Geistlich - Indication sheets V2 - Vertical Augmentation | Page 4

Background information Dr. Matteo Chiapasco: A 40-year old male, healthy and non-smoker, was referred for assessment of the possibility to restore the missing dentition in the maxillary arch (teeth 16 and 15) with an implant-supported fixed partial prosthesis. Initial clinical and radiographic (panoramic and intraoral radiographs) exami­ation n revealed however, that a vertical and horizontal bone defect was present (Figures 1-4). Moreover, the patient had a high smile line in the posterior maxilla on both sides (Figures 5-6), high aesthetic expectations, and did not accept any compromise in terms of the final outcome of the prosthetic restoration. In order to optimize the final outcome, consultation with the prosthodontist was requested. Impressions were taken and, on the plaster model obtained, a waxing-up was performed. Placing teeth in the ideal position, a discrepancy appeared between the residual bone and the final restoration (Figure 7). The CT scans done with a diagnostic template including radiopaque landmarks constructed on the waxing-up confirmed resorption of the alveolar ridge at the level of the missing dentition, both in the vertical and horizontal dimension. This situation precluded the possibility of placing implants in a proper, prosthetically driven position. Obtaining an adequate restoration of the missing dentition from a functional, and specifically from an aesthetic point of view was challenging (Figures 8-9). The surgical plan first included a reconstruction with autologous bone blocks taken from the mandibular ramus, in association with the use of bovine bone mineral (Geistlich Bio-Oss®, Geistlich Biomaterials, Wolhusen, Switzerland) and a native resorbable collagen membrane (Geistlich BioGide®, Geistlich Biomaterials, Wolhusen, Switzerland) to correct both vertically and horizontally the deficient alveolar ridge and to facilitate bone gain over time (Figures 9-20). Placement of 2 implants was planned in a second stage procedure, 4 months later (Figures 21-25). Finally, after another three month period, the prosthetic restoration was started. After another 3 month period necessary to condition soft tissues, the final prosthesis was delivered (Figures 26-29). A radiographic control 2 years later showed stability of periimplant bone (Figure 30). >  estore adequate bone volume of the edentulous ridge. R >  ptimize intermaxillary relationships. O >  ptimize the final prosthetic result from a functional and aesthetic point of view. O Fig. 8 A diagnostic template is fabricated following the indications of the pre-op waxing-up. Fig. 9 CT scan performed with the diagnostic template in the mouth confirmed the bone defect between the ideal position of prosthetic crowns and the residual alveolar bone. Without reconstruction, the implant would be placed too far apically and palatally, thus rendering the final prosthetic result mediocre. Fig. 19 A tension-free and water-tight suture has been performed to prevent dehiscence of the surgical wound and potential contamination of the grafted area, which may otherwise lead to complete loss of the graft. Fig. 20 Postoperative radiographic control immediately after the reconstruction showing the augmentation obtained. Fig. 21 Clinical control three months after surgery: an excellent correction of the defect and the proper intermaxillary relationship is clearly visible. Fig. 10 To harvest an autogenous bone block from the mandibular ramus for the reconstruction of the maxillary defect, a full thickness flap is raised after an incision which follows the ascending ramus of the mandible. The ascending ramus is exposed, an autogenous bone segment is outlined with fissure burs assembled on a low-speed straight handpiece, and finally it is detached with the aid of a surgical chisel. Fig. 11 The bone segment harvested from the ramus must be shaped now according to the bone morphology of the recipient bed. Fig. 12 An oscillating saw is used to separate the block in different pieces. Two pieces will be used as blocks for the vertical and horizontal reconstruction. One piece will be transformed into particulated bone. Fig. 22 Four months afterwards, the patient is ready to receive implants. After the elevation of a partial thickness, epiperiosteal flap, not to expose the underlying graft, fixation screws are removed. Fig. 23 Following the indications of the previously fabricated template, implant sites (2) are prepared in a prosthetically driven and optimal position. Fig. 24 Two implants, 4.1 mm in diameter and 10 mm in length (Straumann Bone level implants, Institut Straumann, Basel, Switzerland), are inserted in the reconstructed area. Fig. 13 Transformation into particulated bone is obtained by means of a bone microtome. 2. Aims of the therapy Fig. 7 Preoperative waxing-up demonstrates that ­