Lee S C, Coan B S, Bouxsein M L
Department of Orthopedic Surgery, Beth Israel Hospital, Boston, MA 02215, USA.
Bone. 1997 Jul;21(1):119-25. doi: 10.1016/s8756-3282(97)00076-8.
Quantitative ultrasound (QUS) is currently being investigated as a possible alternative or adjunct to X-ray-based methods for assessing osteoporosis and fracture risk. It has been proposed that QUS may allow measurement of bone "quality," such as bone architecture or material properties. In this study, we used human cadaveric specimens to evaluate whether ultrasound velocity measurements performed in situ at the midtibia were correlated with the mechanical properties of tibial cortical bone. We obtained 26 human lower limbs (10 men and 16 women) with a mean (+/-SD) age of 81 +/- 12 and range of 53-98 years. The longitudinal ultrasound velocity of the cortical bone at the anteromedial midtibia (tUV, meters per second) was assessed in the intact legs (SoundScan 2000, Myriad Ultrasound, Rehovot, Israel). Then a cylinder of cortical bone was removed from the anterior tibia at the site of QUS scanning, scanned using peripheral quantitative computed tomography to determine bone density, and mechanically tested in tension to failure. We found that tUV of the intact legs correlated strongly with bone density of the cortical bone specimens (r2 = 0.74, p < 0.0001). Both bone density (r2 = 0.89, p < 0.0001) and tUV (r2 = 0.84, p < 0.0001) were very strongly correlated with the cortical bone elastic modulus. In addition, both tUV (r2 = 0.75) and bone density (r2 = 0.80) were highly correlated with the ultimate strength of the cortical bone specimens. In summary, tibial ultrasound velocity measured in situ correlated with the material properties of tibial cortical bone nearly as strongly as did bone density. (Bone 21:119-125; 1997).
定量超声(QUS)目前正作为一种可能替代基于X射线的方法或与之联用的手段,用于评估骨质疏松症和骨折风险。有人提出,QUS可能允许对骨“质量”进行测量,如骨结构或材料特性。在本研究中,我们使用人体尸体标本评估在胫骨中部原位进行的超声速度测量是否与胫骨皮质骨的力学性能相关。我们获取了26条人类下肢(10名男性和16名女性),平均(±标准差)年龄为81±12岁,年龄范围为53 - 98岁。在完整的下肢中评估胫骨前内侧中部皮质骨的纵向超声速度(tUV,米/秒)(SoundScan 2000,Myriad超声公司,以色列雷霍沃特)。然后在QUS扫描部位从前胫骨取出一个皮质骨圆柱体,使用外周定量计算机断层扫描进行扫描以确定骨密度,并进行拉伸力学测试直至破坏。我们发现完整下肢的tUV与皮质骨标本的骨密度密切相关(r2 = 0.74,p < 0.0001)。骨密度(r2 = 0.89,p < 0.0001)和tUV(r2 = 0.84,p < 0.0001)都与皮质骨弹性模量密切相关。此外,tUV(r2 = 0.75)和骨密度(r2 = 0.80)都与皮质骨标本的极限强度高度相关。总之,原位测量的胫骨超声速度与胫骨皮质骨的材料特性的相关性几乎与骨密度一样强。(《骨》21:119 - 125;1997年)
