Department of Oral and Maxillofacial Surgery, College of Dentistry, King Saud University, Riyadh, Saudi Arabia.
Dental University Hospital, King Saud University Medical City, Riyadh, Saudi Arabia.
J Appl Biomater Funct Mater. 2021 Jan-Dec;19:2280800020987405. doi: 10.1177/2280800020987405.
Regeneration and reconstruction of segmental bone defects (SBD) is a clinical challenge in maxillofacial surgery and orthopedics. The present study evaluated efficacy of guided bone-regeneration (GBR) of rat femoral SBD using osteoconductive equine-bone (EB) and beta-tricalcium phosphate (beta-TCP) grafts, either with or without platelet-derived growth-factor (PDGF). Following ethical-approval, 50 male Wistar-Albino rats (aged ~12-15 months and weighing ~450-500 g) were included. A 5 mm femoral critical-size SBD was created and animals were divided into five groups depending on the graft material used for GBR (EB, EB + PDGF, Autograft, beta-TCP, beta-TCP + PDGF; = 10/group). Following 12-weeks of healing, animals were sacrificed and femur specimens were analyzed through qualitative histology and quantitative histomorphometry. There was new bone bridging femoral SBD in all groups and qualitatively, better bone formation was seen in autograft and EB + PDGF groups. Histomorphometric bone-area (BA %) was significantly high in autograft group, followed by EB + PDGF, beta-TCP + PDGF, EB, and beta-TCP groups. Addition of PDGF to EB and beta-TCP during GBR resulted in significantly higher BA%. After 12-weeks of healing, EB + PDGF for GBR of rat femoral segmental defects resulted in new bone formation similar to that of autograft. Based on this study, GBR with EB and adjunct PDGF could be a potential clinical alternative for reconstruction and regeneration of segmental bone defects.
节段性骨缺损(SBD)的再生和重建是颌面外科和骨科的临床挑战。本研究评估了使用骨传导性马骨(EB)和β-磷酸三钙(β-TCP)移植物进行引导骨再生(GBR)对大鼠股骨 SBD 的疗效,无论是否添加血小板衍生生长因子(PDGF)。在获得伦理批准后,纳入 50 只雄性 Wistar-Albino 大鼠(年龄约 12-15 个月,体重约 450-500g)。创建了 5mm 股骨临界尺寸 SBD,根据用于 GBR 的移植物材料将动物分为五组(EB、EB+PDGF、自体移植物、β-TCP、β-TCP+PDGF;每组=10)。经过 12 周的愈合后,处死动物并通过定性组织学和定量组织形态计量学分析股骨标本。所有组均有新骨桥接股骨 SBD,在自体移植物和 EB+PDGF 组中观察到更好的骨形成。组织形态计量学骨面积(BA%)在自体移植物组中显著较高,其次是 EB+PDGF、β-TCP+PDGF、EB 和β-TCP 组。在 GBR 期间向 EB 和β-TCP 中添加 PDGF 导致 BA%显著增加。经过 12 周的愈合,GBR 中使用 EB 和辅助 PDGF 可导致新骨形成类似于自体移植物。基于这项研究,GBR 中使用 EB 和辅助 PDGF 可能是重建和再生节段性骨缺损的一种潜在临床替代方法。
