestheticsMinimal axial preparation result in less pulpal irritation Fig.10.17Cavity preparation for a composite inlay to replace a failedgold inlay (patient requested tooth-coloured restoration). Fig.10.18Composite inlay at placement visit. Fig.10.19(a) Dentine-bonded all-ceramic crowns constructed infeldspathic porcelain on central incisor teeth.(b) Preparation for crownsillustrated in (a) shows minimal shoulder and less tooth reduction thanfor conventional crowns.(Reproduced by courtesy of Dental Update,George Warman Publications,Guildford,UK.) Use in situations where preparation taper is large orcrown height poorLuting material is virtually insoluble in oral ßuidsUse in patients who are sensitised to any constituent ofcasting alloys.Correctly Þnished,they should not cause irritation ofthe periodontal tissues No marginal gap as this is Þlled with the luting materialDisadvantagesProblems of isolation for the bonding procedure if deepsubgingival margins are presentfor conventional crowns,resulting in a higher chairside Lack of extensive long-term clinical data on effectiveness Dentine-bonded crowns are indicated:as replacements for failed,conventional crownsin cases of tooth wearas alternatives to metal-based alloys.They are not suitable where isolation is not possible,such as deeply subgingival margins or in patients withuncontrolled caries or severe parafunctional habits.The placement technique for dentine-bonded crowns isoutlined in Table 10.4. PORCELAIN LAMINATE VENEERS The advent of new tooth-coloured restorative materialsto increased consumer orientation towards aestheticdentistry (Fig.10.20). Table 10.4 OperationRationaleRemove temporary and clean preparation with pumiceRemoves contaminants such as eugenolHandling crown with care, try into preparation; do NOT Crown is weak prior to cementationIf satisfactory Þt, clean Þtting surface with phosphoric Fitting surface may have been contaminated with salivary pellicleApply silane bond enhancer to Þtting surface and Silane will improve adhesion of resin to crown by about 20%Isolate, preferably under rubber damSaliva and/or blood contamination will reduce bond strengthOrganise means for removal of excess luting material Excess luting material will cause gingival irritationMix luting material and apply to crownMust be handled carefullyPlace crown slowly and with careRapid placement may result in fracture of thin marginsCover margins with anti-air-inhibition gelThis will allow full polymerisation of the lute and prevent Light cure from all directions in excess of manufacturerÕs It is not possible to overcure a composite and light is absorbed by suggested timingthe crown, especially if a dark shade has been chosen. Physical properties of dual-cure materials are better when light-curedFinish margins, check occlusion in all positions, and polishSmooth margins will not retain plaque Fig.10.20Porcelain laminate veneers on anterior teeth. Three main discoveries have led to the evolution of theporcelain laminate veneer (PLV):development of resin composite luting materialssurface treatments which provide a micromechanicallyretentive ceramic Þt surface.These major discoveries,coupled with the continuedevolution of laboratory techniques (platinum matrix build-up technique for porcelain laminates;refractory invest-ments;new ceramics with optimised properties speciÞc toporcelain laminates) and materials/clinical procedures(porcelain etching gels;stable silane solutions;veneerbonding composites/speciÞc instrument kits for toothpreparation and establishment of appropriate preparationcriteria),have made porcelain laminate veneers a wellestablished and predictable treatment modality.Porcelain laminate veneers can be used in a variety of clin-ical situations.For example,colour defects or abnormali-ties of the enamel,such as the following,can be masked:Intrinsic staining or surface enamel defects caused by:Ðphysiological ageing,ÐtraumaÐmedications (tetracycline administration)ÐßuorosisÐmild enamel hypoplasia or hypomineralisationÐamelogenesis imperfectaÐerosion and abrasionExtrinsic permanent staining not amenable to bleach-ing techniques.In addition,discoloured non-vital teeth that otherwisemight require post crowns can be veneered (perhaps afterinternal bleaching has been attempted).Whilst PLVs may afford a more conservative alternative to post crowns inthese situations,these restorations may appear darker inExternal bleaching through the palatal surface of thenatural tooth (or internal bleaching) may reverse thissituation (Fig.10.21).Porcelain laminate veneers may also be used to correctpeg-shaped lateral incisors,to close proximal spacing anddiastemas,to repair (some) fractured incisal edges,and toalign labial surfaces of instanding teeth.Any closing ofdiastema must take the overhanging porcelain/occlusalguidance relationship into consideration,since thisinvolves the risk of fracture.Converting a canine to theshape of a lateral incisor (in the case of a missing lateral)usually requires a partial veneer crown (reverse three-quarter) preparation.When major changes to the shape ofthe teeth are planned,it is advisable that a diagnostic wax-up on a study cast is carried out Þrst.Alternatively,mock-up facings of composite or porcelain may be made on acast of the unprepared teeth for chairside and/or intraoralevaluation by the operator or patient (Fig.10.22).Veneers are contraindicated when there is a poorly moti-vated patient with a high caries rate and appreciableamount of periodontal destruction.Recession,rootexposure (with discoloration) and a high lip line are othercontraindications.PLVs are normally contraindicated if the preparationdoes not preserve at least half of the surface area remain-ing in enamel or if it has to be extended onto cervical rootstructure.A more extensive restoration such as a metal-free dentine-bonded ceramic crown or a conventionalhigh-strength porcelain jacket crown may be more appro-priate in these situations.Labially positioned,severely rotated or overlapped teethwill prove difÞcult to restore with veneers (Fig.10.23),as Fig.10.21Discoloured teeth that will beneÞt from porcelain laminateveneers. Fig.10.22Diagnostic wax-up of teeth. structure,including labial enamel,and those with inter-proximal caries or unsound/leaking restorations.Thepresence of small labial or proximal restorations may notcontraindicate veneers.When lower incisor teeth meet in close apposition tothe palatal surfaces of opposing maxillary incisors,theocclusal forces are less favourable and the availablebonding area is often considerably reduced.Where it isseen that veneers are more difÞcult to place,they shouldonly be considered when all other alternatives are unac-ceptable to the patient.Another situation in which PLVs may not be appropri-ate is when teeth are severely discoloured.Opaque porce-lains and luting cements can be used but the end resultmay be a dull,ÔlifelessÕover-contoured restoration withpoor cervical appearance because the veneer can only beextended onto the enamel-covered crown surface.It isdifÞcult to achieve a good aesthetic result on a single,verydiscoloured tooth with a PLV and,in such cases,a crownrestoration may be more appropriate.Teeth can be veneered without any preparation (e.g.aninstanding upper lateral incisor) but this is generally notfavoured as it will result in over-contouring (complicatingplaque control) and the restoration may be difÞcult tolocate accurately on cementation.Indications for a Ônon-preparationÕapproach include patients who are averse tohaving any tooth preparation (they must have the implica-tions of this fully explained to them in advance and thisRemoval of surface enamel makes resinÐenamelbonding more effective.The presence of small labial orproximal restorations may not contraindicate veneers. 10 / Restoration of teeth (complex restorations) They may be incorporated into the preparation and theyshould be replaced before or during veneering to ensurecaries removal,effective bonding and good marginal seal.Restoration with glass ionomer cement rather than com-posite resin may be indicated.Tooth preparationA polyvinyl siloxane putty template of the tooth prior topreparation may be used to help the clinician measure the amount of reduction.Depth orientation grooves maybe prepared using commercially available depth-limiting Fig.10.23Severely rotated teeth not suitable for porcelain laminateveneers. Fig.10.24(a,b) Labial reduction for porcelain laminate veneer. burs specially designed for PLVs.Alternatively,hemi-spherical depth orientation dimples may be preparedusing a 0.5 mm radius round diamond bur (Fig.10.24).Great care must be taken to avoid perforation of thincervical enamel (sometimes it is better to leave the cervi-cal region minimally prepared or unprepared because theenamel is so thin).Lack of sensitivity during preparation(without local anaesthetic) is not a reliable indicator in thisrespect.Although small areas of the preparation caninvolve dentine without adversely affecting retention,it isbest to avoid this if possible.Dentine bonding agents maybe used to bond the resin luting cement to dentine but thisis not ideal,particularly at the preparation margins.Labialreduction should Þnish with a chamfer margin at theproximal ÔstopÕ,thus preserving the contact area.Porcelain laminate veneers generally allow supragingivalmargins to remain visible (because of their optical pro-perties) and tooth preparation allows a good emergenceproÞle to be maintained.Supragingival or equigingivalmargins should normally be preferred for the followingthey are less likely to involve cervical dentinethe margins are accessible for Þnishing and polishingassessment of marginal Þt is easiermoisture control during bonding is simpliÞed.About 0.3Ð0.5 mm of enamel should normally beremoved (0.3 mm cervically) and the preparation shouldend proximally just short of the contact point(s) and levelwith the gingival margin (or supragingivally if the lip linepermits) in enamel.A 0.3 mm chamfer creates a Þnish linewhich is easy to identify and reproduce in the laboratory.It allows correct tooth contour to be established cervically.It facilitates veneer placement and reduces the risk ofmargin fracture at try-in.Greater reduction,up to 0.7 mmin depth,may be required to mask heavy tetracyclinediscoloration,and if the lip line is high,the preparation may also have to be extended intracrevicularly to achieve satisfactory aesthetics.The surface produced by conven-tional medium grit diamond burs is adequate,as compos-ite/enamel bonding is facilitated by the rough surface.AÞnishing bur is,however,preferred for margin reÞnement.preparation,care should be taken that the veneer extendsadequately in the proximal subcontact areas (cervical tothe contact points) to avoid an unsightly band of exposedtooth structure remaining (especially mesially).A labial orlabio-incisal path of insertion helps to prevent this.Theaim is to place the margin beyond readily visible regions. Provided the tooth does not have proximal restorations,placement of the proximal Ôstop lineÕshould be guided by aesthetic considerations.It is essential to extend themargin of the veneer beyond the visible area.This is especially important when the colour of thetooth differs greatly from that of the veneer.Assessment ofcorrect proximal margin placement should be determinedfrom frontal and/or side-on views.Proximal extension ofthe veneer to the lingual proximal line angle may berequired to achieve a favourable restoration contour whenthere are diastemas to be masked or when there is cariesor an existing restoration proximally.The veneer is extended to or taken over the incisal tipdepending on the need to rebuild or lengthen this area(taking into account occlusal constraints).An incisal bevel isthe preparation of choice when the tooth to be veneered is ofthe correct length and the anticipated functional occlusalloads will be low.If the occlusion permits,the incisal edge ofthe tooth should not be routinely covered as the preparationis then more conservative and does not alter the patientÕsnatural incisal guidance/tooth contacts.However,when theincisal edge of the tooth is not overlaid,the occlusal third ofthe PLV is often very thin (0.3 mm or less).If there is edge-to-edge occlusion or evidence of incisal wear then there is agreater risk of chipping or incisal fracture of the veneer fromocclusal load (Fig.10.25).In addition,when the teeth are thin,the difference inresilience between the prepared natural tooth and the PLVcan,under occlusal load,lead to cracking or fracturing ofthe ceramic.A similar consideration applies if extensivecomposite restorations are present.Complete coverage of the incisal edge with a minimumoffer the following advantages:It restricts incisal fracturing in cases of heavy occlusal Fig.10.25Incisal preparation for porcelain laminate veneer. It facilitates changes in tooth shape/position.It facilitates handling and positioning of the PLV at try-in and during bonding.It allows the veneer margin to be placed outside theIt facilitates achievement of good aesthetics in the Þnalrestoration.An incisal edge overlap preparation is used when toothlengthening is indicated,when it is necessary tocover/protect part of the palatal surface,or when theetc.Incisal reduction must provide a minimum ceramicthickness of at least 1 mm.A thicker layer should be usedfor canine teeth and lower incisors.The lingual marginplacement for a lower incisor may be extended one-thirdof the way down the lingual surface,transforming theveneer in effect into a partial crown.With this type ofpreparation the ceramic will be exposed mostly to com-pressive stresses and less to ßexural stresses.Despite thesmall preparation surface area,the failure rate is relativelylow.The degree of extension onto the lingual/palatalsurface will depend upon the particular clinical situation.The lingual Þnish margin should be prepared as a hollowground champfer to a depth of 0.5Ð0.7 mm.This marginshould be located away from centric stops or areas ofImpressiontray is adequate.Alternatively,a twin-mix single-stageaddition-cured silicone impression taken in a special traymay be used.Occlusal stops should be placed on teethaway from those prepared.Retraction cord placement is rarely necessary and,if required,may indicate over-preparation.Simply blowing with an air syringe should reveal themargin in the Þnal preparation.Gingival retraction,however,is required to record the root emergence proÞlewhen the cervical margin is placed equigingivally or sub-gingivally for aesthetic or other reasons.Non-medicatedretraction cords (small braided cords Ð Ultrapak No.1 orNo.2,Ultradent) are preferred to reduce any risk ofgingival recession.Any undercuts created by the cervicalembrasure spaces may be Þlled in lingually with softenedwax to avoid the risk of the impression tearing.Temporary coverThis is rarely indicated for minimal veneer preparationsand,when required for a single veneer,can be accom-plished with light-cured composite resin build-up.Thetooth preparation is coated with a layer of water-solubleseparator (glycerin),light-cured composite restorative is 10 / Restoration of teeth (complex restorations) applied and excess removed from interproximal spacesbefore curing.After light curing,the hardened materialmay be removed for shaping and polishing.It may becemented to the tooth surface with a layer of compositeafter the preparation has been spot-etched centrally (Fig.10.26).Pairs of veneer preparations may be made at the chair-side or in the laboratory on a quick-setting plaster castpoured from an impression.Multiple temporary veneersmay be made at the chairside with the aid of a transparentvacuum-formed plastic mould prepared from a model inthe laboratory.A light- or chemically cured provisionalcomposite resin may be used to make the provisionalveneers.After trimming and adjustment,the veneers mayneed to be relined to improve marginal Þt.These tempo-rary prostheses are generally not separated but arecemented in one piece.A eugenol-free temporary cementor zinc phosphate may be used for this purpose or a resin-based temporary cement (Temp Bond Clear,Kerr).Whenthere is incisal coverage or the veneer has had to beextended interproximally or converted to a partial coverdentine-bonded crown (reverse three-quarter),there is agreater need for a provisional restoration to satisfypatientsÕaesthetic demands and to reduce the risk of toothsensitivity.Porcelain veneers may be fabricated on platinum foilmatrices,or using refractory dies.With both techniquesthe Þt surface of the Þred porcelain veneer is grit-blastedwith 50 micron AlThe veneer Þt surface is then etchedwith a hydroßuoric acid etch gel and a silane solution isapplied to it.It is important,if possible,to get most of thedesired Þnal shade from the porcelain restoration itselfrather than the luting cement. Fig.10.26Spot-etching of UR1 prior to temporary coverage forporcelain laminate veneer. Try-inClean prepared teeth with a pumice/water slurry,rinse anddry.If necessary,clean interproximally with Þnishingstrips.Care is needed to avoid trauma to the gingivalmargin and bleeding.The tooth is isolated (cotton woolrolls,suction) and airway protection (gauze or throat pack)The individual veneers are checked for Þt and contour.(If multiple,try in together).seat veneers forcefullybut adjust as required with diamond burs (veneers arefragile at this stage and Þnal minor adjustments are bestleft until after bonding).If porcelain margins are exposed,silane and bond resin have to be reapplied in the labora-tory before proceeding (Fig.10.27).Choose the correct shade of composite luting cements(use the shade of veneer itself as a guide).Use water orglycerin if required for initial aesthetic try-in (an air gap will adversely affect the shade evaluation).Only if essen-tial,use a trial mix of luting composite applied to theveneer Þt surface (having wetted the tooth surface withwater) for shade assessment.Switch off the operatinglight beforehand! Wipe out excess resin with cotton wooland place the veneer in an appropriate solvent (ethylalcohol) to remove remaining unpolymerised lutingObtain strict moisture control with cotton wool rolls,saliva ejectors and sponges etc.Gingival retraction cordmay also be required.Adjacent teeth are protected withsoft metal matrix (Dead soft matrix material,Den Mat) ormylar strips folded over uninvolved contacts to secure inplace or use wedges.Acid etch with phosphoric acid gel for 30 seconds,rinsefor 20 seconds,and dry until a frosted appearance isevident.(If areas of exposed dentine are present,use anmanufacturerÕs instructions.)Apply unÞlled bond resin and blow thin.Do not lightcure! It is essential that excess bond resin is not allowed topool in interdental or cervical areas where it may preventcomplete veneer seating.as a thin layer over the veneer Þt surface (avoid incorporat-ing air bubbles) and seat the veneer onto the tooth with slowcontinuous pressure until fully in place.Remove gross excesscement from the margins with a probe (or a brush tip dippedin unÞlled resin).Run Superßoss interproximally in a labialto palatal direction to remove interproximal excess.If the veneer is correctly seated,ÔtackÕit into place with a 10Ð20 second period of light irradiation incisally.Removeunder the margins.Complete light curing by overlappinglight guide tip applications (60 seconds each) in incisal,labial and proximal areas.Cement adjacent veneers one at a time (always checkfor correct seating beforehand!).Gross excess cement can be removed with hand instru-ments such as scalers and composite Þnishing burs.Remove residual excess from the margins with water-cooled composite Þnishing burs which may also be usedfor Þne trimming of porcelain margins.The gingiva is pro-tected by retraction with the blade of a Ôßat plasticÕhandinstrument and the proximal area is Þnished with com- Fig.10.27Try-in (a) and cementation (b) of porcelain laminate veneer. posite Þnishing strips.Finally,a check is made with ßossfor smooth passage (Fig.10.27).The Þnal polish of margins is undertaken with impreg-nated polishing discs and cups (Enhance-Dentsply),pol-ishing pastes (Prisma-Gloss/Dentsply) and/or compositepolishing discs (Soßex 3M).Fig.10.28).A Þnal check ismade on the occlusion and the PLV is adjusted to removepremature contacts in all excursions.Review and maintenanceThe patient is reviewed 1 week later to ensure that allexcess resin cement has been removed and that correctplaque control procedures are being employed.The mar-ginal integrity is checked for signs of marginal leakage, 10 / Restoration of teeth (complex restorations) colour,aesthetic acceptability and gingival health atregular recall.The occlusion is inspected for interferencesand adjusted if required.It is known that properly exe-cuted porcelain veneers rarely fail due to bond failure.However,a mouth guard should be provided for contactsports players to avoid damage.SUMMARYComplex restorations are clinically rewarding but they do require careful treatment planning to ensure theirlongevity in the mouth.This aspect of restorative dentistryensures that the patient has a functional restoration whichis mechanically sound but also biologically compatible. Fig.10.28Final Þnishing of veeners.