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173 related items for PubMed ID: 34550467
21. Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies. Niu T, Liu N, Yu X, Zhao M, Choi HJ, Leo PJ, Brown MA, Zhang L, Pei YF, Shen H, He H, Fu X, Lu S, Chen XD, Tan LJ, Yang TL, Guo Y, Cho NH, Shen J, Guo YF, Nicholson GC, Prince RL, Eisman JA, Jones G, Sambrook PN, Tian Q, Zhu XZ, Papasian CJ, Duncan EL, Uitterlinden AG, Shin CS, Xiang S, Deng HW. J Bone Miner Res; 2016 Feb; 31(2):358-68. PubMed ID: 26256109 [Abstract] [Full Text] [Related]
22. The estrogen receptor 1 gene affects bone mineral density and osteoporosis treatment efficiency in Slovak postmenopausal women. Mondockova V, Adamkovicova M, Lukacova M, Grosskopf B, Babosova R, Galbavy D, Martiniakova M, Omelka R. BMC Med Genet; 2018 Sep 21; 19(1):174. PubMed ID: 30241506 [Abstract] [Full Text] [Related]
23. Variation in the Kozak sequence of WNT16 results in an increased translation and is associated with osteoporosis related parameters. Hendrickx G, Boudin E, Fijałkowski I, Nielsen TL, Andersen M, Brixen K, Van Hul W. Bone; 2014 Feb 21; 59():57-65. PubMed ID: 24185276 [Abstract] [Full Text] [Related]
24. Identifying sex-specific risk factors for low bone mineral density in adolescent runners. Tenforde AS, Fredericson M, Sayres LC, Cutti P, Sainani KL. Am J Sports Med; 2015 Jun 21; 43(6):1494-504. PubMed ID: 25748470 [Abstract] [Full Text] [Related]
25. Bone mineral density, energy availability, and dietary restraint in collegiate cross-country runners and non-running controls. McCormack WP, Shoepe TC, LaBrie J, Almstedt HC. Eur J Appl Physiol; 2019 Aug 21; 119(8):1747-1756. PubMed ID: 31102062 [Abstract] [Full Text] [Related]
26. The -174 G/C polymorphism of the IL6 gene is associated with elite power performance. Ruiz JR, Buxens A, Artieda M, Arteta D, Santiago C, Rodríguez-Romo G, Lao JI, Gómez-Gallego F, Lucia A. J Sci Med Sport; 2010 Sep 21; 13(5):549-53. PubMed ID: 19853505 [Abstract] [Full Text] [Related]
27. The genetic association between osteoprotegerin (OPG) gene polymorphisms and bone mineral density (BMD) in postmenopausal women: A meta-analysis. Peng Y, Sheng X, Xue F, Qian Y. Medicine (Baltimore); 2018 Dec 21; 97(51):e13507. PubMed ID: 30572450 [Abstract] [Full Text] [Related]
28. Genetic variation at the low-density lipoprotein receptor-related protein 5 (LRP5) locus modulates Wnt signaling and the relationship of physical activity with bone mineral density in men. Kiel DP, Ferrari SL, Cupples LA, Karasik D, Manen D, Imamovic A, Herbert AG, Dupuis J. Bone; 2007 Mar 21; 40(3):587-96. PubMed ID: 17137849 [Abstract] [Full Text] [Related]
29. Missense polymorphisms of the WNT16 gene are associated with bone mass, hip geometry and fractures. García-Ibarbia C, Pérez-Núñez MI, Olmos JM, Valero C, Pérez-Aguilar MD, Hernández JL, Zarrabeitia MT, González-Macías J, Riancho JA. Osteoporos Int; 2013 Sep 21; 24(9):2449-54. PubMed ID: 23417354 [Abstract] [Full Text] [Related]
30. Bone health in endurance athletes: runners, cyclists, and swimmers. Scofield KL, Hecht S. Curr Sports Med Rep; 2012 Sep 21; 11(6):328-34. PubMed ID: 23147022 [Abstract] [Full Text] [Related]
31. Site-Specific Bone Differences and Energy Status in Male Competitive Runners and Road Cyclists. Chen Z, Sherk VD, Sharma-Ghimire P, Bemben MG, Bemben DA. J Clin Densitom; 2022 Sep 21; 25(2):150-159. PubMed ID: 34952789 [Abstract] [Full Text] [Related]
32. The PPARGC1A Gly482Ser polymorphism is associated with elite long-distance running performance. Hall ECR, Lockey SJ, Heffernan SM, Herbert AJ, Stebbings GK, Day SH, Collins M, Pitsiladis YP, Erskine RM, Williams AG. J Sports Sci; 2023 Jan 21; 41(1):56-62. PubMed ID: 37012221 [Abstract] [Full Text] [Related]
33. Prevalence of and traits associated with low BMD among female adolescent runners. Barrack MT, Rauh MJ, Nichols JF. Med Sci Sports Exerc; 2008 Dec 21; 40(12):2015-21. PubMed ID: 18981950 [Abstract] [Full Text] [Related]
34. Effect of ACTN3 R577X Genotype on Injury Epidemiology in Elite Endurance Runners. Gutiérrez-Hellín J, Baltazar-Martins G, Aguilar-Navarro M, Ruiz-Moreno C, Oliván J, Del Coso J. Genes (Basel); 2021 Jan 08; 12(1):. PubMed ID: 33430120 [Abstract] [Full Text] [Related]
35. Sex Differences in Supplement Intake in Recreational Endurance Runners-Results from the NURMI Study (Step 2). Wirnitzer K, Motevalli M, Tanous DR, Gregori M, Wirnitzer G, Leitzmann C, Rosemann T, Knechtle B. Nutrients; 2021 Aug 13; 13(8):. PubMed ID: 34444935 [Abstract] [Full Text] [Related]
36. Phenotypic dissection of bone mineral density reveals skeletal site specificity and facilitates the identification of novel loci in the genetic regulation of bone mass attainment. Kemp JP, Medina-Gomez C, Estrada K, St Pourcain B, Heppe DH, Warrington NM, Oei L, Ring SM, Kruithof CJ, Timpson NJ, Wolber LE, Reppe S, Gautvik K, Grundberg E, Ge B, van der Eerden B, van de Peppel J, Hibbs MA, Ackert-Bicknell CL, Choi K, Koller DL, Econs MJ, Williams FM, Foroud T, Zillikens MC, Ohlsson C, Hofman A, Uitterlinden AG, Davey Smith G, Jaddoe VW, Tobias JH, Rivadeneira F, Evans DM. PLoS Genet; 2014 Jun 13; 10(6):e1004423. PubMed ID: 24945404 [Abstract] [Full Text] [Related]
37. NRF2 intron 3 A/G polymorphism is associated with endurance athletes' status. Eynon N, Sagiv M, Meckel Y, Duarte JA, Alves AJ, Yamin C, Sagiv M, Goldhammer E, Oliveira J. J Appl Physiol (1985); 2009 Jul 13; 107(1):76-9. PubMed ID: 19478192 [Abstract] [Full Text] [Related]
38. Bone mineral density and degenerative changes of the lumbar spine in former elite athletes. Schmitt H, Friebe C, Schneider S, Sabo D. Int J Sports Med; 2005 Jul 13; 26(6):457-63. PubMed ID: 16037888 [Abstract] [Full Text] [Related]
39. Regional bone mineral density in male athletes: a comparison of soccer players, runners and controls. Fredericson M, Chew K, Ngo J, Cleek T, Kiratli J, Cobb K. Br J Sports Med; 2007 Oct 13; 41(10):664-8; discussion 668. PubMed ID: 17473003 [Abstract] [Full Text] [Related]
40. WNT16 influences bone mineral density, cortical bone thickness, bone strength, and osteoporotic fracture risk. Zheng HF, Tobias JH, Duncan E, Evans DM, Eriksson J, Paternoster L, Yerges-Armstrong LM, Lehtimäki T, Bergström U, Kähönen M, Leo PJ, Raitakari O, Laaksonen M, Nicholson GC, Viikari J, Ladouceur M, Lyytikäinen LP, Medina-Gomez C, Rivadeneira F, Prince RL, Sievanen H, Leslie WD, Mellström D, Eisman JA, Movérare-Skrtic S, Goltzman D, Hanley DA, Jones G, St Pourcain B, Xiao Y, Timpson NJ, Smith GD, Reid IR, Ring SM, Sambrook PN, Karlsson M, Dennison EM, Kemp JP, Danoy P, Sayers A, Wilson SG, Nethander M, McCloskey E, Vandenput L, Eastell R, Liu J, Spector T, Mitchell BD, Streeten EA, Brommage R, Pettersson-Kymmer U, Brown MA, Ohlsson C, Richards JB, Lorentzon M. PLoS Genet; 2012 Jul 13; 8(7):e1002745. PubMed ID: 22792071 [Abstract] [Full Text] [Related] Page: [Previous] [Next] [New Search]