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3rd International Annual Meeting of the International Academy for Digital Dental Medicine - How far digital?
3rd International Annual Meeting of the International Academy for Digital Dental Medicine
"How far digital?"

08.12.2017 - 09.12.2017
Marriott Hotel Berlin, Berlin, Deutschland

Zielgruppe: Zahnärzte

Quintessenz Verlags-GmbH
Wissenschaftliche Leitung:
Prof. Dr. Wael Att, Dr Esam Ahmed Tashkandi BDS MS FDS RCS PhD
Freitag, 08.12.2017
Possibilities of zirconia restoration with CEREC , Dr. Tim Nolting, Dentsply Sirona
Full contour zirconia has become a very popular material in dental offices due to its high flexural strength, biocompatibility and tissue-conserving preparation.

This workshop gives an overview of the material-specific aspects with regard to crown, bridge and implant restorations. Moreover, characterization options are discussed, with a focus on shade design.
Samstag, 09.12.2017
Welcome Address of the President, Prof. Dr. Carlo P. Marinello
Introduction to Scientific Program, Prof. Dr. Wael Att, Dr Esam Ahmed Tashkandi BDS MS FDS RCS PhD
The digital development has long reached the dental environment. The way we take X-rays , take impressions with Intra oral scanning, doing patient analysis, prepare prostheses in the dental laboratory with desktop scanning, 3D print and milling or are already common practice and are integral part of the way we practice dentistry today and more so in the future.
It is changing rapidly not only the way we practicing dentistry but also the way we are communicating, educating and also running our offices.
Digital support systems will help dentists to guide safer, faster and more efficient through their treatments. At the same time increasing the need to educate, stay up to date and make choices which influence the flow, efficiency and profitability of the office.
The way we stay informed and the way we will chose and purchase products, demand ways to find this information speedily and effectively.
The community of group practices is increasing steadily with the increased need for efficient connectivity.
What choices will dentists have to make in the future to be competitive with globalisation and patient awareness.
The digitally interconnected office and the digitally interconnected community as well as the digitally connected patient offer challenges in the future, change behaviour and certainly offer opportunities for better dentistry and better oral health in the future.
Modern techniques and materials can be useless if the final outcome does not live up to the patient esthetic expectations.
It has always been a challange to create a smile design that the final result would be precisely predicted from day one.. in some cases the dentists do built this design by themselves directly in the patients mouth, however some leave it to the ceramist that they work with.. however more importantly this smile design should also match with the patient's functional, biological and emotional needs...

To obtain such results we need an interdisciplinary team work. Every member of the team (including the specialists, lab technicians and the patient) should be aware of the treatment planning and the end result from the beginning . Having all the above done correctly, major component for the success remains "communication". The key to the aesthetic excellence requires patient communication as well as the communication with the laboratory and the specialists from the beginning of the case till the end.

This becomes even more challenging if the team ( dentist, specialists and the ceramist) do not physicaly work together in the same place.
The protocol that is presented will improve the esthetic diagnosis, the interdisciplinary communication and the predictability of anterior aesthetic implant restorations.
Today, it souldn't be a problem wether the lab, the specialist ect. that you work with is close to your clinic or it is in another country, the digital communication makes everyone work as a synergistic team .
Coffee Break/ Poster Session
This presentation shows a fully digital workflow that is used to fabricate immediate dentures before extractions, perform computer-guided flapless implant placement, convert a denture into a provisional restoration for immediate loading, and fabricate a final restoration in edentulous patients, without the use of conventional impressions and model casting.
Recently, computer-aided design and computer-aided manufacturing (CAD-CAM) technology has been used to fabricate complete dentures and final prosthesis. The information needed for a CAD-CAM restoration in edentulous jaws is acquired extraorally from an impression or from a stone cast using laboratory scanners. This technique has the same deficiencies as conventional impressions and stone casts. To avoid errors in the CAD-CAM production workflow, digitalizing directly from the patient's mouth using intraoral scanners would be more practical. This presentation shows how to get digital impressions of edentulous arches without the use of conventional impressions or stone casts. It also shows how to perform computer-guided flapless implant placement in the edentulous patients without the use of conventional impressions, models or a radiographic guide. Digital data for computer-guided flapless implant placement are acquired using an intraoral scanner and cone-beam computed tomography (CBCT). The digital data are then used to design a prosthetically-driven implant position, surgical template, and CAD/CAM-fabricated dental prosthesis. At the same time, this presentation shows a simple, practical technique to make provisional restorations immediately after implant placement. Finally, it shows a digital workflow for final restorations.
Orthodontics , Prof. Dr. B. Wilmes
Digital technology has changed the way we work in multiple ways also in orthodontics. Orthodontic study plaster models were the center of treatment planning. Nowadays, digital models are gaining popularity due to their advantages over plaster in storing, retrieving, and sharing. Digital technology has changed also the possibilities especially for the use of TADs (temporary anchorage devices). Nowadays, digitally controlled insertion of TADs is possible. If it comes to the treatment and manufacturing of orthodontic appliances, the way we can communicate with our orthodontic labs is much faster using digital technology. Additionally, orthodontic appliances can be CAD/CAM manufactured without any impressions. Last but not least, orthodontic treatment effects can now be monitored three-dimensionally.
As all we know, location, depth and angle of dental implant is so important.
Because most of time, it is impossible to change and also affects final result, long term success, and maintenance.
Recently, many clinicians are using CT-based static surgical guide not only for implant placement but also for simulation before implant placement.
Static guide still have some errors and limitations but better than 'free-hand placement' and also can be used for flapless approach and immediate loading in limited cases.
The digital impression device has become more accurate and popular, so digital Impression of Implants is widely has been used.
For digital impression of implants, there are many different ways to do. We can use scan bodies instead of impression coping or to scan prefabricated abutment directly in the oral cavity that has already registered in CAD/CAM software library in simple case.
The impression using coded healing abutment has also been introduced for a long time ago.
The advantage of this method is that it is possible to make prosthesis during the period of waiting for osseointegration because the timing of impression scan of coded healing abutment is more free than other methods.
In this presentation, I would like to introduce and share digital implant workflow from clinical cases of guided implant placement and various implant digital impressions.
Lunch Break
Since 2001 we are using implant supported full arch zirconia frameworks for the oral rehabilitation of edentulous patients. The workflow has dramatically changed from a more or less analog orientated procedure to a nearly full digital operated prosthodontic treatment concept.
Retrospectively it is of outmost importance to understand and to anticipate the physical properties of the material zirconia. To control the distribution of strain within the framework, to avoid the devastating effects of malocclusion is mandatory. Especially this holds true if a fixed implant based full mouth rehabilitation is the goal of the treatment.
The digital workflow is of superior precision if technological aspects have to be considered. Otherwise there is no doubt, that in regard to biological demands the analog fortification of the digital workflow is one of the keys of success in a complex oral rehabilitation.
Interestingly a new understanding of the neural implications of tooth loss connects neuroscience with the digital dental world and supports strongly the synthesis of a technical-digital and a biological -analog approach in all ceramic full mouth rehabilitations.
Several variables are influencing the long-term outcome of oral rehabilitations. A comprehensive prosthodontic planning of the outline of the framework, the passive fit of a zirconia framework in a sealed gap construction, a perio-prosthetic design for optimal cleansability, a functional pre-treatment concept to avoid functional casualties and the comprehensive digital evaluation and adjustment of the static and the dynamic occlusion have shown to be important in regard to the long-term success of zirconia based full mouth rehabilitations.
As there are so many different reasons for bone loss in the maxilla and mandible, there is often limited bone volume for the placement of implants. Therefore the Surgeon is at a crossroad: bypass the obstacle using short or angled implants or reconstruct the bone defect to achieve the necessary bone height and width for implant placement. Today's new diagnostic technologies that are based on CT/CBCT imaging modalities combined with interactive surgical planning softwares and stereolithographic anatomical biomedical models can create the actual size, shape, and duplicate of a patient's specific jaw-bone to study, plan, and simulate prior to the surgery. Using these technologies the reconstructive surgery will be more simple, fast and safer helping to choose the correct choice of surgical invasiveness. In fact, many times a more invasive reconstructive surgery allows us to place implants of appropriate diameter and length in a correct angulation to coincide with the restorative requirements, and often with a better prognosis over time.
This presentation will define and illustrate a series of new surgical protocols along with the fabrication of novel surgical guides to approach various clinical situations such as sinus augmentation, harvesting bone grafts from donor sites and placement of autologous bone blocks, and also the planning and insertion of zygomatic implants.
Following these protocols will help guide the surgical procedures first in simulation and planning, and then in the execution of every step through advanced and extraordinary technologies to achieve excellent results for our patients.
Nowadays, minimally invasive approach plays a crucial role in dentistry, especially oral surgery.
When we talk about implants and regenerative surgery, we must understand and be able to perform the classical techniques such as sinus lifts, ridge splits and bone block grafts. To do this, adequate knowledge of anatomy and proper surgical skills are essential.
Additionally, less invasive options exist with current technology that can increase the probability of patient acceptance while still providing quality dental care.
For this reason, we are going to analyze guided surgery and immediate loading with a prosthesis on implants in a single step. Recent advances in digital applications for implant dentistry have focused on the integration of the diagnostic phase, surgical implant placement and prosthetic reconstruction. Three-dimensional data is collected prior to treatment initiation that can be used throughout the course of treatment by fusing digital data capture of the intra-oral situation and the patient's anatomic structure. By doing this, crucial information is available to help in arriving at a correct diagnosis and formulate a treatment plan. Subsequent planning is executed without the need for additional CBCT scanning. The prosthetic reconstruction can be planned for in advance, and implants can be delivered precisely using CT based guiding systems. The result is a workflow that mimics how conventional treatment is delivered, while ensuring a better outcome at less cost. Finally, we will demonstrate the use of narrow diameter implants in the place of performing bone augmentation surgery to accommodate larger diameter implants. The use of these narrow diameter implants allows surgical solutions that reduce time and trauma to the patient, as well as versatility in prosthetic rehabilitation. The purpose of our surgery is delivery a correct final prosthesis from the esthetic and functional point of view . In a traditional rehabilitation on natural abutments we have to follow a rigid protocol for obtaining a correct preparation of the natural abutment and also for the preparation and finishing of sub gingival margins well shaped and non traumatic with the preservation of the soft tissues, as well in implant rehabilitation we have to know some prosthetic concepts fundamental to achieve a good outcomes. Therefore the use of Guide surgery and Narrow implant grant us much more solutions not only in implant surgery but also in prosthetic rehabilitation.
Lately, favorable results are seen in many esthetic & functional rehabilitation cases with minimally invasive techniques.
This became possible due to the development of bio-mimetic, advancement in bonding technique, and treatment using the etiological-based approach.
In addition, the use of microscope has allowed us to obtain precise and predictable outcomes of my clinical cases.

The future prospective of minimally invasive full-mouth rehabilitation adapting digital approach would require the following clinical discussions:

1) There are multiple of clinical cases reported on the shift from MI to None-invasive treatment by maximize the preservation of sound tooth structures but does the tooth reduction necessary at all? Or what is the necessary designed location of the finishing line and marginal morphology? Is it a full-veneer or an additive veneer restoration? What will be the amount of tooth reductions needed for respective restoration materials?

2) In case of Bonded Porcelain Restoration (BPR), the accuracy is the essential to maximize its predictability but what would be key points in the clinical work-flow to maintain this high predictability when the digital technology replaces the traditional restoration work?

3) What will be the appropriate material selection guidance to all relevant materials between the traditional and Digital restorative works?

4) In case of the full-mouth rehabilitation treatment to grant occlusions, the test drive of a provisional restoration considering both functional and aesthetical are mandatory. However, what would be keys for the In-direct Bonded Restorations which does not suppose retention and resistance factors?

The speaker wishes to explain all of the above through his clinical cases.
Coffee Break/ Poster Session
Recent developments in digital technology in implant dentistry now enable dentists to plan, place and restore dental implants with increased safety, accuracy and predictability.
In this context, the expectation of patients receiving implant reconstructions has exceeded functionality. Patient-centered outcomes are gaining importance in dental therapy concepts: clinical success of the overall treatment is assumed as self-evident; convenience-oriented strategies are in the focus of the patients with thei
r growing claims. Rather esthetic factors and economic aspects are in the foreground of the implant treatment concept. Today, the team of clinician and dental technician can choose from a variety of possibilities of individualized and prefabricated abutments in combination with dental materials, such as titanium or zirconium dioxide and various fabrication techniques. Nevertheless, a long-term success of implant-supported reconstructions is dependent not only on the material-specific properties and manufacturing procedures, but also on a concise treatment planning including the safe implementation of all clinical therapy steps under consideration of the use of original-to-original implant components.
Wollten Sie nicht schon immer einmal wissen, ob eine Eigenfertigung im Bereich
CAD/CAM rein aus betriebswirtschaftlicher Sicht für Ihre Laborgröße sinnvoll ist?
Im Rahmen meiner Prüfung zum Betriebswirt des Handwerkes konnte ich für ein
beispielhaft in Mitteldeutschland ansässiges, traditionelles zahntechnisches Labor das
bestehende und angestrebte Produktionsvolumen ermittelt. Ich habe Angebote für
Fräsmaschinen eingeholt und Zahlenmaterial zu den zu erwartenden, oft
undurchsichtigen Produktionskosten zusammengetragen und untersucht,
ab welcher produzierten Menge sich eine kompakte CNC Fräsmaschine sowie eine
Standfräsmaschine oder eben die Auslagerung betriebswirtschaftlich rechnet.
In meinem Vortrag möchte ich dem geschätzten Publikum Werkzeuge an die Hand
geben, mit deren Hilfe Sie für Ihr eigenes Labor (oder die eigene Praxis) einschätzen
können, was die Unterschiede in der Anwendung bedeuten, die einzelnen Vor- und
Nachteile sind und welche Option für Sie aus betriebswirtschaftlicher Sicht mit Sinnvoll
sein kann.
1. Welche Vor- und Nachteile haben Eigen- bzw. Fremdfertigung für das Labor?
2. Ist die Investition in eine Eigenfertigung betriebswirtschaftlich sinnvoll?
3. Und wenn ja, welches Angebot ist für Ihre Laborgröße kosteneffizienter?"
Today's dentist has a wide choice of restorative materials available when replacing missing or damaged tooth structures.
Since introduction in dentistry of composite resins, those materials have undergone a tremendous development and their adhesive properties on both enamel and dentin have been constantly improved, allowing a more conservative approach during the tooth preparation. Patients' demands for a more aesthetic and metal-free restoration on posterior and anterior teeth increased during the last decade focusing the interest of the dental profession towards aesthetic restorations with composite resins.
The continuous improvement of the digital CAD-CAM technology is revolutionizing the dental profession in both laboratory and dental office.
Today is possible with the chair-side CAD-CAM restorations to restore teeth in a single session saving time for the patient and dentist as well.
Numerous type of glass ceramic and composite block are nowadays available; partial and full crown restorations can be fabricated directly in dental office by the dentist.
However, it is vital that the treating clinician have a thorough understanding of the principles that lead to a successful outcome.
Naturally appearing and problem free outcome can be achieved if certain rules are followed by a conscientious operator.
The medical (and dental) artificial intelligence was introduced for the first time in my DDS in 1973 "Optical Impression". The dental CadCam is just a part of it. This part was also launched at the same time iin USA. The result was 10 years friendly struggle between France and USA and more than 50 lectures and publications but also 5 theses approached the matter.
It has been only with the realization of the first extrados (Paris - 1983) and then the first crown in the mouth (ADF - 1985) outside laboratory and in congress that I was able to demonstrate the veracity of my invention.
After these 15 years of work, the first Cerec (1985) appeared, which milled the intrados of inlay, the Celay (1986) machining a complete inlay by palpation and Procera (1987) for copings.
All the other teams (Rekow, Tsutsumi ... only had laboratory results).
The first CAD / CAM system entered the dental offices in November 1987 (Hennson Int.) In the current Chairside configuration: camera, CAD / CAM and small machining center. While other systems were still in their infancy (Cerec, Procera) or did not exist (3M, 3 Shapes, Dental Wings), Hennson already realized crowns, bridges, inlay, onlay ... in Static and dynamic occlusion ... and the first implants and ODF brackets.
It will take another 20 years and 2010 to regain the same level of perfomance.
Final remarks, Prof. Dr. Carlo P. Marinello
Marriott Hotel Berlin, Inge-Beisheim-Platz 1, 10785 Berlin, Deutschland, Tel.: +49 (0)30/22000-0, E-Mail: juliana.janzen@marriotthotels.com
Wissenschaftliche Leitung:
Prof. Dr. Wael Att, Dr Esam Ahmed Tashkandi BDS MS FDS RCS PhD
Prof. Dr. Wael Att
Freiburg, Deutschland
Prof. Dr. Wael Att ist Ärztlicher Direktor, Abteilung für Zahnärztliche Prothetik, Tufts University of Dental Medicine. Er studierte von 1992 bis 1997 Zahnmedizin in Syrien und erhielt in 1997 den DDS am gleichen Ort. Von 1998 bis 2000 arbeitete er als Assistent an der Abteilung für Mund-, Gesicht- und Kieferchirurgie des Tishreen Krankenhauses, Damaskus, Syrien. 2000-2003 Postgraduate Program an der Abteilung für Zahnärztliche Prothetik der Albert-Ludwigs-Universität, Freiburg, Deutschland. Von 2003-2005 arbeitet er als Assistent an der gleichen Abteilung und erhielt 2003 den Dr. Med. Dent. 2004 Qualifiziert fortgebildeter Spezialist für Prothetik der Deutschen Gesellschaft für Prothetische Zahnmedizin und Biomaterialien e.V. (DGPro). 2005-2007 weilte er als Visiting Assistant Professor an dem Jane and Jerry Weintraub Center for Reconstructive Biotechnology, Division of Advanced Prosthodontics, Biomaterials, and Hospital Dentistry, UCLA School of Dentistry, Los Angeles (USA). Seit 2007 ist er Oberarzt an der Klinik für Zahnärztliche Prothetik des Universitätsklinikums Freiburg (Ärztlicher Direktor: Prof. Dr. Dr. h.c. J.R. Strub) und leitet das Postgraduiertenprogramm. Prof. Dr. Att hat sich in 2010 habilitiert und erhielt den Titel Dr Med Dent Habil. 2013 Verleihung der Bezeichnung "Ausserplanmäßiger Professor" der Universität Freiburg. Seit 2018 Professor-Ordinär und Ärztlicher Direktor, Abteilung für Zahnärztliche Prothetik, Tufts University School of Dental Medicine, Boston, USA.
Dr. Domenico Baldi
Doctor: Domenico Baldi born in Genoa, Italy on February 2nd, 1963. Graduated Physician (M.D) 1987 with honors at Genoa School of Medicine . Specialized D.D.S. 1990 at University of Genoa. Learned 1998 in Implantology at Pisa School of Medicine. Adjunct Professor at the University of Genoa Prosthodontics and Implantology Professor in a High Level course at the University of Genoa Professor in the Surgery High Level Course at La Sapienza-University of Rome Prosthodontics and Implantology Professor in a International Master at the University of Genoa Several scientific articles published Speaker in several national and international congresses SIOPI (Italian Society for Implantology and Prosthodontics) Member QDT-quintessence of dental technology-(Italian edition) Editorial Board Member IPA (International Piezo Surgery Academy) Active and Founding Member SRPDMF (Societăţii Române de Protetică Dentară si Maxilo-Facială ) Honorary Member EAED (European Academy of Esthetic Dentistry) Affiliate Member ICP (International College of Prosthodontists) Constituent Member IADDM (International Academy for Digital Dental Medicine) Active Member IPA (International Piezo Surgery Academy) President 2014-2016 Private practice in Genoa.
Prof. Dr. Byung-Ho Choi
1982-1985: Training at the Oral & Maxillofacial Surgery Dept., Yonsei University, Korea. 1991: Ph Degree at Freiburg University, Germany. Since 1992: Professor, Wonju College of Medicine, Yonsei University. 2010: Book publication: Flapless Implantology. English edition, Quintessence Publishing Company. 2012: Book publication: Flapless Implantology. French edition, Quintessence Publishing Company. 2015: Book publication: Digital Flapless Implantology. JeeSung Publishing Company.
Dr François Duret
Fleury d'Aude, Frankreich
Professor François Duret has a threefold training: Biochemist (science), Dentist and Periodontologist (Dental) and PhD in Gastroenterology (Medicine). Assistant Professor in Lyon then Professor of Research and Chairman in USA (USA), he occupied these last 15 years as Visiting Professor in Japan (NDU) and then in Montpellier (France). At the age of 22 (in 1970), in his dental sophomore year, he devised the concept of artificial intelligence, including CAD / CAM in dentistry. He was recognized as the inventor of this technology, after 15 years of hard work, when he realize, in live, the first crown (Paris / ADF 1985). We owe him many other inventions (more than 60 patents) such as fibrous post, virtual articulators, rapid polymerisation, structured heterogeneous materials or other spectro-colorimeters or electrophoretic bleaching ... He has his own research laboratory and has received the highest honors of the French President: National Order of Merit (at 35 years) and The French Légion d'honneur (2015).
Dr. Galip Gürel
Istanbul, Türkei
Dr. Galip Gurel graduated from the University of Istanbul, Dental School in 1981. He continued his education at the University of Kentucky, Department of Prosthodontics. Received his MSc degree from Yeditepe University in, Istanbul. Dr. Gurel is the founder and the honorary president of EDAD (Turkish Academy of Aesthetic Dentistry). He was the President of the European Academy of Esthetic Dentistry (EAED) for 2011 & 2012. He received "The Smigel" award in October 2014 which is granted biennially by New York University College of Dentistry to honor the best esthetic dentists in the world for the social contribution they create, their support for the improvement of esthetic dentistry,their vision and determination and their ability to present innovative ideas around dentistry globally and the education they provide to the dental health professionals about advanced esthetics, technology and the new techniques in general dentistry. He is also a member of the American Society for Dental Aesthetics (ASDA) and American Academy of Restorative Dentistry (AARD) and the honorary diplomate of the American Board of Aesthetic Dentistry (ABAD) . He is also the editor-in-chief of the Quintessence Magazine in Turkey and on the editorial board of the AACD journal, PPAD (Practical Procedure & Aesthetic Dentistry), EJED (European Journal of Esthetic Dentistry). He has been lecturing on dental aesthetics all over the world and giving post graduate lectures on aesthetics dentistry. He is a visiting professor at the New York University (USA), Marseille Dental University (France) and Istanbul Yeditepe University (Turkey). He is the author of "The Science and Art of Porcelain Laminate Veneers" published by Quintessence publications in 2003 translated into 12 different languages. He has been practicing in his own clinic in Istanbul, specializing in Aesthetic Dentistry, since 1984. A renown sportsman, Dr. Gurel has been the Captain of the Turkish National Team of Water Polo for 110 times, a World Champion of the Camel Trophy and a participant of the Paris-Dakar Rally.
PD Dr. Tim Joda
Bern, Schweiz
Dr. Joda works as Research Associate and Program Director of Postgraduate Education at the Department of Reconstructive Dentistry and Gerodontology at the University of Bern/ Switzerland. In addition, he is the Head of the Section for Digital Reconstructive Technology + Implant Dentistry [DiRecT+ID]. Dr. Joda is triple-trained and Board Certified as Specialist in Prosthodontics, Implant Dentistry and Periodontology; and has gained a MSc Degree in Prosthetic Dentistry & Biomaterials. Dr. Joda was a Visiting Assistant Professor at Harvard School of Dental Medicine Boston/ USA in 2014. Moreover, he has been appointed as Associate Professor at the University of Siena/ Italy since 2016. His main clinical interests are fixed implant treatment protocols. Dr. Joda initiated numerous projects in the field of digital dental technologies and optimization of implant workflows. He received several peer-reviewed research grants as principle investigator and has won research prizes from the Swiss Boards of Reconstructive Dentistry (SSRD) and Implantology (SGI).
Jongyup Kim
Seoul, Südkorea
Dr. Jongyub Kim graduated from Dan-kook University Dental School in 1996. He finished oral and maxillofacial surgery residency at the same institution from 1996 to 2000. He also had postdoctoral prosthodoctics training at Boston University, Henry M. Goldman school of Dental Medicine from 2004 to 2007. Presently, he is working as a director of Global Academy of Osseointegration (private institute for dentist) and an adjunct professor of Catholic university medical school, Dan-kook University Dental school, Ehaw women's university medical school, Korea university medical school, etc. He in a co-author of 'Minimally Invasive Sinus Surgery (Well publishing)' published in 2016. As a trained Oral surgeon and Prosthodontist, his practice is mainly focus on Implant dentistry and Digital dentistry.
Henri Lenn
Luzern, Schweiz
After the tertiary education of Economics and Behavioural Science in Australia further education was continued in Germany in the field of Dental Technology. Joining the Dental Industry by performing several contracts and activities for marketing research and Product Management Henri Lenn became founder and managing partner of Ducera Dental GmbH in Rosbach Germany. After the acquisition of Ducera by Degussa AG he joined as director of the global Dental Unit at Degussa. Next step was to join Heraeus Kulzer as global CEO. Since 2005 Henri Lenn joined GC first as president of GC Europe NV in charge of European, Middle East and African regions followed by Director of Global business at GC Corporation and finally till today as Executive Vice President at GC International AG.
Prof. Dr. Wolfgang Lückerath
Bonn, Deutschland
Walter W. Lueckerath received his dental degree from the University of Bonn. He is a double board certified specialists in Prosthodontic Special-ties from the German Society for Prosthodontics and Materials Science (DGZPW) and the German Society of Functional Diagnostics and Thera-py (DGFDT). He received additional training at the Department of Oral and Maxillofacial Surgery at the University of Kentucky, the Department of Oral Biology at the University of Florida and at the Department of Myofascial Pain at the University of California, San Francisco, US. Walter Lueckerath received the award for the best scientific publication from the German Society for Functional Diagnostics and Therapy (DGFDT). He is founder of the first European postdoctoral program to certify as Master of Science in Aesthetic-Reconstructive Dental Medicine. He is affiliate of the European Academy of Esthetic Dentistry (EAED) and active member of the International Academy of Digital Dental Medicine (IADDM). W. Lueckerath maintains a full professorship at the Dept. of Prosthodontics, Preclinical Education and Materials Science at the University of Bonn and renowned publisher as well as worldwide lecturer. He has conducted more than 200 Master-Theses to receive the Master of Science in Esthetic-Reconstructive Dentistry and supervised numerous doctoral dissertations to derive the Doctor of Medical Dentistry from the University of Bonn.
Prof. Dr. Carlo P. Marinello
Basel, Schweiz
Dr. Marinello passed his Board examination from the University of Zurich. He served as Assistant Professor and acting head of the Dental Public Health Clinic and was Assistant and Associate Professor, Department of Fixed and Removable Prosthodontics and Dental Material Sciences, University of Zurich. He also served as a Visiting Research Professor, Department of Periodontology, at the University of Gothenburg, where he received his Master of Science degree. He was Associate Professor and Head of Periodontology, Department of Preventive Dentistry, Periodontology and Cariology at the University of Zurich. From 1995 to 2015 he was full-time Professor and Chairman of the Department of Reconstructive Dentistry and Temporomandibular Disorders at the Dental School of the University of Basel. He received the Distinguished Lecturer Award from the American College of Prosthodontics and from the Greater New York Academy of Prosthodontics. He received by the Pierre Fauchard Academy the Elmer S. Best Memorial Award. In 2011 he was the President of the American Prosthodontic Society. Since 2015 he is a Professor Emeritus of the University of Basel.
Dr. Tim Nolting
since 2014: Vice President Gender Dentistry International (GDI e.V.) since 2012: Owner of the dental practice, Dr. med. med. dent. Tim Nolting MSc in Freudenberg, Germany since 2012: Vice President of the German Society for Gender-Specific Dentistry (DGGZ e.V.) 2010 - 2011: Associate Dentist in the group practice Dr.Touma, Dr.Hinz & Partner, Velen 2009 - 2010: Associate Dentist in the dental practice Rage - Holm, Bocholt 2009: Preparatory assistant in the dental practice Rage - Holm, Bocholt 2005 - 2009: Further specialisation in Oral Surgery in the Department of Oral and Maxillofacial Surgery, University Medical Center Münster (Prof. Dr. Dr. Dr. hc U. Joos).
Dr. Masayuki Okawa
Tokyo, Japan
1962: Born in Iwate. 1987: Graduated Tohoku Dental University of Dentistry. 2001: Open and maintain Clinic in Tokyo, Japan. 6. Juli 2017: Tokyo SJCD: Vice Chairman of the Board Academy of Microscope Enhanced Dentistry(USA): Board Member Ohu University Faculty of Dentistry Alumni Association Academic department Director Japan Academy of Esthetic Dentistry: Certified Dentist Japan Academy of Gnathlogy And Occlusion: Certified Dentist EAED AFFILIATE.
Dr. Marco Rinaldi
He has developed a specific experience in Reconstructive Surgery, using 3D Technologies. He has contributed to international studies and reseaches on Computer Guided Implantology and Sterolithographic Models. President of Computer Aided Implantology Academy in 2015-2016, President of SimPlant Academy Italy in 2012, Active Member of IADDM, Active Member of Academy of Osseontegration. He is a Member of the Editorial Board of the "Cone Beam International Magazine of Cone Beam Dentistry", As an international speaker, he has taken active part in national and international courses, seminars and congresses and he is the Author of a large number of scientific publications and of some books including: "Computer Guided Applications for Dental Implants, Bone Graft and Reconstructive Surgery" Published by Elsevier in U.S.A. in 2015 and translated into Spanish an Chinese. Dr Rinaldi works as Implantologist and Oral Surgeon in Bologna, at Villalba Hospital and in his Dental Clinic.
ZTM Clemens Schwerin
Unterhaching, Deutschland
Magister: ZTM Clemens Schwerin, Betriebswirt HWK Tätigkeit: Mitarbeiter LMU München, Dozent Meisterschule Hamburg Nach dem Abschluss der Fachoberschule für Wirtschaft fasste Clemens Schwerin den Entschluss dem Beispiel seines Vaters zu folgen und das Handwerk des Zahntechnikers zu erlernen. Er absolvierte nach seiner Ausbildung auch das Curriculum CAD/CAM an der Universität München. Angetrieben von dem Ziel ein zahntechnisches Gesamtverständnis zu erreichen, trat er in die Dienste des Dentallabors Steger in Südtirol. Hier traf er auch auf seinen Mentor Enrico Steger und konnte sein zahntechnisches Wissen vertiefen und dies als Ausbilder der Zirkonzahn Schule direkt weitergeben. Im Jahr 2015 schloss Clemens die Meisterprüfung unter dem prägenden Einfluss von Jürgen Mehlert ab. 2016 erreichte er mit dem Betriebswirt nach der Handwerksordnung die höchste Ausbildung des deutschen Handwerkes. Berufliche neue Lernfelder erschließen sich ihm momentan an der LMU München an der Seite des Laborleiters Josef Schweiger, und als Dozent der Meisterschule Hamburg.
Dr. Roberto Spreafico
Busto Arsizio, Italien
Dr Roberto Spreafico obtained his DM degree at Turin University, Italy, in 1982. In 1986, he obtained a DMD degree, at Geneva University, Switzerland. He is now a private practitioner, in Busto-Arsizio, near Milan, Italy. He is active member of: Accademia Italiana di Conservativa, European Academy of Esthetic Dentistry, Associate Editor of "European Journal of Esthetic Dentistry". Member of the editorial board of: Journal of Adhesive Dentistry; Practical Procedures & Aesthetic Dentistry. Dr Spreafico presently conducts a number of courses in the field of esthetic dentistry throughout Italy and abroad. He is also author of numerous clinical papers on this topic. Author of 7 book chapters. Co-authored the book "Adhesive Metal-Free Restorations : current concepts for the esthetic treatment of posterior teeth." by Quintessence Publishing Group (1997).
Dr Esam Ahmed Tashkandi BDS MS FDS RCS PhD
1989 Bachelor of Dental Surgery degree with honors from the College of Dentistry at King Saud University. 1993 Master of Science and Certificate of Clinical Specialty in Prosthodontics from the School of Dentistry at the University of Michigan in Ann Arbor. 1994 Postgraduate program in Implant Dentistry from the School of Dentistry at the University of Michigan in Ann Arbor. 1996 Fellowship in Dental Surgery of the Royal College of Surgeons in Edinburgh, Scotland. 1999 Doctor of Philosophy in Oral Health Sciences from the School of Dentistry at the University of Michigan in Ann Arbor. Previously, he has served as the Chairman of the Department of Prosthodontics at the College of Dentistry in King Saud University. Presently, he is working as an Associate Professor and the Vice Dean for Quality and Development and Director of the Nobel Biocare University Partner Program for Undergraduate Dental Implant Education. Dr. Tashkandi, is a Visiting Professor at the Albert-Ludwig Freiburg University in Germany. He is an Adjunct Scientist at the Houston Center of Biomaterials and Biomimetics of the University of Texas Dental Branch at Houston. Dr. Tashkandi serves on the editorial board of multiple international dental journals.
Prof. Dr. B. Wilmes
Düsseldorf, Deutschland
Dr. Wilmes did a postgraduate training in oral surgery at the Department of Maxillofacial Surgery at University of Muenster, Germany. Subsequently, he received a postgraduate degree in orthodontics and dentofacial orthopedics at the University of the Duesseldorf, Germany. In 2013 he became Professor at the Department of Orthodontics at the University of Duesseldorf. Dr. Wilmes has published more than 100 articles and textbook chapters. He is reviewer of numerous journals including the American Journal of Orthodontics and Dentofacial Orthopedics and the Angle Orthodontist. Dr. Wilmes has held more than 250 lectures and courses in 50 different countries all over the world. His primary interest is in the area of non-compliant and invisible orthodontic treatment strategies (TADs, lingual orthodontics and aligner). Dr. Wilmes is a Visiting Associate Professor at the University of Alabama at Birmingham, USA. He was awarded the First Prize of the German Orthodontic Society in 2007 and the First Prize of the European Orthodontic Society in 2009.
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