Guided bone regeneration using nonexpanded polytetrafluoroethylene membranes in preparation for dental implant placements--a report of 420 cases.

TL;DR: The history and development of dental implants and the emerging area of nanotechnology in dental implants, the dental implant materials, physical and chemical fabrication techniques and the role of nan technology in achieving ideal dental implants have been discussed.

TL;DR: Both d-P TFE and e-PTFE membranes showed identical clinical results in the treatment of vertical bone defects around implants, using the GBR technique, according to the data from this study.

TL;DR: There is limited clinical and histological evidence for the use of n-PTFE membranes at present, with some indications in guided tissue regeneration and guided bone regeneration in immediate implants and fresh extraction sockets.

TL;DR: Collagen matrix seal and CS, when combined with FDBA, significantly minimized ridge resorption in all dimensions and maintained buccal soft tissue thickness in sockets with a buCCal plate loss of <2 mm in comparison to previously reported findings recorded after tooth extraction without ARP.

TL;DR: It is suggested that treatment of extraction sockets with membranes made of glycolide and lactide polymers is valuable in preserving alveolar bone in extraction sockets and preventingAlveolar ridge defects.

TL;DR: Evaluated the potential to reconstruct localized ridge defects with bone by preventing non-osteogenic extraskelatal connective tissue from participating in the process of healing following experimental ridge augmentation treatment procedures and found that the space was filled with young, actively growing bone by 90 days.

TL;DR: Resorbable membranes of poly(lactic acid) and poly(glycolic acid) (PLA/PGA) were compared to nonresorbable expanded polytetrafluoroethylene (e-PTFE) membranes in the treatment of defects around titanium dental implants placed in postextraction sockets and found to be the most effective barrier material.

TL;DR: A series of experiments in laboratory animals using the method of GTR for regeneration of various types of bone defects are presented as well as examples of application in humans for Regeneration of jaw bone defects in conjunction with the placement of dental implants.