Department of Periodontology, Research Institute for Periodontal Regeneration, Yonsei University College of Dentistry, Seoul, Republic of Korea.
Department of Periodontology, School of Dentistry, Dental Research Institute, Seoul National University, Seoul, Republic of Korea.
Tissue Eng Part A. 2021 Jul;27(13-14):905-913. doi: 10.1089/ten.TEA.2020.0151. Epub 2020 Oct 19.
The objective of this study was to investigate release kinetics and ossification patterns of bone morphogenetic protein-2-soaked collagenated porcine bone mineral (BMP-2/CPBM) in rabbit sinuses. Release kinetics of BMP-2/CPBM was determined up to 56 days. In 16 rabbits, BMP-2/CPBM (BMP group) and CPBM alone (control group) were bilaterally grafted in both sinuses. After 4 ( = 8) and 12 ( = 8) weeks, radiographic and histologic analyses were performed. Approximately 40% of BMP-2 was released from CPBM during 3 days ; release maintained at a reduced level until day 56. , new bone formation in BMP group was dominant at the center and decreased toward the borders of the sinus, while it mainly possessed close to the sinus membrane and basal bone in control group. At the center, significantly more new bone was found in BMP group compared to control group at 4 weeks (29.14% vs. 16.50%; < 0.05). The total augmented volume of BMP group was significantly greater than control group at 4 (370.13 mm vs. 299.32 mm) and 12 (400.40 mm vs. 290.10 mm) weeks ( < 0.05). In conclusion, BMP-2/CPBM demonstrated a core ossification with a greater augmented volume and new bone formation in the center of the sinus compared to CPBM alone. Impact statement The center of the augmented maxillary sinus tends to show a slower and inferior new bone formation compared to the sites near the sinus membrane and basal bone. In this study, bone morphogenetic protein-2 (BMP-2) loaded onto collagenated porcine bone mineral (CPBM) resulted in a greater augmented volume and new bone formation at the center of the grafted sinus compared to CPBM alone. Therefore, BMP-2-added CPBM in maxillary sinus augmentation may potentially be beneficial to the clinicians, in terms of accelerating the new bone formation at the center area where the apical half of the implant fixture usually places.
本研究旨在探究骨形态发生蛋白 2(BMP-2)浸泡于胶原蛋白化猪骨矿物质(CPBM)后的释放动力学及成骨模式。BMP-2/CPBM 的释放动力学检测时间长达 56 天。16 只兔子双侧上颌窦分别接受 BMP-2/CPBM(BMP 组)和 CPBM 单独植入(对照组)。术后 4 周( = 8)和 12 周( = 8)进行影像学和组织学分析。CPBM 中 BMP-2 约在 3 天内释放了 40%,随后维持在较低水平直至第 56 天。BMP 组在中心区域的新骨形成占主导地位,向窦腔边缘逐渐减少,而对照组主要靠近窦膜和基骨。4 周时,BMP 组中心区域的新骨量明显多于对照组(29.14%比 16.50%; < 0.05)。4 周和 12 周时,BMP 组的总增量体积明显大于对照组(370.13 毫米比 299.32 毫米和 400.40 毫米比 290.10 毫米; < 0.05)。综上所述,与 CPBM 相比,BMP-2/CPBM 具有核心成骨作用,可在窦腔中心形成更大的增量体积和更多的新骨形成。
