Abstract
AbstractThe primary clinical indicator of fracture risk among the elderly is low bone mass, yet it accounts for less than half of fractures in individuals over 50 years. Age is recognized to influence bone quality, affecting bone structure and properties. Previous research indicates that age diminishes tissue plasticity and toughness conferred by collagen, suggesting that age-related changes in the collagen environment may contribute to bone fragility. This study explores the relationship between age-related collagen impairment, specifically the accumulation of non-enzymatic collagen cross-linking and molecular collagen denaturation, and bone toughness in middle-aged and older patients (postmenopausal 50–70 years old and senile osteoporosis age > 70 years old). Additionally, it examines the influence of blood glucose and HbA1c levels, as well as body mass index (BMI), on these factors. Despite not finding any differences in fracture toughness between groups, we found a significant correlation between hemoglobin A1c and collagen integrity (collagen denaturation and non-enzymatic cross-linking).
Funder
Center on Aging, University of Utah
Publisher
Springer Science and Business Media LLC