Vitamin D receptor (VDR) gene polymorphism and osteoporosis risk in White British men.
Ann Hum Biol. 2019 Aug 26:1-14. doi: 10.1080/03014460.2019.1659851.
Kow M1, Akam E1, Singh P2, Singh M2, Cox N1, Bhatti JS3, Tuck SP4, Francis RM5, Datta H4, Mastana S1.
Items in both categories Osteoporosis and Vitamin D Receptor are listed here:
- Vitamin D Receptors in muscles decrease with age in those with Osteoporosis - 2018
- Genes that increase the risk of Osteoporosis: Vitamin D Receptor is number one in Asians– April 2022
- Osteoporosis Risk varies with Vitamin D Receptor – three meta-analyses in 2020
- Prevent Osteoporosis and Have Strong Bones - book 2013
- Increased risk of Osteoporosis if poor Vitamin D Receptor (UK males this time) – Sept 2019
- Osteoporosis 3X higher risk of in white men having a poor Vitamin D receptor – Aug 2019
- Osteoporosis is associated with genes such as the Vitamin D Receptor – July 2019
- Osteoporosis 15 percent more likely if poor Vitamin D receptor – meta-analysis Dec 2018
- Disc Degeneration in women is 1.7X more likely if poor Vitamin D Receptor – meta-analysis Jan 2017
- Osteoporosis is associated with more than vitamin D genes – Jan 2016
- 2.8X higher risk of osteoporosis if COPD and modified vitamin D receptor genes – Sept 2015
- Osteoporosis 2.8 X more likely if Vitamin D receptor (VDR) genes altered – Aug 2013
- Vitamin D Receptor genes bb and BB and Osteoporosis, esp. for blacks – meta-analysis Nov 2012
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In this study, VDR gene ApaI (rs7975232), BsmI (rs 1544410) and TaqI (rs731236) genotypes were compared in men with osteoporosis and male controls. Osteoporosis affects around 20% of all men and overall mortality in the first year after hip fracture is significantly higher in men than women, yet the genetic basis of osteoporosis is less well studied in males. This study consisted of White British males; 69 osteoporosis patients and 122 controls. BMDs at the lumbar spine (vertebrae L1-L4) and hip (femur neck) were measured by dual-energy X-ray absorptiometry (DEXA). The VDR gene ApaI, BsmI and TaqI genotypes were determined by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and association analysis was carried out at genotype and haplotype level. Our study suggests that TaqI polymorphism CC genotype frequency is lower in controls and further analysis of genotypes and BMD revealed a significant effect of TaqI polymorphism on Lumbar spine BMD. Two haplotypes (GCC and AAT) were associated with increased osteoporosis risk. In conclusion, VDR gene TaqI polymorphism in recessive mode had a significant effect on lumbar spine BMD within our study. Haplotypes GCC and AAT increase the risk of osteoporosis among White British males.