医学
脱钙骨基质
背景(考古学)
颅面
牙科
颅面外科
骨移植
过程(计算)
外科
计算机科学
放大器
古生物学
带宽(计算)
精神科
操作系统
数据库管理
生物
计算机网络
作者
Barry L. Eppley,William S. Pietrzak,Matthew Blanton
标识
DOI:10.1097/01.scs.0000179662.38172.dd
摘要
Bone healing is a complex and multifactorial process. As such, there are numerous steps in the process to which intervention can be directed. This has given rise to many bone graft technologies that have been used to regenerate bone, creating, perhaps, a bewildering array of options. The options that surgeons have the most familiarity with are the ones that have been available the longest (i.e., autograft and allograft). Although useful for the widest spectrum of clinical applications, limitations of these grafts has prompted the development of new materials. Demineralized bone matrix formulations and synthetic ceramic materials are now being used with greater frequency. These biomaterials have demonstrated their usefulness in facial plastic and reconstructive surgery with their ability to augment and replace portions of the craniofacial skeleton. The purpose of this article is to describe and discuss the allograft and alloplastic bone grafting technologies so that the reader can consider each in the context of the others and gain a better appreciation for how each fits into the universe of existing and emerging treatments for bone regeneration.
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