CAMLOG Special Issue – Implant Navigation

Fig. 10: Digital volume tomography (iCAT) with scan template idealized from a prosthetic standpoint. Prosthetic planning can be correlated with the anatomical situation here. Fig. 11: The implant position is precisely planned with the virtual navigation software (Med3D). Fig. 12: With an altered drilling template, the secure template-guided pilot hole can now be made intraoperatively with the CAMLOG ® Guide System. Fig. 13: View of the navigation template, which was fabricated with virtual planning based on the scan template. Fig. 14: Further template-guided preparation of the implant bed with the CAMLOG ® Guide System. Fig. 16: The insertion instrument's depth stop prevents the implant from being inserted too high or too deep. Fig. 17: Postoperative picture before removal of the naviga- tion template. Fig.19: In this buccal view, it is clear that there is not enough bone thickness around the inserted implants. Augmentation must be carried out to achieve long- term stability. Template-guided preparation of the implant bed Fig. 20: The augmentation is performed by adding bone chips scraped together from the surrounding area and a bovine bone replacement material (Bio-Oss ® ) directly onto the implant surface. Fig. 18: Condition after surgical implant insertion in accord- ance with optimal prosthetic criteria. Buccal crest augmentation Fig. 21: For secure position stabilization of the particular material, the augmentation material is covered with a collagen membrane (Bio-Gide ® ). Navigation planning based on the DVT data set Securely guided implant insertion Fig. 15: Template-navigated implant insertion through the sleeve of the navigation template.