Clinical Cases, Chairside Att ersätta amalgam med flytande komposit 26 sep. 2025 Case by Dr. Julien Molia JA, DET FUNKAR! Bland många tandläkare har det blivit en etablerad uppfattning att flytande kompositer är bra som underlagsmaterial under starkare packbara kompositer och indirekta restaurationer eller som provisoriskt material. Många utgår ifrån att användningen av flytande kompositer begränsas av de dåliga mekaniska egenskaperna. EN NY GENERATION FLYTANDE KOMPOSITER Lyckligtvis är detta inte längre sant: Många moderna flytande kompositer - som CLEARFIL MAJESTY™ ES Flow och CLEARFIL MAJESTY™ ES Flow Universal (båda från Kuraray Noritake Dental Inc.) - är behäftade med mekaniska egenskaper som är fullt jämförbara med de hos många kompositer av pastatyp. På så sätt har användningsområdet breddats. CLEARFIL MAJESTY™ ES Flow Universal har , enligt tillverkaren, en fyllnadgrad på 75 till 78 %vikt, böjhållfasthet på mer än 150MPa och tryckhållfasthet som är högre än 370 MPa. Tack vare hållfastheten är den en pålitlig och permanent lösning som fungerar även i områden med stora påfrestningar, d.v.s ocklusalytor i det posteriora området. Den här flytbara kompositen har dock mer att erbjuda: Den finns tillgänglig i två flytbarheter - LOW och SUPER LOW - för att möta personliga preferenser och individspecifika behov. Vidare finns den i endast två nyanser som ger fördelen av intuitiv färgmatchning - till och med i det anteriora området. Detta möjliggörs av en blandning av färgmatchande teknologier, inkluderat optimerad ljusspridning och emaljliknande translucens. Följande exempelfall visar hur CLEARFIL MAJESTY™ ES Flow Universal förenklar mitt liv när det kommer till posteriora fyllningar. EXEMPELFALL Denna patient sökte för att få två amalgamfyllningar i underkäken (tand 46 och 47 enligt FDI) utbytta (Fig.1). Eftersom det skulle underlätta fyllningen och ge bra anslutning till kavitetens väggar föll valet på CLEARFIL MAJESTY™ ES Flow Universal som det enda restorativa materialet. Positionen på de tänder som skulle bahandlas gjorde färgvalet enkelt: Shade U (universal) är gjord för att fungera perfekt för alla posteriora ersättningar. Amalgamfyllningarna avlägsnades och karies exkaverades och så mycket av den friska tandvävnaden som möjligt bevarades (Fig.2 och 3). Tanden etsades selektivt och behandlades därefter med universaladhesiv (CLEARFIL™ Universal Bond Quick 2, Kuraray Noritake Dental Inc.) Därefter applicerades CLEARFIL MAJESTY™ ES Flow Universal, med flytbarhet LOW och nyans U i kaviteterna (Fig. 4). Tack vare den innovativa sprutdesignen är den applicerade kompositen så gott som helt fri från blåsor. I enlighet med instruktionerna för produkten och för att garantera fullständig härdning var inget skikt tjockare än 2 mm. (Fig. 5 och 6). Härdningen är helt avgörande för ersättningens hållbarhet över tid. Varje skikt ska härdas fullständigt under 10 till 20 sekunder (beroende på vilken härdningslampa som används) innan nästa skikt appliceras. Som framgår av Figur 7 tillåter den låga graden av flytbarhet hos det valda materialet en viss modellering av den ocklusala morfologin. När fler anatomiska detaljer ska återskapas är den stadigare varianten SUPER LOW ett alternativ. Det tog bara några sekunder att putsa ersättningen till högglans (Fig.8). Fig. 1: Två amalgamfyllningar som ska bytas ut. Fig. 2: Amalgamfyllningarna är avlägsnade. Fig. 3: Typiska missfärgningar av amalgam är synliga i botten på den större kaviteten. Fig. 4: Fyllning: Applicering av den första skiktet f lytande komposit. Fig. 5: Den andra molaren är komplett fylld, den första molaren behöver ytterligare ett skikt flytande komposit. Fig. 6: Fyllningarna är färdiga. Fig. 7: Fin morfologi och färgmatchning. Fig. 8: Behandlingsresultat efter att kofferdam avlägsnats. Ersättningarna smälter in fint bland granntänderna - med både färg och ytglans. ETT LÄTTANVÄNT ALTERNATIV TILL PASTAKOMPOSITER Användningen av flytande komposit med väl avvägda mekaniska egenskaper kan vara ett bra alternativ till pastakompositer - särskilt i de områden i munnen som är svåråtkomliga. Avancerade möjligheter till färgmatchning, praktiskt taget blåsfri applicering, enkel anpassning och modellering och snabb polering förenklar verkligen livet för tandläkaren. Dentist: JULIEN MOLIA Dr. Julien Molla tog sin examen 2008 med en uppsats om datorassisterad implantologi. Han startade en allmänpraktik i Saint-Jean-de-Luz, där han sedan har fokuserat på implantatkirurgi och käkrekonstruktion. 2017 tog han ännu en examen i implantologi i syfte att uppdatera och fördjupa sim expertis. Han har också fortbildat sig inom digital tandvård, ortodontiska miniskruvar och mukogingival kirurgi. Då han är hängiven vävnadsbevarande tandvård har han fått privat undervisning av Drs. Gil Tirlet och Jean-Pierre Attal i Paris. Dr. Molla är en av grundarna till The French Southwest Bio Team, en samarbetsgrupp hängivna klinisk forskning och innovation.
Clinical Cases, Labside A dynamic duo for natural-looking, functional restorations 23 sep. 2025 Case by Kostia Vyshamirski, DT KATANA™ Zirconia YML AND CERABIEN™ MiLai Virtually every patient in need of restorative treatment desires functional restorations with an aesthetic appearance. However, the individual expectations and needs may be very different depending on the clinical situation (state of the natural tooth structure, parafunctional behaviour, periodontal health etc.), the patient’s financial resources and personal preferences. A versatile material combination fulfilling many different needs and desires is KATANA™ Zirconia YML finished using micro-layering with the new CERABIEN™ MiLai (both Kuraray Noritake Dental Inc.). This system supports low invasive preparations due to a favourable minimum wall thickness of the merely monolithic multi-layered zirconium oxide prosthesis and a minimal thickness of the porcelain layer in the aesthetic zone. Moreover, the high strength zirconium oxide prosthesis combined with only a very thin layer of porcelains makes this technique extremely useful in patients with parafunctional habits like bruxism. Last but not least, consisting of a carefully compiled selection of internal stains and porcelain shades, CERABIEN™ MiLai supports the creation of individual 3D shade effects that mimic those of natural teeth even when space is limited. The following case example reveals how this is possible. INITIAL SITUATION The patient presented with concerns related to both function and appearance. During the diagnostic phase, it was determined that increasing the vertical dimension of occlusion (VDO) and creating a wax-up in the new jaw position would be necessary to improve both the occlusion and the aesthetic appearance of the smile. Fig. 1. Intraoral scan of the maxillary teeth revealing severe tooth wear. Fig. 2. Intraoral scan of both jaws confirming the need for an increase of the VDO. Fig. 3. Intraoral scan: Occlusal view of the maxillary teeth. TREATMENT PLANNING AND COMPUTER-AIDED DESIGN Following the approval of the wax-up, the treatment plan was created. It consisted of restoring the four anterior incisors with zirconia crowns and performing direct composite restorations on the posterior and lower teeth. To conserve as much of the healthy tooth structure as possible, the space created was aligned to the required wall thickness of the planned restoration (framework + micro-layer of porcelain in the vestibular areas only). Following an aesthetic analysis, the crowns were designed with a minimal vestibular cutback. This was due to the patient’s functional problems, which would increase the chipping risk in case of using a more heavy cutback design with a thicker, more conventional porcelain layer. KATANA™ Zirconia YML offers exceptional aesthetics, requiring only a 0.3 mm reduction for the porcelain to achieve natural results. Therefore, it was the logical material choice for this specific case. Fig. 4. Minimally invasive preparations for the crowns. Fig. 5. Occlusal view of the preparations. Fig. 6. Aesthetic analysis – a crucial step for achieving the desired new smile. Fig. 7. Frontal view of the crowns in their final cutback design. Fig. 8. Lateral view of the crowns in the CAD software. CROWN PRODUCTION Immediately after milling, the zirconia surface was treated with effect liquids. This kind of pre-sintered characterization helps enhance the characteristics of zirconia restorations. In the presented case, orange stain was applied to the cervical area, while a blue stain was used at the incisal edge. In addition, a white opaque liquid was applied to the inner surface of the central zirconia crowns to block out any discolouration from the underlying tooth structure. Following final sintering, the vestibular layer of porcelain was built up with CERABIEN™ MiLai using a combination of internal stains and porcelain micro-layering. After morphological adjustments and surface polishing, the restorations were completed by applying CERABIEN™ ZR FC Paste Stain and Glaze. Final polishing was then performed to enhance the natural appearance of the surfaces. Fig. 9. Effect liquids applied to the cervical and incisal areas of the crowns. Fig. 10. Treatment of the central incisor crowns’ inner surfaces. Fig. 11. KATANA™ Zirconia YML framework after sintering. Fig. 12. CERABIEN™ MiLai Internal Stains and Porcelains. Fig. 13. Prepared vestibular surfaces ready for application of the internal stains. Fig. 14. Application of 0.2-0.3 mm layers of CERABIEN™ MiLai porcelain: CCV2 for the cervical area, LT1 – Creamy Enamel for the main body and luster, LTX at the incisal edge. Fig. 15. Frontal view of the final restorations on the model. Fig. 16. Lateral view of the final restorations on the model. Fig. 17. Polished and glazed palatal surfaces of the crowns. FINAL OUTCOME The finalized restorations showcase great details, crafted with CERABIEN™ MiLai internal stains and porcelains. The result are natural-looking restorations. An additional benefit of using zirconia as a restorative material is its excellent compatibility, which is evident in the healthy gingival conditions. Fig. 18. Restorations in place. Fig. 19. Natural-looking restorations in the patient’s mouth.
Clinical Cases, Labside Meeting high functional and aesthetic demands with all-ceramic concepts 9 sep. 2025 Case by DT Tomas Forejtek, Forejtek Dental Lab and Dr Ladislav Gregor, Sorriso Dental Clinic In prosthodontics, assessing the individual needs and expectations of every patient is a crucial factor on the road to success. When it comes to producing fixed dental prostheses, the art is in tailoring the material combination, framework design and finishing concept precisely to the case-specific functional and aesthetic demands. In this context, the availability of high-performance evaluation tools and the freedom to choose between different variants of high-strength ceramics is worth gold. CASE EXAMPLE Take the case of a middle-aged female patient: She presented with very unsatisfactory metal-ceramic crowns (Fig. 1) and asked for an aesthetic improvement of the situation. The crowns on her maxillary central incisors and the right lateral incisor clearly needed to be replaced not only for aesthetic, but also for functional reasons. As anterior interferences were present and orthodontic treatment was not an option, the decision was made to select a ceramic material with a particularly high strength – KATANA™ Zirconia HT (Kuraray Noritake Dental Inc.) – and to opt for a design that would support the incisal edge with zirconia. Consequently, porcelain layering (with CERABIEN™ ZR, Kuraray Noritake Dental Inc.) would be limited to the vestibular region. The laboratory procedure – including shade determination and reproduction with the aid of the eLAB® shade matching system* – is illustrated in Figures 2 to 9. *The eLAB® system is a registered trademark of Sascha Hein. It is an independent tool for dental shade determination and communication and is not developed or distributed by Kuraray Noritake Dental Inc. Fig. 1. Initial clinical situation. Fig. 2. Situation after removal of the existing crowns and preparation of the tooth structure for the planned all-ceramic restorations. Fig. 3. Shade determination with the eLAB® system. Fig. 4. Layering map for the use of CERABIEN™ ZR on all three crowns. Fig. 5. Layering procedure: Shade verification. Fig. 6. Try-in of the crowns to assess the fit and the shade match. Fig. 7. Palatal view of the crowns on the model. Fig. 8. Frontal view of the crowns on the model: A natural surface texture is obtained. Fig. 9. Natural look of the restorations. THE RESULTS Fig. 10. Crowns after adhesive cementation with PANAVIA™ V5 (Kuraray Noritake Dental Inc.). Fig. 11. Aesthetic treatment outcome. A precise reproduction of the patient’s tooth shade, despite the challenging individual aesthetics. THE KEY TO SUCCESS: INDIVIDUAL APPROACH, HIGH-QUALITY MATERIALS The present case is a perfect example of an aesthetically and functionally challenging situation that needed an individual treatment approach. By taking into account the patient- and case-specific requirements and using our material-related knowledge wisely, it was possible to develop an adequate treatment plan. High-quality materials and a smartly selected design concept lay the foundation for long-term success. Valuable tools used during porcelain layering (specifically the eLAB® system) – on the other hand – paved the way for a precise reproduction of the patient’s tooth shade, despite the challenging individual aesthetics: The crowns were delivered on the first attempt.
Clinical Cases, Chairside Amalgam replacement with flowable composite 19 aug. 2025 YES, IT WORKS! In the minds of many dental practitioners, it has become firmly established that flowable composites are nice liner or base materials below stronger packable composites and indirect restorations or as a temporization material. Many of them assume, however, that their use is limited due to their poor mechanical properties. A NEW GENERATION OF FLOWABLES Luckily, this is no longer true: Several flowable composites of the latest generation – like CLEARFIL MAJESTY™ ES Flow and CLEARFIL MAJESTY™ ES Flow Universal (both Kuraray Noritake Dental Inc.) – are equipped with mechanical properties, which are on par with those of many packable alternatives. Consequently, the range of indications is extended. For example, CLEARFIL MAJESTY™ ES Flow Universal, has a high filler loading of 75 to 78 wt/%, a flexural strength of more than 150 MPa and a compressive strength exceeding 370 MPa according to the manufacturer. Thanks to its high strength, it serves as a reliable and permanent solution, even suitable for stress-bearing areas such as the occlusal surfaces of posterior teeth. However, this flowable composite has even more to offer: It is available in two levels of flowability – LOW and SUPER LOW – to serve a wider range of personal preferences and individual indication-specific needs and in just two shades (universal and universal dark). The latter offers the benefit of intuitive shade selection even in the anterior area and is enabled by a mixture of shade matching technologies, including optimized light diffusion technology and an enamel-like translucency. The following case example reveals how CLEARFIL MAJESTY™ ES Flow Universal makes my life easier in posterior restoration procedures. CASE EXAMPLE This patient presented for the replacement of two amalgam restorations in the mandibular right molars (teeth # 46 and 47 according to the FDI notation) (Fig. 1). As it would facilitate filling and provide for great adaptation to the cavity walls, it was decided to use CLEARFIL MAJESTY™ ES Flow Universal LOW as the only restorative material. The position of the teeth to be restored made shade selection easy: Shade U (universal) is designed to work perfectly for all posterior restorations. The amalgam restorations were removed and caries was excavated, while saving as much of the healthy tooth structure as possible (Figs. 2 and 3). A selective enamel etching technique was chosen, followed by the application of a universal adhesive (CLEARFIL™ Universal Bond Quick 2, Kuraray Noritake Dental Inc.). Subsequently, CLEARFIL MAJESTY™ ES Flow Universal in the LOW version and the selected shade U was applied into the cavities (Fig. 4). Thanks to the innovative syringe design, the applied flowable composite is virtually free of voids. In line with the instructions for use of the product, the thickness of each layer did not exceed 2 millimetres to provide for a complete cure (Figs. 5 and 6), which has a decisive impact on the long-term performance of the final restorations. Each layer should be thoroughly cured for 10 to 20 seconds (depending on the curing light) before the next layer is applied. As shown in Figure 7, the low flowability of the selected material allows for some modelling of the occlusal surface morphology. When more anatomical details need to be restored, the steadier SUPER LOW variant may be an option. It took just a few seconds to polish the restorations to high gloss (Fig. 8). Fig. 1. Two amalgam restorations to be replaced. Fig. 2. Situation after removal of the existing amalgam restorations. Fig. 3. Typical amalgam staining is visible at the bottom of the larger cavity. Fig. 4. Filling procedure: Application of the first layer of flowable composite. Fig. 5. Second molar already filled, first molar in need of another layer of flowable composite. Fig. 6. Filling completed. Fig. 7. Nice surface morphology and shade blend-in. Fig. 8. Treatment outcome after rubber dam removal. The restorations blend in nicely with the surrounding dentition – qua shade and surface gloss. EASY-TO-USE ALTERNATIVE TO PACKABLE COMPOSITES Especially in difficult-to-reach areas in the mouth, the use of a flowable composite with well-balanced mechanical properties can be a nice alternative to packable ones. Advanced shade-matching abilities, virtually void-free application, easy adaptation and modelling, and quick polishing truly simplify the life of the dental practitioner. However, many assume their use is limited due to poor mechanical properties. JULIEN MOLIA Dr. Julien Molia graduated in 2008 with a thesis on computer-assisted implantology. He established a general dental practice in Saint-Jean-de-Luz, where he has since focused on implant surgery and jawbone reconstruction. In 2017, he completed a second university degree in implantology to update and deepen his expertise. He has also pursued advanced training in digital dentistry, orthodontic miniscrews, and mucogingival surgery. Committed to tissue preservation, he trained privately with Drs. Gil Tirlet and Jean-Pierre Attal in Paris. Dr. Molia is a founding member of the French Southwest BioTeam, a collaborative group dedicated to clinical research and innovation.
Clinical Cases, Labside Micro-layering: are there benefits of using a dedicated porcelain system? 12 aug. 2025 Case by Andreas Chatzimpatzakis When dental technicians from all over the world started using the micro-layering technique, they simply combined a reduced number of porcelains and stains from their original porcelain system. After some time, porcelains specifically designed for micro-layering were introduced to the dental market. Consequently, early adopters had to decide whether or not to switch to one of those new systems. For me as a frequent user of CERABIEN™ ZR (Kuraray Noritake Dental Inc.), a porcelain system based on synthetic feldspathic porcelain developed for porcelain layering on zirconia frameworks, switching to any micro layering porcelain system was not an option. However, when I had the chance to test the brand-new CERABIEN™ MiLai porcelains and internal stains (Kuraray Noritake Dental Inc.), I grabbed it for two reasons. Firstly, the simplicity! I was surprised how easily I could achieve a high aesthetic result without using too many different ceramic powders. Secondly with this system, I have a micro-layering porcelain system at my disposal that works for both, zirconia and lithium disilicate. Farther more, the product is well-aligned to CERABIEN™ ZR – and offers a very similar handling. CASE EXAMPLE The following case is a nice example of how it may be used in the anterior region. The male patient had already been treated with monolithic zirconia crowns from another dental laboratory in the posterior region. Now, he desired a maxillary anterior smile makeover due to discoloured composite restorations and signs of tooth wear. The decision was made to produce six veneers with frameworks made of lithium disilicate (Amber Press), individualized with CERABIEN™ MiLai using the micro-layering technique. I would like to thank the prosthodontist Dr Konstantina Aggelara for the excellent collaboration and the intra oral photos. For layering, I simply applied CERABIEN™ MiLai Value Liner 1. Then, I used CCV2 in the cervical and Tx in the incisal area, as well as Liner 2 for the mamelons. Internal stains were applied after the first bake. Subsequently, the canines were completed with LT1. The lateral and central incisors were built up with LT1 in the cervical area, Creamy Enamel on the marginal ridges and the middle and E2 mixed with Tx in the ratio 70/30 in the incisal area. Fig. 1. Initial situation: The patient was unhappy with his lip line and facial appearance, … Fig. 2. … particularly due to discoloured composite restorations and severe wear in the maxillary anterior region. Fig. 3. Shade determination after tooth preparation. Fig. 4. Restorations produced with Amper Press (Shade LT A2), individualized with CERABIEN™ MiLai. Fig. 5. Lateral view: The internal play of colours (internal stains) creates a nice effect. Natural shading and surface texture. FINAL SITUATION Fig. 6a and 6b. Restorations placed in the patient’s mouth. THE PERFECT COMPLEMENT TO MY STANDARD PORCELAIN SYSTEM As hoped, CERABIEN™ MiLai offers similarly great handling properties as CERABIEN™ ZR – probably mainly due to the fact that it is also based on synthetic feldspathic ceramic. It is not only responsible for consistent handling, but also for predictable optical properties, eliminating unwanted shadow effects. As the system is designed for micro-layering, it offers a natural appearance when applied in thin layers. This fact – in addition to the broader compatibility (to high-strength oxide and silicate ceramics) – makes it worthwhile to consider using a specific porcelain system for micro-layering. Experience shows that it works just as well on zirconia as it does on lithium disilicate, so that combining both framework materials in a single patient becomes a lot easier, while the line-up is neat.
Clinical Cases, Chairside Restoring confidence after trauma: a biomimetic approach 22 juli 2025 Case by Dt. Koray Kendir, DDS, Turkey (İzmir) INTRODUCTION Trauma-related fractures of anterior teeth require a precise balance between aesthetics and function, often under emotional pressure from the patient. This clinical case demonstrates the restorative rehabilitation of a previously mismanaged central incisor using CLEARFIL MAJESTY™ ES-2 Premium and PANAVIA™ V5 (both Kuraray Noritake Dental Inc.). The team followed a biomimetic approach to re-establish biological, functional, and aesthetic harmony. CASE SUMMARY A 23-year-old female patient presented one month after a traumatic injury involving tooth #11 (FDI notation). Immediate root canal treatment and a direct composite build-up had been performed elsewhere in a single visit. The existing restoration showed poor aesthetics and marginal adaptation (Fig. 1). Fig. 1. Initial clinical situation. CLINICAL PROCEDURE STEP 1: ISOLATION AND REMOVAL OF OLD RESTORATION For the planned rehabilitation, the tooth was isolated with rubber dam (Figs. 2 and 3) and the existing composite restoration was removed. Gutta-percha from the previous endodontic treatment was found to be severely coronally trimmed (Fig. 4). This poses a risk of future discolouration. Consequently, the gutta-percha was condensed apically to a more biologically appropriate level using a downpack device (Figs. 5 to 9). Fig. 2. Isolation of the working field with rubber dam: Labial view. Fig. 3. Isolation of the working field with rubber dam: Occlusal view. Fig. 4. Gutta-percha from the previous treatment. Fig. 5. Gutta-percha removed, … Fig. 6. … placed back into the root canal … Fig. 7. … and condensed … Fig. 8. … with a downpack device. Fig. 9. Result of the procedure: Occlusal view. STEP 2: CORE BUILD-UP Subsequently, a fiber-reinforced composite was used to provide root-anchored support for the core structure. Then, the bonding surface was treated with phosphoric acid etchant, CLEARFIL™ Universal Bond Quick (Kuraray Noritake Dental Inc.) was applied as a universal adhesive and the core build-up was performed with CLEARFIL MAJESTY™ ES-2 Premium A1D (Figs. 10 to 13). Fig. 10. Etching with phosphoric acid etchant. Fig. 11. Application of the universal adhesive. Fig. 12. Core build-up after thorough light curing. Fig. 13. Intra-oral periapical radiograph or the treated tooth. STEP 3: PREPARATION AND DIGITAL IMPRESSION For definitive restoration, a 3/4 crown preparation was performed and an intraoral scan was taken. Moreover, a temporary crown was fabricated (Fig. 14) and shade photos were taken to finalize the session. Fig. 14. Temporary restoration in place. STEP 4: FINAL CEMENTATION Once the lithium disilicate restoration was received from the laboratory, the temporary crown was removed and the abutment tooth was evaluated (Figs. 15 and 16). Try-in was performed using PANAVIA™ V5 Try-in Paste White to check shade and fit (Fig. 17). No modifications were required; the selected try-in paste contributed to a lifelike appearance of the restoration. For definitive placement, the intaglio surface of the crown was etched with hydrofluoric acid (Fig. 18). Figure 19 shows the appearance of the intaglio after this measure. To provide for optimal bonding conditions, the tooth surface was then cleaned with KATANA™ Cleaner (Kuraray Noritake Dental Inc.), which should be applied with a rubbing motion to the contaminated prepared tooth for more than ten seconds (Figs. 20 to 22). It may also be used to clean the intaglio of a restoration, which is contaminated with blood and saliva e.g. after try-in. Fig. 15. Situation after removal of the temporary crown: Labial view. Fig. 16. Situation after removal of the temporary crown: Occlusal view. Fig. 17. Try-in of the lithium disilicate crown. Fig. 18. Etching of the crown’s intaglio surface with hydrofluoric acid. Fig. 19. Appearance of the etched surface. Fig. 20. Cleaning of the abutment tooth … Fig. 21. … surface covered with the cleaning agent. Fig. 22. Thorough rinsing, which should be followed by drying with air. Adhesive cementation itself was accomplished with the three-component PANAVIA™ V5 (Figs. 23 to 28): The prepared tooth structure and build-up was treated with PANAVIA™ V5 Tooth Primer, the intaglio surface of the crown with CLEARFIL™ CERAMIC PRIMER PLUS. Finally, PANAVIA™ V5 Universal (White) was extruded into the crown and the crown placed. Excess cement is best removed in the gel phase – i.e. after brief polymerization for 3 to 5 seconds before final light curing is performed. Alternatively, it may be removed immediately after seating the restoration with a brush or similar instrument. In this case the first option was chosen. The treatment outcome after rubber dam removal and final clinical and aesthetic evaluation is displayed in Figure 29. Fig. 23. Priming of the tooth structure. Fig. 24. Selected resin cement. Fig. 25. Tooth structure ready for crown placement. Fig. 26. Restoration in place. Fig. 27. Lateral view of the restoration. Fig. 28. Final light curing of the crown. Fig. 29. Treatment outcome immediately after rubber dam removal. CONCLUSION This case highlights a comprehensive restorative approach to preserving a traumatized anterior tooth at risk of loss, while restoring both function and aesthetics. The strong core foundation provided by CLEARFIL MAJESTY™ ES-2 Premium and the reliable adhesive performance of PANAVIA™ V5 played a pivotal role in the successful procedure and outcome.
Clinical Cases, Labside Micro-layering on lithium disilicate 8 juli 2025 Case by Francesco Ferretti, MDT Is it possible to produce lifelike porcelain veneers using lithium disilicate and a porcelain system with a reduced number of internal stains and porcelains designed for micro-layering? This is what we wanted to find out when we decided to test the new CERABIEN™ MiLai line-up. As loyal users of the CERABIEN ZR family for porcelain layering on zirconia, we hoped that the new product would offer similar handling and optical properties. The CERABIEN™ MiLai line-up consists of 15 internal stains and 16 porcelains, which are - like CERABIEN ZR - based on synthetic feldspathic porcelain technology from Kuraray Noritake Dental Inc. With a comparatively low firing temperature of 740 °C (or 1,364 °F), the system may be used on zirconia as well as silicate ceramic restorations, provided that the CTE value of the materials is between 10.2 and 10.5 × 10-6/K (50 °C – 500 °C). This is true for lithium disilicate, our preferred base material for the production of ceramic veneers. The thickness of the porcelain layer is usually smaller than 0.5 mm, which allows us to exploit the aesthetic potential of the underlaying ceramic, while creating some individual effects for the underlying structure and the enamel. A clinical case predestined for the use of the new system is shown below. Fig. 1. Young male patient with discoloured composite restorations on his maxillary central incisors. Fig. 2. The patient was unhappy with his smile aesthetics, so that it was decided to place more durable ceramic veneers. Fig. 3. Appearance of the central incisors after minimally invasive tooth preparation. Fig. 4. Veneers made of lithium disilicate individualized with CERABIEN™ MiLai placed on the model. Fig. 5. Intraoral view of the teeth after adhesive cementation of the veneers. Fig. 6. Close-up view of the anterior teeth. Fig. 7. Smooth optical integration of the veneers: They show some individual effects and are virtually indistinguishable from natural tooth structure of the adjacent lateral incisors. Fig. 8. Black-and-white photograph of the maxillary anterior teeth. Fig. 9. Smile aesthetics. Fig. 10. Beautiful treatment outcome. COMPACT SYSTEM The compact line-up of CERABIEN™ MiLai with its nicely developed internal stains and porcelains enables us to imitate the patient’s natural teeth very well in the great majority of cases. Shades are easily selected and the favourable consistency of the porcelains facilitates application in thin layers. Due to the reduced thickness of the porcelain layer, it is possible to play with the optical properties of the underlying lithium disilicate, creating a final restoration with a natural appearance despite the simplified procedure. Dentist: FRANCESCO FERRETTI, MDT Born in Rome on March 15, 1957, Francesco Ferretti received his dental technician diploma from the Edmondo de Amicis Institute in Rome and began working independently in 1980. His dental career has been versatile and impressive - working under Prof. Mario Martignoni, being partner at ORAL DESIGN Center in Rome (founded by Mr. Willi Geller and Mr. Francesco Felli) and having his own Estech Dental Studios, are just some of the highlights. He taught the advanced course in prosthesis at the University of Chieti from 2002 to 2010 and the postgraduate course in prosthesis at the University of Naples Federico II in 2007. He has been using metal free methods for more than 30 years, specialized in prosthesis and implants, has published articles and research in Italian, American, Russian and Asian magazines and has been a speaker at various international conferences and courses.
Clinical Cases, Labside Full and Partial Laminate Veneers: An Aesthetic Treatment Option 24 juni 2025 Case by DT Dumitru Leahu Aesthetically motivated restorative treatments are steadily gaining popularity. White teeth following the American example, ideal proportions and a natural surface texture is what many patients request when presenting at a cosmetic dental practice. In those cases, the particular challenge is in selecting a treatment that enables the restorative team to meet the patient’s expectations without harming the otherwise healthy tooth structure. This was exactly what we tried to accomplish in the presented case of a young man who was unhappy with the appearance of his maxillary anterior teeth. The existing veneers on his maxillary central and lateral incisor did not have the desired colour and shape. Hence, the patient expressed the wish to replace the restorations and do what would be needed for a bright, natural and youthful smile. Fig. 1. Initial clinical situation: Smiling patient. Fig. 2. Appearance of the maxillary incisors with restorations that do not meet the patient’s aesthetic demands. TREATMENT OPTIONS AND TREATMENT PLAN To improve the young patient’s smile aesthetics, a replacement of the existing veneers seemed most appropriate. To provide for a perfect dental and facial harmony, we decided to produce laminate veneers using the refractory die technique for all six maxillary anterior teeth. However, full veneers were only planned for those teeth that had already been prepared for the existing restorations. In the canine region, we opted for an even more conservative approach: Two non-prep feldspathic partial veneers with infinity margins were to be produced. CLINICAL PROCEDURE For this purpose, the old restorations were removed and the previously prepared teeth were refined with rotary instruments to develop ideal veneer preparations with smooth surfaces and well-defined finish lines. The margins were located supragingivally instead of subgingivally to increase the simplicity, accuracy and predictability of clinical procedures like impression taking and adhesive cementation. The marginal fit and long-term stability of the restorations are also likely to be improved by placing this measure, which is, on top, less invasive and hence healthier for the patient. The surface of the canines was merely roughened. To get a clear picture of the patient’s aesthetic expectations, the dental practitioner took an impression, which was send to the dental laboratory. Here, we developed a wax-up, which was transferred into the patient’s mouth in the form of a mock-up. This mock-up served as a temporary restoration and allowed us to evaluate the shape, surface texture and shade of the planned restorations in situ. In consultation with the patient, the mock-up was modified slightly, while the information about the approved shape, texture and shade was transferred back into the laboratory via images and a preliminary impression. Fig. 3. Temporary restoration in the patient’s mouth. Fig. 4. Situation after tooth preparation with supragingival preparation margins. TECHNICAL PROCEDURE Based on the precision impression, a master cast was produced. This cast served as the basis for the production of removable dies and a high-precision alveolar model. Finally, the dies were duplicated using the refractory die material NORI-VEST (Kuraray Noritake Dental Inc.) needed for veneer production with the desired technique. On those dies, the preparation margins were marked with a pencil, while the surface that would come in contact with the porcelain was treated with a plaster separating agent to facilitate removal of the veneers from the model. Fig. 5. Dyes placed in the impression. Fig. 6. Stone Super Rock EX type IV for production of the alveolar model. Fig. 7. High-precision alveolar model with six separate removable dies. Fig. 8. Model with duplicated refractory dies, marked irregular preparation margins and separator liquid on the surfaces. Then, the first layer of synthetic feldspathic porcelain (CERABIEN™ ZR Opacious Body White, Kuraray Noritake Dental Inc.) was applied. After the initial bake, a second layer of Opacious Body, which allows a shining through of the original tooth colour, was used to build up the integration structure. Following the second bake and assessment of the available space with the aid of a silicone index, we built up the cervical, body and incisal areas with the respective porcelains (A1B, CCV-1, and Enamel 1), before a final layer of Luster (LTX and ELT3) was applied. Morphological corrections were carried out after the final bake, and the essential anatomical surface details including line angles, cervical portion and incisal grooves were marked with coloured pencils. This served the purpose of integrating the desired natural surface texture into the laminate veneers with rotating instruments (PA and PB rubbers, from SHOFU). When it comes to checking the final surface details, the application of golden (Eyes Texture from MPF) texture powder offers valuable support in order to see the imperfections of surface and to correct it. It clearly reveals all the surface cracks, tiny grooves and other characteristic effects. Final polishing was accomplished with MPF all bright Diamond Paste, followed by self-glazing bake program with CERABIEN™ ZR FC Paste Stains in order to add some effects. Fig. 9. Second layer of CERABIEN™ ZR Opacious Body applied to create integration and mamelons. Fig. 10. Evaluation of the available space using a silicone index. Fig. 11. Building up of the cervical and body areas. Fig. 12. Surface of the veneers marked with coloured pencils: Vestibular view. Fig. 13. Surface of the veneers marked with coloured pencils: Occlusal view. Fig. 14. Evaluation of the created surface details using MPF Eyes texture. Fig. 15. Palatal view of the veneers with texture powder. In Figures 16 to 18, the final restorations are shown on the alveolar model. The veneers and partial veneers restore the maxillary anterior teeth to their optimal proportions. While the shade of the restorations is quite bright as desired by the patient, the natural shape and surface texture will make a major contribution to a natural and aesthetic harmony. Looked at separately, the minimal thickness of the veneers and partial veneers is revealed (Fig. 19). The margins are extremely thin, so that even the partial veneers will allow for a smooth optical integration without any visible finish line (infinity margin). Fig. 16. Finished full and partial veneers on the model. Fig. 17. Detailed view of the first quadrant. Fig. 18. Detailed view of the second quadrant. Fig. 19. Extremely thin veneers and partial veneers. ADHESIVE CEMENTATION AND FINAL OUTCOME After successful try-in, the adhesive surfaces of the restorations were treated with a buffered nine percent hydrofluoric acid (Ultradent™ Porcelain Etch) for 90 seconds according to the manufacturer’s instructions. During this step, it is extremely important to observe the recommended protocol, as excessive etching may weaken the ceramic structure. Subsequently, the teeth were cleaned and the veneers then adhesively cemented starting with the two central incisors and proceeding one by one. The selected light-curing adhesive cementation system (Variolink Esthetic LC) includes a universal restoration primer, phosphoric acid and a universal adhesive for the tooth structure. For restorations with limited light penetration, the use of dual-cure resin cement might be beneficial. The treatment outcome is shown in Figures 20 to 24. Fig. 20. Portrait picture of the patient after treatment. Fig. 21. Close-up of the patient’s smile. Fig. 22. Lateral view of the new smile from the right. Fig. 23. Lateral view of the new smile from the left. Fig. 24. Overall optical integration of the veneers in the anterior region of the maxilla. Fig. 25. Close-up of the final treatment outcome confirming a smooth transition from restorations to tooth structure and harmonic pink and white aesthetics. CONCLUSION The described conservative treatment approach can be challenging as the produced full and partial veneers are extremely thin. Especially during try-in and adhesive cementation, care must be taken not to break them. At the same time, however, the full and partial veneers are a great option particularly for young patients asking for cosmetic dental treatment. They allow for minimally to non-invasive tooth preparation, while it is possible to play with the proportions and shade of the teeth. Even the colour of the underlying dentin can be nicely revealed for a more vivid appearance, and a smooth transition from natural tooth structure to restoration can be achieved even if the finish line is in no way hidden by the gums. In the present case, the restorative team succeeded in restoring the young patient’s smile in a bright and natural way – giving him exactly the smile he desired.
Clinical Cases, Labside Powder ceramics redesigned for micro-layering 27 maj 2025 Case by MDT Andreas Chatzimpatzakis EFFECTIVE FINISHING OF A ZIRCONIA FRAMEWORK WITH CERABIEN™ MiLai ‘Modern concepts are based on the smart combination of different materials.’ The implant-prosthetic restoration of edentulous jaws requires more than functional stability. Modern concepts are based on the smart combination of different materials. In the presented case, a titanium bar provides for a stable connection between the implants, while a zirconia framework offers the necessary strength and fracture resistance. Both materials stand out due to their high biocompatibility, the good soft tissue attachment properties of zirconia being particularly noteworthy. The real challenge in the selected type of restoration, however, begins with aesthetic realization. Micro-layering techniques promise efficiency combined with aesthetics – but this often comes with compromises, e.g. in terms of handling. With CERABIEN™ MiLai (Kuraray Noritake Dental Inc.), a new path is now being taken here. MDT Andreas Chatzimpatzakis, Athens The rapid development of all-ceramic framework materials such as zirconia and lithium disilicate calls for new veneering concepts. CERABIEN™ MiLai (Kuraray Noritake Dental inc.) picks up on the strengths of classic powder ceramics and optimizes them for the requirements of micro-layering – the reinterpretation of a classic, so to speak. The basis for this is provided by synthetic feldspathic ceramic technology, in which Kuraray Noritake Dental Inc. has decades of experience. The company developed its first synthetic dental ceramics back in the late 1980s – expertise that is now also used in the low-fusing porcelain system CERABIEN™ MiLai for micro-layering. Unlike natural feldspathic ceramics, the synthetic version provides for consistent properties without the need to adjust the formulation due to altering raw materials. This is reflected in stable coefficients of thermal expansion and a uniform particle distribution; prerequisites for aesthetic results and colour stability. Another decisive advantage is evident during the firing process: the special composition prevents micro-movements in the material during firing, which can lead to inhomogeneities and gray haze effects with conventional ceramics. This property is indispensable for micro-layering, as any irregularity, no matter how small, would be immediately visible in the thin ceramic layers. INITIAL SITUATION The presented case illustrates the technical procedure around the restoration of an edentulous maxilla. The prosthetic work was produced after the placement of six implants and their osseointegration. In consultation between the practice team around prosthodontist Dr Georgios Siavikis, laboratory technician and patient, the decision was made to restore the teeth with a bar-supported bridge construction. A CAD/CAM-fabricated titanium bar (Atlantis® BridgeBase, Dentsply Sirona) formed the basis. Due to its high manufacturing precision, it would provide for a passive fit of the reconstruction on the implants. The material of choice for the superstructure was zirconia, which was to be finalized using micro-layering due to the patient’s high aesthetic demands. Fig. 1. Computer-aided design of the implant bar. Fig. 2. Computer-aided design of the zirconia framework – transparent view revealing the BridgeBase. Fig. 3. Computer-aided design of the zirconia superstructure. WHY CHOOSE MICRO-LAYERING? The decision to opt for micro-layering is based on tangible benefits: In addition to economic efficiency, the thin layer of porcelain provides a high level of safety and significantly reduces the risk of chipping. In addition, the ultra-thin porcelain layer enables a controlled approach to porcelain layering. However, we must be aware that with micro layering, around 80 to 90 percent of the restoration’s final shape is already created in the framework. Although this leads to maximum control during layering, it also places high demands on the selected framework material. With porcelain layer thicknesses in the micro range, the zirconia needs to be convincing in terms of aesthetics and mechanical strength. For our long-span bridge construction, we chose KATANA™ Zirconia HTML Plus (Kuraray Noritake Dental Inc.), a material that combines high strength with natural translucency. We deliberately opted for a disc in the shade A2 – one shade lighter than the desired target shade A3. This strategic choice enabled us to play with the colours during layering and implementation of the internal stain technique. Fig. 4. Multi-Layered zirconia with a high strength and translucency used as a framework material. WHY OPT FOR INTERNAL STAINING? The internal stain technique is no longer an insider tip, but is one of the supreme all-ceramic disciplines. Kuraray Noritake Dental Inc. has perfected the technique over decades together with dental technicians. We particularly value the technique in our day-to-day laboratory work, as it gives restorations an individual touch that sets them apart from standard work. Unlike superficial stains, the internal staining creates a characterization from inside the restoration with a lively play of colours that unfolds naturally in changing light conditions. Until now, it has been challenging to combine the advantages of the internal stain technique with those of micro-layering. Although we have put various approaches to a test and detected solutions that do work, we have always come up against technical limitations. The combination of both techniques – micro-layering and internal staining – places special demands on the porcelain system: It needs to allow characterization from the inside and at the same time be able to be processed in ultra-thin layers. CERABIEN™ MiLai closes the previous gap. As a low-fusing porcelain system, it combines the advantages of the internal stain technique with the efficiency of micro-layering. Being a powder-based porcelain system, the product may be used in the familiar way – only much more efficiently. The possibility of adjusting the consistency to individual needs gives us the precise control we need for minimal layer thicknesses. With 16 porcelains and 15 internal stains, the system remains manageable without compromising on design. Fig. 5. The low-fusing porcelain CERABIEN™ MiLai is designed for micro-layering on zirconia and lithium disilicate. FRAMEWORK PREPARATION After milling and sintering, the framework in its cut-back design was processed systematically: The first step was to treat the zirconia surface with a diamond bur – under water cooling to avoid microcracks. In this phase, it is also possible to incorporate fine anatomical details such as mamelon structures or marginal ridges. To provide for a strong bond, the surface of the framework was then sandblasted with 50 μm alumina particles. In this context, it is important to apply a moderate pressure that conditions the surface without weakening the structure. Framework preparation was completed with ultrasonic cleaning for ten minutes. All this created the basis for a reliable bond between the framework and the veneering porcelain. Fig. 6. Zirconia framework prepared for finishing. INTERNAL STAINING MEETS MICRO-LAYERING Next on the list was internal staining. It is often the smallest details that have the biggest effect – be it a prominent marginal ridge or an intensive cervical colouration. Sometimes, however, less is more. It is often a question of the dental technician’s artistic sensitivity and – of course – the individual situation. In this case, Tissue Red was used for a vivid effect of the gingival areas, while a combination of Cervical 2, Incisal Blue 1 and Mamelon 2 was chosen to give the teeth a three-dimensional depth effect. Subsequent micro-layering was carried out selectively: CCV2 in the cervical area, Creamy Enamel for lighter margins and LT1 for the desired standard translucency and opalescence. The gingiva was given its natural depth through a sophisticated interplay of shades and shapes – with a base of Tissue 1 and 5, while the keratinized areas were given their characteristic appearance with a 60/40 mixture of Tissue 1 and TX. Fig. 7. Internal staining: Targeted application of the stains on the framework as the basis for the three-dimensional colour effect of the restoration. Fig. 8. Micro-layering: Ultra-thin layering on the characterized framework gives the restoration its final shape and light dynamics. What followed was the first bake. CERABIEN™ MiLai is a low-fusing porcelain. Its firing temperature of 740 °C is not only the enabler of its compatibility with various framework materials (zirconia, lithium disilicate), but also reduces the risk of distortion or micromovements causing unwanted changes in shape during repeated firings. Minor shape corrections were made after the first bake. In this step, a particular advantage of powder ceramics in micro-layering becomes apparent: they allow for precise modelling of even the finest structures and textures. The surface structure with its lively textures gives the work its natural appearance. The final glaze firing leveraged the self-glazing effect of CERABIEN™ MiLai. Fig. 9. Occlusal view of the finished restoration. Fig. 10. Clearly visible internal colour characteristics. Fig. 11. Lively surface structure with interplay of concave and convex areas both in the area of the teeth and the gingiva. Fig. 12. Restoration in situ; edentulous maxilla with an implant-based zirconia bridge. The patient’s wishes regarding individual aesthetics are fulfilled thanks to internal staining and micro-layering (CERABIEN™ MiLai) – effectively, economically and safely. EFFECTIVE AND FLEXIBLE In the case presented, we combined the internal stain technique with micro-layering to fulfil the patient’s individual aesthetic demands. However, CERABIEN™ MiLai is just as suitable for micro layering without internal staining – fast, straightforward and effective. And this is precisely the advantage of this system: it offers the flexibility to go your own way – tailored to the respective situation and to the framework material (zirconia and lithium disilicate), eliminating the need to store different porcelain systems. Particularly useful: CERABIEN™ MiLai can be combined with the tried-and-tested CERABIEN™ ZR porcelain. Thanks to the low firing temperature, areas that have already been layered remain stable in shape and colour. The high versatility makes CERABIEN™ MiLai our preferred system for effective micro-layering. MiLai YOUR WAY – we have found our way with it and know that we have the right solution for every case. ‘THE HIGH VERSATILITY MAKES CERABIEN™ MILAI OUR PREFERRED SYSTEM FOR EFFECTIVE MICRO-LAYERING.’
Clinical Cases, Labside Made for lithium disilicate 13 maj 2025 Case by Andreas Chatzimpatzakis PUTTING CERABIEN™ MiLai TO THE TEST Nowadays, lithium disilicate and highly translucent variants of zirconia are among the most popular ceramic materials processed in the dental laboratory. Their favourable optical properties allow us to opt for simplified finishing approaches such as micro-layering in a great majority of cases. For dental technicians, this means a reduction of the manual workload without compromising the quality of the outcomes. Recently, Kuraray Noritake Dental Inc. has launched a new set of porcelains and internal stains specifically developed for micro-layering, which works not only with zirconia but also with lithium disilicate. The CERABIEN™ MiLai line-up consists of 16 porcelains and 15 internal stains, which – the manufacturer claims – are easy to select and manage. As the more universal approach with a single porcelain for silicate ceramics and zirconia enables us to streamline inventory management and to standardize layering procedures, we decided to test the new product in the laboratory setting. The following case is a documentation of the first try of CERABIEN™ MiLai on lithium disilicate (Amber Press, HASS Bio). Fig. 1. Anatomically reduced crown structures made of lithium disilicate (Amber Press LT, shade A2). Fig. 2. Crowns after the application of CERABIEN™ MiLai Value Liner 1 generally used to increase the value of lithium disilicate restorations, followed by wash firing. Fig. 3. Situation after CERABIEN™ MiLai Internal Stains: A+ is applied in the cervical area to enhance the chroma, and Mamelon Orange 2 alternating with Incisal Blue 1 are used to imitate the mamelon structures in the incisal area. Fig. 4. Crowns after the first and second bake with CERABIEN™ MiLai Porcelain LT1 applied in the cervical area to add translucency and opalescence to the enamel, E2 mixed with ELT (ratio: 60/40) to optimize the body area and LTx to boost the incisal translucency and opalescence. Fig. 5. Restorations finalized with CERABIEN™ ZR FC Paste Stain Clear Glaze and external stains to add some lines incisally. Fig. 6. Lateral view of the restorations. Fig. 7. Natural translucency and internal optical structure revealed in transmitted light. CONCLUSION The outcome achieved at the first go with the CERABIEN™ MiLai line-up for micro-layering on lithium disilicate is very satisfying. I feel that we can achieve great results with this system, which is indeed easy to select and manage. The reduced number of shades clearly comes in handy especially for beginners, who will be grateful for the option of creating lifelike restorations with fewer decisions to be made, and less effort involved compared to conventional ceramic line-ups. The possibility of standardizing and streamlining procedures by using a single porcelain system for all micro-layering procedures is likely to improve the life of every dental technician.