Über den Autor

Dr. Dr. Daniel Rothamel

Klinik für MKG- & Gesichtschirurgie, Uniklinik Köln
Kerpener Str. 32
50931 Köln
Germany
Tel.: +49 221 4785775
daniel.rothamel@uk-koeln.de
http://www.uk-koeln.de

Vita

  • 1996-2001 Studium der Zahnmedizin, Heinrich-Heine Universität, Düsseldorf
  • 2004 Promotion zum Dr. med. dent (magna cum laude)
  • 2003 Entwicklungshilfeaufenthalt am SKM Hospital, Sankhu, Kathmandu. Nepal
  • 2001-2007 Studium der Humanmedizin, Heinrich-Heine Universität, Düsseldorf
  • 2002-2008 Oralchirurgische Ausbildung am Universitätsklinikum Düsseldorf (Prof. Dr. J. Becker)
  • 2007 Medizinisches Staatsexamen
  • 2007 Promotionsstipendiat des DAAD an der Universität Sydney, Australien
  • 2008 Promotion zum Dr. med. (magna cum laude)
  • 2008-2013 Ausbildung zum MKG Chirurgen am Universitätsklinikums Köln (Prof. Dr. Dr. J. Zöller)
  • 2009 Habilitation und Erteilung der venia legendi (Thema: Kieferdefektrekonstruktion)
  • seit 2013 Leitender Oberarzt der Klinik für MKG-Chirurgie

Mehr als 90 Pubilkationen (davon über 50 in peer-reviewed Journals), multiple Preise, internationale und nationale Referententägigkeit

Co-Autoren

Dr. Domonkos Horvath, Christoph. Klemm, Dr. Uwe Behrens, Dr. Daniel Ferrari M.Sc., Dr. T. Fienitz, Prof. Dr. Dr. Joachim Zöller

Callus distraction using HA-coated titanium plates

Thema

Background

The principle of distaction osteogenesis is based on the separation of a vital bone segment and consecutive expansion of an initial callus formed in between the mobile segment and the adjacent bone. In between a titanium surface and the surrounding bone a callus is also formed, if the titanium is placed in a sufficient distance to the bone surface (known as „jumping gap regeneration“ in immediate implant placement). Thus, a callus formed in between a titanium plate and the adjacent bone, might be also stable enough to be used for distraction osteogenesis, omitting the separation and fixation of a crestal bone segment.

Aim

The aim of the present pilot study is to evaluate the eligibility of a new minimally invasive distraction technique for vertical bone augmentation, based on the insertion and elevation of a thin HA-coated titanium plate and subsequent callus distraction underneath the titanium.

Material and Methods

After approval of the clinical trial with a medical device by the local ethics committee of the University Hospital Cologne, Germany, and authorization by the Federal Institute for Drugs and Medical Devices (BfArM; Bonn, Germany), six healthy patients revealing a vertical bone defect of the posterior maxilla or mandible (two bilateral) were consecutively included in the study. After mucoperiosteal flap elevation, HA-coated titanium plates (Celgen AG, Switzerland) were inserted with 1-2 mm distance to the underlying bone and fixed on the adjacent teeth using an individual bridge (Fig. 1-4). Soft tissue was thickened up underneath the periosteum using a 1 mm collagen matrix (Mucoderm, Botiss Biomaterials, Germany) (Fig. 5) and soft tissue was closed using single and mattress sutures. After a callus-forming phase of 7-10 days, membranes were elevated 0.7 mm per day until the individual desired augmentation heights of 4-8 mm were reached (Fig. 6,7). After a consolidation time of 4-8 months, titanium plates were removed and bone core biopsies were harvested in progress of implant bed preparation (Fig. 8-12). Conventional radiographs were taken at baseline, before and after implant placment.

Results

Initial healing period was uneventful in all cases. Six of eight augmented areas showed sufficient vertical bone formation at the end of the consolidation period. Implants could be placed as planned before (Fig. 12-15), and histological evaluation showed excellent bone formation with physiological microarchitecture of the bone trephines and direct contact of bone to the titanium plates (Fig. 16-19).

After two months, one site revealed an inflammation-free complete reduction of the initially achieved augmentation height based on an insufficient retention of the titanium plate. One case showed a trauma-related soft tissue perforation after six weeks with consecutive removal of the device. Both cases are related to patient specific circumstances only.

In the other cases, radiographs taken after a consolidation period of 4 months showed initial mineralisation of the augmented area, increasing its radiodensity up to 8 months. At implant uncovering, bone levels remained stable radiologically and clinically in both vertical and horizontal dimensions (Fig. 15).

Summary

Within the limits of the present pilot study it was concluded that this new technique of distraction osteogenesis using a HA-coated titanium plate in distance to the underlying bone supports predictable vertical bone regeneration in man (Proof of Concept). It is capable of representing a minimal invasive alternative for vertical ridge augmentation in the severely resorbed jaw. Currently, the parallel inclusion of a higher number of patients in a multicentre setting has just started to gain more data about the opportunities of this new bone regeneration device. Just recently, a new and implant-supported internal distraction device (Bonehill, Celgen AG) allowing for even more minimal-invasive treatment (Fig. 20-25) has been included in the clinical study.

Videogalerie (1 Video )

Zusammenfassung:

The principle of distaction osteogenesis is based on the separation of a vital bone segment and consecutive expansion of an initial callus formed in between the mobile segment and the adjacent bone. In between a titanium surface and the surrounding bone a callus is also formed, if the titanium is placed in a sufficient distance to the bone surface (known as „jumping gap regeneration“ in immediate implant placement).