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Revista de Osteoporosis y Metabolismo Mineral
On-line version ISSN 2173-2345Print version ISSN 1889-836X
Abstract
MONTOYA, MJ et al. Influence of vitamin D on biomechanical microstructure and properties of patients with hip fracture. Rev Osteoporos Metab Miner [online]. 2017, vol.9, n.4, pp.121-129. ISSN 2173-2345. https://dx.doi.org/10.4321/s1889-836x2017000400004.
Introduction:
To assess serum levels of 25-hydroxyvitamin D-25 (OH) D-hormones with influence on bone metabolism (parathormone -PTH- and insulin-like growth factor (IGF)-I), bone remodeling markers (BRM) (carboxy-terminal telopeptide of collagen type I-β-CTX- and amino-peptide pro-peptide of procollagen type I -PINP), bone mineral density (BMD), microstructure and biomechanics of the femoral neck, in patients with osteoporotic hip fracture (OH) versus arthritic patients (OA).
Material and methods:
A cross-sectional observational study of 29 OH and 14 OA, age ≥50 years. We quantified hormonal serum levels and BRM (immunoassay), hip BMD (DXA), microstructure (micro-CT) and biomechanics (uniaxial compression tests, IGFA system). Analysis (SPSS 20.0.)
Results:
OH patients had lower levels of 25(OH)D (p=0.02) and hip BMD (p<0.05), and higher PTH (p=0.029) and β-CTX (p=0.04). Levels of 25(OH)D correlated positively with IGF-I (p=0.04) and negatively with β-CTX (p=0.003). The PTH values were correlated negatively with hip BMD (p=0.0005) and positively with trabecular thickness (TbTh) (p=0.006). Patients with 25(OH)D <20 ng/mL presented higher levels of β-CTX (p=0.006), lower IGF-I (p=0.007) and TbTh (p=0.04).
Conclusions:
Vitamin D levels are low in the elderly population, especially in patients with osteoporotic hip fracture. These patients also presented raised levels of PTH and BRM and descended from BMD. Patients whose 25(OH)D levels are below 20 ng/mL present higher bone remodeling, with lower levels of IGF-I and alterations of the bone structure (TbTh) that may be linked to a greater risk of fractures.
Keywords : vitamin D; osteoporosis; hip fracture; bone mineral density; microstructure and biomechanics.