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Genetic and environmental determinants of bone quality: a cross-sectional analysis of the Hungarian Twin Registry.

Szilvia MészárosMárton PiroskaTamás Leel-ŐssyÁdám Domonkos TárnokiDávid László TárnokiZsófia JokkelHelga SzabóÉva HosszúEmőke CsuporRéka KollárÁrpád KézdiÁdám G TabákCsaba Horváth
Published in: GeroScience (2024)
There is abundant evidence that bone mineral content is highly heritable, while the heritability of bone quality (i.e. trabecular bone score [TBS] and quantitative ultrasound index [QUI]) is rarely investigated. We aimed to disentangle the role of genetic, shared and unique environmental factors on TBS and QUI among Hungarian twins. Our study includes 82 twin (48 monozygotic, 33 same-sex dizygotic) pairs from the Hungarian Twin Registry. TBS was determined by DXA, QUI by calcaneal bone ultrasound. To estimate the genetic and environmental effects, we utilized ACE-variance decomposition. For the unadjusted model of TBS, an AE model provided the best fit with > 80% additive genetic heritability. Adjustment for age, sex, BMI and smoking status improved model fit with 48.0% of total variance explained by independent variables. Furthermore, there was a strong dominant genetic effect (73.7%). In contrast, unadjusted and adjusted models for QUI showed an AE structure. Adjustments improved model fit and 25.7% of the total variance was explained by independent variables. Altogether 70-90% of the variance in QUI was related to additive genetic influences. We found a strong genetic heritability of bone quality in unadjusted models. Half of the variance of TBS was explained by age, sex and BMI. Furthermore, the adjusted model suggested that the genetic component of TBS could be dominant or an epistasis could be present. In contrast, independent variables explained only a quarter of the variance of QUI and the additive heritability explained more than half of all the variance.
Keyphrases
  • bone mineral density
  • genome wide
  • copy number
  • body mass index
  • physical activity
  • body composition
  • risk assessment
  • high resolution
  • climate change