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Items: 1 to 20 of 95


A bivariate whole-genome linkage scan suggests several shared genomic regions for obesity and osteoporosis.

Tang ZH, Xiao P, Lei SF, Deng FY, Zhao LJ, Deng HY, Tan LJ, Shen H, Xiong DH, Recker RR, Deng HW.

J Clin Endocrinol Metab. 2007 Jul;92(7):2751-7. Epub 2007 May 1.


Bivariate whole genome linkage analyses for total body lean mass and BMD.

Wang XL, Deng FY, Tan LJ, Deng HY, Liu YZ, Papasian CJ, Recker RR, Deng HW.

J Bone Miner Res. 2008 Mar;23(3):447-52.


Bivariate whole genome linkage analysis for femoral neck geometric parameters and total body lean mass.

Deng FY, Xiao P, Lei SF, Zhang L, Yang F, Tang ZH, Liu PY, Liu YJ, Recker RR, Deng HW.

J Bone Miner Res. 2007 Jun;22(6):808-16.


Quantitative trait loci for BMD identified by autosome-wide linkage scan to chromosomes 7q and 21q in men from the Amish Family Osteoporosis Study.

Streeten EA, McBride DJ, Pollin TI, Ryan K, Shapiro J, Ott S, Mitchell BD, Shuldiner AR, O'Connell JR.

J Bone Miner Res. 2006 Sep;21(9):1433-42.


Loci for regulation of bone mineral density in men and women identified by genome wide linkage scan: the FAMOS study.

Ralston SH, Galwey N, MacKay I, Albagha OM, Cardon L, Compston JE, Cooper C, Duncan E, Keen R, Langdahl B, McLellan A, O'Riordan J, Pols HA, Reid DM, Uitterlinden AG, Wass J, Bennett ST.

Hum Mol Genet. 2005 Apr 1;14(7):943-51. Epub 2005 Mar 3.


A whole-genome linkage scan suggests several genomic regions potentially containing quantitative trait Loci for osteoporosis.

Deng HW, Xu FH, Huang QY, Shen H, Deng H, Conway T, Liu YJ, Liu YZ, Li JL, Zhang HT, Davies KM, Recker RR.

J Clin Endocrinol Metab. 2002 Nov;87(11):5151-9.


Genome-wide scan identified QTLs underlying femoral neck cross-sectional geometry that are novel studied risk factors of osteoporosis.

Xiong DH, Shen H, Xiao P, Guo YF, Long JR, Zhao LJ, Liu YZ, Deng HY, Li JL, Recker RR, Deng HW.

J Bone Miner Res. 2006 Mar;21(3):424-37. Epub 2005 Dec 5.


Genome-wide linkage screen of bone mineral density (BMD) in European pedigrees ascertained through a male relative with low BMD values: evidence for quantitative trait loci on 17q21-23, 11q12-13, 13q12-14, and 22q11.

Kaufman JM, Ostertag A, Saint-Pierre A, Cohen-Solal M, Boland A, Van Pottelbergh I, Toye K, de Vernejoul MC, Martinez M.

J Clin Endocrinol Metab. 2008 Oct;93(10):3755-62. doi: 10.1210/jc.2008-0678. Epub 2008 Jul 29.


Genomic regions identified for BMD in a large sample including epistatic interactions and gender-specific effects.

Xiao P, Shen H, Guo YF, Xiong DH, Liu YZ, Liu YJ, Zhao LJ, Long JR, Guo Y, Recker RR, Deng HW.

J Bone Miner Res. 2006 Oct;21(10):1536-44.


Univariate and bivariate variance component linkage analysis of a whole-genome scan for loci contributing to bone mineral density.

Devoto M, Spotila LD, Stabley DL, Wharton GN, Rydbeck H, Korkko J, Kosich R, Prockop D, Tenenhouse A, Sol-Church K.

Eur J Hum Genet. 2005 Jun;13(6):781-8.


Large-scale genome-wide linkage analysis for loci linked to BMD at different skeletal sites in extreme selected sibships.

Hsu YH, Xu X, Terwedow HA, Niu T, Hong X, Wu D, Wang L, Brain JD, Bouxsein ML, Cummings SR, Rosen CJ, Xu X.

J Bone Miner Res. 2007 Feb;22(2):184-94.


Genome screen for quantitative trait loci contributing to normal variation in bone mineral density: the Framingham Study.

Karasik D, Myers RH, Cupples LA, Hannan MT, Gagnon DR, Herbert A, Kiel DP.

J Bone Miner Res. 2002 Sep;17(9):1718-27.


A second-stage genome scan for QTLs influencing BMD variation.

Huang QY, Xu FH, Shen H, Zhao LJ, Deng HY, Liu YJ, Dvomyk V, Conway T, Davies KM, Li JL, Liu YZ, Recker RR, Deng HW.

Calcif Tissue Int. 2004 Aug;75(2):138-43. Epub 2004 Apr 8.


Quantitative trait loci on chromosomes 2p, 4p, and 13q influence bone mineral density of the forearm and hip in Mexican Americans.

Kammerer CM, Schneider JL, Cole SA, Hixson JE, Samollow PB, O'Connell JR, Perez R, Dyer TD, Almasy L, Blangero J, Bauer RL, Mitchell BD.

J Bone Miner Res. 2003 Dec;18(12):2245-52.


A genome-wide linkage scan for bone mineral density in an extended sample: evidence for linkage on 11q23 and Xq27.

Shen H, Zhang YY, Long JR, Xu FH, Liu YZ, Xiao P, Zhao LJ, Xiong DH, Liu YJ, Dvornyk V, Rocha-Sanchez S, Liu PY, Li JL, Conway T, Davies KM, Recker RR, Deng HW.

J Med Genet. 2004 Oct;41(10):743-51.


Comparison of genome screens for two independent cohorts provides replication of suggestive linkage of bone mineral density to 3p21 and 1p36.

Wilson SG, Reed PW, Bansal A, Chiano M, Lindersson M, Langdown M, Prince RL, Thompson D, Thompson E, Bailey M, Kleyn PW, Sambrook P, Shi MM, Spector TD.

Am J Hum Genet. 2003 Jan;72(1):144-55. Epub 2002 Dec 11.


Age, gender, and body mass effects on quantitative trait loci for bone mineral density: the Framingham Study.

Karasik D, Cupples LA, Hannan MT, Kiel DP.

Bone. 2003 Sep;33(3):308-16.


A whole genome linkage scan for QTLs underlying peak bone mineral density.

Zhang F, Xiao P, Yang F, Shen H, Xiong DH, Deng HY, Papasian CJ, Drees BM, Hamilton JJ, Recker RR, Deng HW.

Osteoporos Int. 2008 Mar;19(3):303-10. Epub 2007 Sep 19.


Mapping quantitative trait loci for cross-sectional geometry at the femoral neck.

Shen H, Long JR, Xiong DH, Liu YJ, Liu YZ, Xiao P, Zhao LJ, Dvornyk V, Zhang YY, Rocha-Sanchez S, Liu PY, Li JL, Deng HW.

J Bone Miner Res. 2005 Nov;20(11):1973-82. Epub 2005 Jul 18.


Genome screen for a combined bone phenotype using principal component analysis: the Framingham study.

Karasik D, Cupples LA, Hannan MT, Kiel DP.

Bone. 2004 Mar;34(3):547-56.


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