生物相容性材料
生物相容性
膜
再生(生物学)
生物医学工程
生物材料
牙槽
聚乳酸
纳米技术
组织工程
生物复合材料
组织修复
生物负载
牙科
材料科学
化学
骨组织
脚手架
骨形成
可生物降解聚合物
再生医学
作者
Hongsi Yu,Binyan He,Ziyi Yan,Congyan Xia,Chenchen Li,Wenqian Xiao,Xiaoling Yang,Dawei Zhang,B. Li
标识
DOI:10.1177/08839115251409810
摘要
Guided Bone Regeneration (GBR) is a crucial technique in oral health for addressing alveolar bone deficiencies caused by periodontal disease, trauma, or infection. This review examines the latest advancements in GBR barrier membranes, focusing on their material properties, biological performance, and in vivo applications. Traditional non-resorbable membranes, such as dense and expanded polytetrafluoroethylene and titanium meshes, offer superior space-maintaining abilities but require secondary surgeries for removal and can form biofilms. In contrast, resorbable membranes, including natural polymers such as collagen, and synthetic polymers like polylactic acid, provide biocompatibility but lack mechanical strength. Recent innovations have led to the development of biocomposite membranes that integrate multiple materials to enhance mechanical properties, antimicrobial capabilities, and osteoinductive functions. These advancements aim to overcome the limitations of traditional membranes by synchronizing degradation with bone regeneration kinetics and providing a more dynamic and supportive microenvironment for bone tissue repair. Finally, this review suggests that future studies should develop tailored degradation kinetics, enhanced antimicrobial and anti-inflammatory capabilities, and smart-responsive mechanisms of GBR membranes to better meet the spatiotemporal requirements of bone regeneration. This review consolidates current advancements and explores novel avenues within the field, delivering a state-of-the-art perspective tailored for both established and emerging researchers in biomaterials science.
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