Department of Orthopaedics and Traumatology, The Chinese University of Hong Kong, Hong Kong, China.
SH Ho Scoliosis Research Laboratory, Faculty of Medicine, The Chinese University of Hong Kong, Hong Kong, China.
J Bone Miner Res. 2018 Nov;33(11):1948-1955. doi: 10.1002/jbmr.3551. Epub 2018 Aug 3.
Distal forearm fractures during growth are more common in males than females. Because metaphyseal cortical bone is formed by coalescence of trabeculae emerging from the periphery of the growth plate, we hypothesized that the later onset of puberty in males produces a longer delay in trabecular bone formation and coalescence, which leaves a transient phase of high cortical porosity, low matrix mineral density, and high trabecular density relative to females. We quantified the nondominant distal radial microstructure using high-resolution peripheral quantitative computed tomography in 214 healthy Chinese boys and 219 Chinese girls aged between 7 and 17 years living in Hong Kong. Measurements of 110 slices (9.02 mm) were acquired 5 mm proximal to the growth plate of the nondominant distal radius. Porosity was measured using StrAx1.0 (Straxcorp, Melbourne, VIC, Australia) and trabecular plate and rod structure were measured using individual trabecula segmentation (ITS). Mechanical properties were estimated using finite element analysis (FEA). Results were adjusted for age, total bone cross-sectional area (CSA), dietary calcium intake, and physical activity. In boys, total bone CSA was 17.2% to 22.9% larger throughout puberty, cortical/total bone CSA was 5.1% smaller in Tanner stage 2 only, cortical porosity was 9.4% to 17.5% higher, and matrix mineral density was 1.0% to 2.5% lower in Tanner stage 2 to 5, than girls. Boys had higher trabecular rod BV/TV in Tanner stage 3 and 4, but higher trabecular plate BV/TV and plate to rod ratio in Tanner stage 5, than girls. Boys had 17.0% lower apparent modulus than girls in Tanner stage 2. A transient phase of higher porosity due to dissociation between bone mineral accrual and linear growth may contribute to higher distal radial bone fragility in Chinese boys compared to girls. © 2018 American Society for Bone and Mineral Research.
生长中的前臂远端骨折在男性中比女性更常见。由于干骺端皮质骨是由从生长板外围出现的骨小梁融合形成的,我们假设男性青春期开始较晚,导致骨小梁形成和融合的延迟时间更长,从而使皮质骨的高孔隙率、基质矿密度低和骨小梁密度高的短暂阶段相对女性而言更长。我们使用高分辨率外周定量计算机断层扫描技术在香港生活的 214 名健康中国男孩和 219 名中国女孩中对非优势桡骨远端的微观结构进行了定量分析,年龄在 7 至 17 岁之间。在非优势桡骨远端生长板近端 5 毫米处采集了 110 个切片(9.02mm)。使用 StrAx1.0(Straxcorp,墨尔本,VIC,澳大利亚)测量孔隙率,并使用个体小梁分割(ITS)测量小梁板和小梁杆结构。使用有限元分析(FEA)估计机械性能。结果根据年龄、总骨横截面积(CSA)、膳食钙摄入量和体力活动进行了调整。在男孩中,整个青春期期间,总骨 CSA 增加了 17.2%至 22.9%,仅在 Tanner 2 期时皮质骨/总骨 CSA 减少了 5.1%,皮质骨孔隙率增加了 9.4%至 17.5%,而在 Tanner 2 期至 5 期时,基质矿密度降低了 1.0%至 2.5%。与女孩相比,男孩在 Tanner 3 期和 4 期时的小梁杆 BV/TV 较高,但在 Tanner 5 期时的小梁板 BV/TV 和板/杆比较高。与女孩相比,男孩在 Tanner 2 期时的表观模量低 17.0%。由于骨矿物质积累与线性生长之间的分离,可能导致暂时的高孔隙率阶段,这可能导致与女孩相比,中国男孩的桡骨远端骨脆性更高。© 2018 美国骨骼矿物质研究协会。
