Matsui Aritsune, Matsui Keiko, Handa Takuto, Tanuma Yuji, Miura Kei-Ichiro, Kato Yuta, Kawai Tadashi, Suzuki Osamu, Kamakura Shinji, Echigo Seishi
Cleft Palate Craniofac J. 2014 Jul;51(4):420-30. doi: 10.1597/12-096. Epub 2013 Jan 31.
Synthetic octacalcium phosphate and porcine atelocollagen composites significantly enhanced bone regeneration more than β-tricalcium phosphate collagen composite and hydroxyapatite collagen composite in a rat cranial defect model. However, the long-term stability and quality of octacalcium phosphate collagen (OCP/Col) composites-derived regenerated bone, when implanted in a canine alveolar cleft model, have yet to be elucidated. The present study investigated the longterm stability and quality of bone regenerated by OCP/Col.
Disks of OCP/Col or collagen were implanted in a canine alveolar-cleft model (n = 6). Then, bone regeneration in the implanted areas was investigated macroscopically, radiographically, and histologically at 10 months after implantation. In addition, three-dimensional quantitative images of regenerated bone were analyzed by microcomputed tomography.
Macroscopically, the OCP/Col treated alveolus was clearly augmented, and radio-opacity in the OCP/Col implanted area was comparable to that of the original alveolus bone. On histological analysis, the area was mostly filled with newly formed bone, and a few granules of implanted OCP/Col were enclosed in it. In the microcomputed tomography analysis, the regenerated bone volume in the OCP/Col group was larger than that in the collagen group. OCP/Col-derived bone consisted of outer cortical and inner cancellous structure with dense trabeculae and seemed like the original bone structure.
OCP/Co composites could be a useful bone regenerative material to substitute for autogenous bone because their implantation could elicit high bone regeneration and active structural reconstitution.
在大鼠颅骨缺损模型中,合成八钙磷酸酯与猪去端胶原蛋白复合材料比β-磷酸三钙胶原蛋白复合材料和羟基磷灰石胶原蛋白复合材料能更显著地促进骨再生。然而,八钙磷酸酯胶原蛋白(OCP/Col)复合材料植入犬牙槽嵴裂模型后,其再生骨的长期稳定性和质量尚未阐明。本研究调查了OCP/Col再生骨的长期稳定性和质量。
将OCP/Col或胶原蛋白盘植入犬牙槽嵴裂模型(n = 6)。然后,在植入后10个月,通过宏观、放射学和组织学方法研究植入区域的骨再生情况。此外,通过微型计算机断层扫描分析再生骨的三维定量图像。
宏观上,OCP/Col处理的牙槽明显增大,OCP/Col植入区域的不透射线性与原始牙槽骨相当。组织学分析显示,该区域大部分被新形成的骨填充,其中包埋有少量植入的OCP/Col颗粒。在微型计算机断层扫描分析中,OCP/Col组的再生骨体积大于胶原蛋白组。OCP/Col衍生的骨由外层皮质和内层松质结构组成,小梁致密,类似原始骨结构。
OCP/Co复合材料可作为一种有用的骨再生材料替代自体骨,因为其植入可引发高骨再生和积极的结构重建。
