Keyak J H, Koyama A K, LeBlanc A, Lu Y, Lang T F
Department of Orthopaedic Surgery, University of California, Irvine, CA, USA.
Bone. 2009 Mar;44(3):449-53. doi: 10.1016/j.bone.2008.11.014. Epub 2008 Dec 3.
Loss of bone mass is a well-known medical complication of long-duration spaceflight. However, we do not know how changes in bone density and geometry ultimately combine to affect the strength of the proximal femur as a whole. The goal of this study was to quantify the changes in proximal femoral strength that result from long-duration spaceflight. Pre-and post-flight CT scan-based patient-specific finite element models of the left proximal femur of 13 astronauts who spent 4.3 to 6.5 months on the International Space Station were generated. Loading conditions representing single-limb stance and a fall onto the posterolateral aspect of the greater trochanter were modeled, and proximal femoral strength (F(FE)) was computed. Mean F(FE) decreased from 18.2 times body weight (BW) pre-flight to 15.6 BW post-flight for stance loading and from 3.5 BW pre-flight to 3.1 BW post-flight for fall loading. When normalized for flight duration, F(FE) under stance and fall loading decreased at mean rates of 2.6% (0.6% to 5.0%) per month and 2.0% (0.6% to 3.9%) per month, respectively. These values are notably greater than previously reported reductions in DXA total femoral bone mineral density (0.4 to 1.8% per month). In some subjects, the magnitudes of the reductions in proximal femoral strength were comparable to estimated lifetime losses associated with aging. Although average post-flight proximal femoral strength is greater than forces expected to occur due to falls or normal activities, some subjects have small margins of safety. If proximal femoral strength is not recovered, some crew members may be at increased risk for age-related hip fractures decades after their missions.
骨质流失是长期太空飞行中一个广为人知的医学并发症。然而,我们并不清楚骨密度和几何结构的变化最终如何共同影响整个股骨近端的强度。本研究的目的是量化长期太空飞行导致的股骨近端强度变化。利用13名在国际空间站上度过4.3至6.5个月的宇航员左股骨近端飞行前和飞行后的基于CT扫描的患者特异性有限元模型。模拟了代表单腿站立以及大转子后外侧着地跌倒的负荷条件,并计算了股骨近端强度(F(FE))。对于站立负荷,平均F(FE)从飞行前的18.2倍体重(BW)降至飞行后的15.6 BW;对于跌倒负荷,从飞行前的3.5 BW降至飞行后的3.1 BW。按飞行持续时间进行归一化后,站立和跌倒负荷下的F(FE)平均每月分别以2.6%(0.6%至5.0%)和2.0%(0.6%至3.9%)的速率下降。这些数值明显高于先前报道的双能X线吸收法(DXA)测得的全股骨骨矿物质密度每月0.4%至1.8%的降低幅度。在一些受试者中,股骨近端强度降低的幅度与衰老相关的估计终生损失相当。尽管飞行后股骨近端平均强度大于跌倒或正常活动预期产生的力量,但一些受试者的安全裕度较小。如果股骨近端强度不能恢复,一些机组人员在任务结束数十年后可能面临与年龄相关的髋部骨折风险增加。
