5 Clinical Trials for Various Conditions
To evaluate bone healing at 4 months after lateral sinus augmentation with a 4:1 ratio of autologous bone and xenograft or xenograft alone. A radiographic volumetric, histomorphometric, and histologic analysis.
STUDY OBJECTIVES: To demonstrate equivalent clinical and radiologic outcomes as "gold standard" (Autologous Bone Graft) in a representative clinical model (hindfoot fusions) STUDY HYPOTHESIS: Augment® Injectable is an equivalent bone grafting substitute to autologous bone graft in applications as shown by superiority analysis for safety and non-inferiority analysis for effectiveness STUDY RATIONALE: To evaluate a fully synthetic bone graft material to facilitate fusion in conditions or injuries requiring bone graft in a representative clinical fusion model and thus the opportunity to provide equivalent union rates as Autologous Bone Graft without necessitating an additional invasive procedure to harvest the graft
The goal of this study was to compare, clinical and histologically, the use of the suine collagen matrix (Mucograft Seal \[MS\], Geisthlich®) and the free gingival graft (FGG) for the alveolar sealing after inserted bone graft biomaterial. It was included 18 patients with tooth referred to extraction (maxilar incisives, canines, or pre-molars) which were randomly divided in 2 groups, according to the material for alveolus sealing: control (FGG) and test (MS). After the minimally traumatic extraction, all the alveoli were filled with bovine mineral matrix (Bio-Oss®), and the material for alveolar sealing were positioned and stabilized with sutures. The follow-up (clinical and photographic) happened on the immediate post-operatory period, and with 3, 7, 15, 30, 60, 90, and 120 days. After 120 days, before implant placement, tissues samples were obtained with a 3.5mm punch scalpel for histological analysis. Qualitative information related to the patient's perception considering the treatment were collected.
The bone grafting materials currently used in dentistry are autografts, allografts, xenografts, and alloplastic grafts. Among these different types of bone graft materials, autografts are considered to have the most predictable results due to their properties of osteogenesis, osteoinduction, and osteoconduction. However, bone autografts are rarely used due to the high morbidity associated with harvesting the bone graft from the patient with a second surgical site. Because of the increased risk to the patient with autogenous bone grafts, the current standard of care is an allograft, which is a bone graft harvested from cadaver sources such as Freeze-Dried Bone Allograft (FDBA). While allografts can only possess the qualities of osteoinduction and osteoconduction, they also have dramatically less morbidity due to the lack of a second surgical site. Our null hypothesis states that: Experimental groups (mineralized, and partially demineralized dentin grafts) do not show positive changes in implant stability, survival, failure rate, probing pocket depth, and interproximal crestal bone level changes when compared to FDBA Our alternative hypothesis states that: Experimental groups (mineralized, and partially demineralized dentin grafts) show similar or better results in terms of implant stability, survival, failure rate, probing pocket depth, and interproximal crestal bone level changes when compared to FDBA.
The purpose of this study is to examine and compare the effects of autogenous dental pulp tissue on bone formation in the extraction sockets as compared to commonly used particulate bone graft. The effects on bone formation will be examined using a wide variety of assays.