View clinical trials related to Ridge Deficiency.
Filter by:Ideal bone graft should possess osteogenic, osteoinductive, and osteoconductive properties. Unfortunately, all of these are solely found within the autogenous graft that is available only in limited quantities, and it is associated with substantial post-surgical morbidity, However in this study Silica-calcium phosphate composite (SCPC) confirmed clinically, radiographically, histomorphometricand immunohistochemically the vitality and functionality of the newly formed bone. Histology and immunohistochemistry demonstrated maturation of the newly formed bone as indicated by presence of osteocytes, Haversian systems, blood vessels, compact mineralized collagen type I and high immune staining for osteopontin.
Comparative study to assess the ability of the patient specific PEEK sheets in ridge augmentation with using mixed Autogenous/Xenogenic bone graft vs the Bone Shell Technique regarding the time, accuracy and donor site morbidity .
The objective of this randomized clinical study was to evaluate the use of dehydrated human amnion-chorion membrane as an exposed barrier for guided bone regeneration (GBR) after tooth extraction and to determine whether intentional exposure of this membrane to the oral environment compromises ridge dimensions and bone vitality for implant placement.
Split crest technique is a technique for horizontal bone augmentation used in case of narrow alveolar ridges as an alternative to the more aggressive techniques such as onlay bone grafting, guided bone regeneration (GBR) and distraction osteogenesis The study goal is to evaluate whether if there will be any benefit of using platelet rich fibrin (PRF) with the split crest technique regarding bone width gain and healing response in comparison with split crest technique alone, where PRF is considered an autologous, growth factor containing material which is easy to collect and is of low cost.