Olszynski Wojciech P, Adachi Jonathon D, Hanley David A, Davison Kenneth S, Brown Jacques P
Department of Medicine, University of Saskatchewan, Saskatoon, SK, Canada.
Department of Medicine, McMaster University, Hamilton, ON, Canada.
J Clin Densitom. 2016 Apr-Jun;19(2):234-41. doi: 10.1016/j.jocd.2015.04.004. Epub 2015 Jun 6.
Dual-energy X-ray absorptiometry (DXA) is an important tool for the estimate of fracture risk through the measurement of bone mineral density (BMD). Similarly, multisite quantitate ultrasound can prospectively predict future fracture through the measurement of speed of sound (SOS). This investigation compared BMD (at the femoral neck, total hip, and lumbar spine) and SOS measures (at the distal radius, tibia, and phalanx sites) in a large sample of randomly-selected and community-based individuals from the Canadian Multicentre Osteoporosis Study. Furthermore, mass, height, and age were also compared with both measures. There were 4123 patients included with an age range of 30-96.8 yr. Pearson product moment correlations between BMD and SOS measures were low (0.21-0.29; all p<0.001), irrespective of site. Mass was moderately correlated with BMD measures (0.40-0.58; p<0.001), but lowly correlated with SOS measures (0.03-0.13; p<0.05). BMD and SOS were negatively correlated to age (-0.17 to -0.44; p<0.001). When regression analyses were performed to predict SOS measures at the 3 sites, the models predicted 20%-23% of the variance, leaving 77%-80% unaccounted for. The SOS measures in this study were found to be largely independent from BMD measures. In areas with no or limited access to DXA, the multisite quantitative ultrasound may act as a valuable tool to assess fracture risk. In locales with liberal access to DXA, the addition of SOS to BMD and other clinical risk factors may improve the identification of those patients at high risk for future fracture.
双能X线吸收法(DXA)是通过测量骨密度(BMD)来评估骨折风险的重要工具。同样,多部位定量超声检查可以通过测量声速(SOS)来前瞻性地预测未来骨折。本研究在来自加拿大多中心骨质疏松症研究的大量随机选择的社区人群样本中,比较了股骨颈、全髋和腰椎的骨密度以及桡骨远端、胫骨和指骨部位的声速测量值。此外,还比较了体重、身高和年龄与这两种测量值的关系。纳入了4123例患者,年龄范围为30 - 96.8岁。无论测量部位如何,骨密度和声速测量值之间的Pearson积矩相关性都较低(0.21 - 0.29;所有p<0.001)。体重与骨密度测量值呈中度相关(0.40 - 0.58;p<0.001),但与声速测量值的相关性较低(0.03 - 0.13;p<0.05)。骨密度和声速与年龄呈负相关(-0.17至-0.44;p<0.001)。当进行回归分析以预测3个部位的声速测量值时,模型预测了20% - 23%的方差,其余77% - 80%无法解释。本研究发现声速测量值在很大程度上独立于骨密度测量值。在无法获得或难以获得DXA的地区,多部位定量超声检查可能是评估骨折风险的有价值工具。在能够方便获得DXA的地区,将声速测量值与骨密度及其他临床风险因素相结合,可能会改善对未来骨折高危患者的识别。
