遗传和环境因素对承重骨与非承重骨结构强度的影响：一项双胞胎研究。

Genetic and environmental influence on structural strength of weight-bearing and non-weight-bearing bone: a twin study.

作者信息

Mikkola Tuija M, Sipilä Sarianna, Rantanen Taina, Sievänen Harri, Suominen Harri, Kaprio Jaakko, Koskenvuo Markku, Kauppinen Markku, Heinonen Ari

机构信息

Department of Health Sciences, University of Jyväskylä, Jyväskylä, Finland.

出版信息

J Bone Miner Res. 2008 Apr;23(4):492-8. doi: 10.1359/jbmr.071205.

DOI:10.1359/jbmr.071205

PMID:18072876

Abstract

UNLABELLED

A bivariate genetic analysis among 217 older female twin pairs showed that, although the structural strength of tibia and radius are mainly regulated by same genetic and environmental factors, the tibia is more affected by environment.

INTRODUCTION

The habitual loading environment of the bone may modulate the relative contribution of genetic and environmental factors to bone structure. The purpose of this study was to estimate the contribution of the common and site-specific genetic and environmental factors to interindividual variation in compressive structural strength of the weight-bearing tibia and non-weight-bearing radius.

MATERIALS AND METHODS

pQCT scans were obtained from both members of 103 monozygotic (MZ) and 114 dizygotic (DZ) 63- to 76-yr-old female twin pairs to estimate the compressive strength of the distal tibia and distal radius. Quantitative genetic models were used to decompose the phenotypic variance into additive genetic, shared environmental, and individual environmental effects at each bone site and to study whether these bone sites share genetic or environmental effects.

RESULTS

The MZ and DZ twins did not differ in mean age, height, weight, or bone structural strength. The age-adjusted Cholesky model showed that additive genetic factors accounted for 83% (95% CI, 77-88%) of the variance in radial strength and 61% (95% CI, 52-69%) of the variance in tibial strength, and these were fully correlated. A shared environmental factor accounted for 15% (95% CI, 10-20%) of tibial strength. An individual environmental factor accounted for 17% (95% CI, 12-23%) of the variance in radial strength and 10% (95% CI, 5-17%) of the variance in tibial strength. The relative contribution of an individual environmental factor specific to tibial strength was 14% (95% CI, 11-18%).

CONCLUSIONS

The results suggest that, in older women, the majority of the individual differences in the compressive structural strength of the forearm and leg are regulated by genetic and environmental factors that are common to both bone sites. However, the relative importance of environmental factors was greater for the weight-bearing tibia than for the non-weight-bearing radius. Thus, the heritability of bone strength seems to vary between skeletal sites according to differences in the typical loading environment.

摘要

未标注

对217对老年女性双胞胎进行的双变量遗传分析表明，尽管胫骨和桡骨的结构强度主要受相同的遗传和环境因素调节，但胫骨受环境影响更大。

引言

骨骼的习惯性负荷环境可能会调节遗传和环境因素对骨骼结构的相对贡献。本研究的目的是评估共同的和特定部位的遗传及环境因素对负重胫骨和非负重桡骨抗压结构强度个体差异的贡献。

材料与方法

对103对单卵（MZ）和114对双卵（DZ）63至76岁女性双胞胎的双方进行外周定量计算机断层扫描（pQCT），以评估胫骨远端和桡骨远端的抗压强度。采用定量遗传模型将表型方差分解为每个骨骼部位的加性遗传、共享环境和个体环境效应，并研究这些骨骼部位是否共享遗传或环境效应。

结果

MZ和DZ双胞胎在平均年龄、身高、体重或骨骼结构强度方面没有差异。年龄调整后的Cholesky模型显示，加性遗传因素占桡骨强度方差的83%（95%CI，77-88%）和胫骨强度方差的61%（95%CI，52-69%），且两者完全相关。共享环境因素占胫骨强度的15%（95%CI，10-20%）。个体环境因素占桡骨强度方差的17%（95%CI，12-23%）和胫骨强度方差的10%（95%CI，5-17%）。特定于胫骨强度的个体环境因素的相对贡献为14%（95%CI，11-18%）。