DOI: 10.11607/ijp.4238, PubMed-ID: 26218027Seiten: 412-414, Sprache: EnglischPommer, Bernhard / Hingsammer, Lukas / Haas, Robert / Mailath-Pokorny, Georg / Busenlechner, Dieter / Watzek, Georg / Fürhauser, RudolfProsthodontically driven biomechanical considerations are essential for longterm successful outcomes in dental implant therapy. Correct protocols seek to preclude potential consequences associated with functional and parafunctional occlusal overload such as screw loosening, component fracture, compromised marginal bone maintenance, and the integrity of the induced osseointegration response. Other concerns also need to be addressed, more especially when other implants are selected, for example: bridge insertion torque (BIT) in cases of immediate loading, cantilever length-anteroposterior spread ratio (CL-AP), overall crown-to-implant ratio (oCIR), total bone-to-implant surface area (tBICA), and the status of the opposing dentition. In spite of promising clinical results, evidencebased clinical protocols demand that such biomechanical limits still need to be determined.