Department of Oral and Maxillofacial Surgery, Carmel Medical Center, Haifa, Israel.
Tissue Eng Part C Methods. 2011 May;17(5):597-606. doi: 10.1089/ten.TEC.2010.0501. Epub 2011 Mar 17.
Animal models for preclinical functionality assays lie midway between in vitro systems such as cell culture and actual clinical trials. We have developed a novel external fixation device for femoral critical size defect (CSD) in the femurs of immunodeficient mice as an experimental model for studying bone regeneration and bone tissue engineering. The external fixation device comprises four pointed rods and dental acrylic paste. A segmental bone defect (2 mm) was created in the midshaft of the mouse femur. The CSD in the femur of the mice were either left untreated or treated with a bone allograft, a cell-scaffold construct, or a scaffold-only construct. The repair and healing processes of the CSD were monitored by digital x-ray radiography, microcomputed tomography, and histology. Repair of the femoral CSD was achieved with the bone allografts, and partial repair of the femoral CSD was achieved with the cell scaffold and the scaffold-only constructs. No repair of the nongrafted femoral CSD was observed. Our results establish the feasibility of this new mouse femoral model for CSD repair of segmental bone using a simple stabilized external fixation device. The model should prove especially useful for in vivo preclinical proof-of-concept studies that involve cell therapy-based technologies for bone tissue engineering applications in humans.
动物模型在临床前功能测定中处于体外系统(如细胞培养)和实际临床试验之间。我们开发了一种新的用于免疫缺陷小鼠股骨临界尺寸缺陷(CSD)的外部固定装置,作为研究骨再生和骨组织工程的实验模型。外部固定装置由四个尖的杆和牙托粉组成。在小鼠股骨的中段创建了一个节段性骨缺损(2 毫米)。股骨中的 CSD 要么不治疗,要么用骨移植物、细胞-支架构建体或仅支架构建体治疗。通过数字 X 射线射线照相、微计算机断层扫描和组织学监测 CSD 的修复和愈合过程。骨移植物实现了股骨 CSD 的修复,细胞支架和仅支架构建体实现了股骨 CSD 的部分修复。未观察到未移植股骨 CSD 的修复。我们的结果确立了使用简单稳定的外部固定装置修复股骨 CSD 的新型小鼠股骨模型的可行性。该模型对于涉及基于细胞治疗的技术在人类中的骨组织工程应用的体内临床前概念验证研究特别有用。
