Zadik Zvi, Price Dario, Diamond Gary
Pediatric Endocrinology Unit, Kaplan Medical Center, PO Box 1, 76100 Rehovot, Israel.
Osteoporos Int. 2003 Oct;14(10):857-62. doi: 10.1007/s00198-003-1456-6. Epub 2003 Aug 12.
More than 85% of peak skeletal mass is accrued by the age of 18 years, making bone growth during childhood and adolescence a critical process. The purpose of this study is to establish pediatric reference curves for bone Speed of Sound (SOS) as measured by multi-site quantitative ultrasound. Analysis was performed on a total of 1085 healthy subjects ages 0-18 years (595 females, 490 males). Demographic and anthropometric parameters (height and weight), as well as data on calcium intake and physical activity, were collected. Ultrasound bone measurements were performed at the mid-shaft tibia and the distal third of the radius (Sunlight Omnisense 7000P). An age-related speed of sound (SOS) curve that describes SOS changes at the tibia and radius in both genders was demonstrated. SOS showed a steep increase during the first 5 years of life in both genders at the tibia and radius. The period between the ages of 6-11 years is characterized with a very shallow increase in SOS at both sites. Thereafter, during the pubertal period, there is a second growth burst in SOS, starting at age 11 for girls and age 14 for boys. No significant meaningful correlation was found between the anthropometric parameters (height, weight and BMI) and the SOS measurements after the age parameter was controlled. Subjects who reported low physical activity levels were found to have lower Z-scores than their counterparts (P<0.05). The SOS of pre-menarche girls was significantly lower than that of post-menarche girls at the radius and tibia (P<0.05). The level of calcium intake did not correlate with bone SOS. Intra-operator precision measurements were 0.36% (0.25-0.47%) at radius and 0.30% (0.20-0.40%) at the tibia. To date, there is no widely accepted classification or clinical working guidelines for children's bone health assessment or prediction of fracture risk based on bone strength measurements in children. This study establishes a pediatric reference curve for the Omnisense, and therefore supports the feasibility of using Sunlight Omnisense 7000P, a multi-site bone sonometer, for the assessment of pediatric bone properties. Further studies mainly in different diseased children groups should further support the use of such a basic tool for clinical evaluation, assisting the physician to work towards healthy bones for his patients.
超过85%的峰值骨量在18岁时就已积累完成,这使得儿童期和青少年期的骨骼生长成为一个关键过程。本研究的目的是建立通过多部位定量超声测量的儿童骨声速(SOS)参考曲线。对总共1085名0至18岁的健康受试者(595名女性,490名男性)进行了分析。收集了人口统计学和人体测量学参数(身高和体重),以及钙摄入量和身体活动的数据。在胫骨中段和桡骨远端三分之一处进行超声骨测量(阳光全知7000P)。展示了一条与年龄相关的声速(SOS)曲线,该曲线描述了男女胫骨和桡骨处SOS的变化。男女在胫骨和桡骨处,SOS在生命的前5年都呈现急剧上升。6至11岁期间,两个部位的SOS增长都非常缓慢。此后,在青春期,SOS出现第二次增长高峰,女孩从11岁开始,男孩从14岁开始。在控制年龄参数后,未发现人体测量学参数(身高、体重和BMI)与SOS测量值之间存在显著的有意义的相关性。发现身体活动水平低的受试者的Z分数低于其同龄人(P<0.05)。月经初潮前女孩桡骨和胫骨处的SOS显著低于月经初潮后女孩(P<0.05)。钙摄入量水平与骨SOS无关。同一操作者在桡骨处的测量精度为0.36%(0.25 - 0.47%),在胫骨处为0.30%(0.20 - 0.40%)。迄今为止,尚无基于儿童骨强度测量进行儿童骨健康评估或骨折风险预测的广泛接受的分类或临床工作指南。本研究建立了全知系统的儿童参考曲线,因此支持使用阳光全知7000P这种多部位骨超声仪评估儿童骨特性的可行性。主要针对不同患病儿童群体的进一步研究应进一步支持将这种基本工具用于临床评估,协助医生为其患者实现骨骼健康。
