Inaba Mizuki, Ejima Ken-Ichiro, Motoyoshi Mitsuru, Arai Yoshinori, Honda Kazuya, Shimizu Noriyoshi
Int J Oral Maxillofac Implants. 2015 Mar-Apr;30(2):286-92. doi: 10.11607/jomi.3696.
This study was performed to determine the accuracy of measurements of bone mineral density (BMD) and cortical bone thickness (CBT) at miniscrew implantation sites in small animals and to verify the usefulness of in vivo microcomputed tomography (micro-CT).
Rat femurs were scanned before and after placing miniscrews using in vivo micro-CT. The images were superimposed using a subtraction method with bone volume measurement software. At each screw site, the total BMD was calculated as the average BMD of a cylinder 1.6 mm in diameter and 2.0 mm in depth, while the cortical BMD was the average BMD of a cylinder 1.6 mm in diameter and 1.0 mm in depth. CBT was measured three times on transaxial images of the rat femurs, and the average value was used. All miniscrews were placed using the maximum torque, verified with a digital torque tester. To verify the usefulness and accuracy of in vivo micro-CT, CBT on micro-CT images was compared with that measured on histologic sections.
Significant correlations were observed between placement torque and cortical BMD (R = 0.572), total BMD (R = 0.732), and CBT (R = 0.788). There was a significant correlation between CBT measured via field-emission scanning electron microscopy images and CBT measured with in vivo micro-CT (R = 0.974).
The BMD over a narrow range can be measured accurately in small animals with high reproducibility of the trabecular structure using a combination of high-resolution in vivo micro-CT and image superimposition using a three-dimensional subtraction method.
本研究旨在确定小动物微型螺钉植入部位骨密度(BMD)和皮质骨厚度(CBT)测量的准确性,并验证体内微型计算机断层扫描(micro-CT)的实用性。
使用体内微型计算机断层扫描对大鼠股骨在植入微型螺钉前后进行扫描。使用骨体积测量软件通过减法方法对图像进行叠加。在每个螺钉部位,总骨密度计算为直径1.6毫米、深度2.0毫米圆柱体的平均骨密度,而皮质骨密度为直径1.6毫米、深度1.0毫米圆柱体的平均骨密度。在大鼠股骨的横断面图像上测量皮质骨厚度三次,并使用平均值。所有微型螺钉均使用最大扭矩植入,并用数字扭矩测试仪进行验证。为了验证体内微型计算机断层扫描的实用性和准确性,将微型计算机断层扫描图像上的皮质骨厚度与组织学切片上测量的结果进行比较。
观察到植入扭矩与皮质骨密度(R = 0.572)、总骨密度(R = 0.732)和皮质骨厚度(R = 0.788)之间存在显著相关性。通过场发射扫描电子显微镜图像测量的皮质骨厚度与体内微型计算机断层扫描测量的结果之间存在显著相关性(R = 0.974)。
结合高分辨率体内微型计算机断层扫描和三维减法图像叠加方法,可在小动物中准确测量狭窄范围内的骨密度,且小梁结构具有高重复性。
