Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on sleep in brain health

LIVE: Thursday 2nd May 2024, 18:00-19:30 (CEST)

Quality sleep is essential for health. But what happens to our brains when sleep patterns are disturbed? Join our experts to explore the interplay between sleep disruption and neurological diseases, and the questions that you need to be asking your patients to help you prevent the harmful effects of sleep deprivation.
ADVANCED SEARCH
Log in
Top
Osteoporosis International
Published in: Osteoporosis International 12/2005

01-12-2005 | Original Article

Contribution of lean tissue mass to the urban-rural difference in bone mineral density

Authors: Chatlert Pongchaiyakul, Tuan V. Nguyen, Vongsvat Kosulwat, Nipa Rojroongwasinkul, Somsri Charoenkiatkul, John A. Eisman, Rajata Rajatanavin

Published in: Osteoporosis International | Issue 12/2005

Login to get access

Abstract

While the urban-rural difference in bone mineral density (BMD) has been shown in some, but not all, Western populations, such a difference and the reason for the difference is largely unknown, particularly in developing countries. This cross-sectional, epidemiologic study was designed to examine the hypothesis that differences in measures of body composition such as lean mass (LM) and fat mass (FM) contribute to the urban-rural difference in BMD. Lean mass, fat mass, lumbar spine and femoral neck BMD were measured by DXA (GE Lunar Corp, Wis.) in 411 urban (Bangkok city) and 436 rural (Khon Kaen province) Thai subjects, aged 20–84 years. Rural men and women had significantly higher LM and lower FM than their urban counterparts. In multiple linear regression analysis, age, LM, menopausal status (in women) and residence were independent determinants of BMD. After adjusting for age, menopause and LM, rural subjects were found to have significantly higher femoral neck BMD, but not lumbar spine BMD, than urban subjects. Furthermore, to alleviate the potential effect of multicolinearity of LM and FM, each rural subject was matched with each urban subject for FM and age, which resulted in 46 pairs of men and 91 pairs of women. In this matched-pair analysis, the femoral necks in rural men and women were, respectively, 7.3±2.1% (mean±SE; P <0.01) and 6.3±2.8% ( P <0.02) higher than in urban men and women. The urban-rural difference in LM accounted for approximately 23 and 5% of the urban-rural difference in femoral neck BMD in men and women, respectively. These data are thus consistent with the hypothesis that the urban-rural difference in BMD at a weight-bearing site is in part associated with the urban-rural difference in lean mass.
Literature
1.
Kanis JA (2002) Diagnosis of osteoporosis and assessment of fracture risk. Lancet 359:1929–1936PubMed
2.
Felson DT, Zhang Y, Hannan MT, Anderson JJ (1993) Effects of weight and body mass index on bone mineral density in men and women: the Framingham study. J Bone Miner Res 8:567–573PubMed
3.
Douchi T, Matsuo T, Uto H, Kuwahata T, Oki T, Nagata Y (2003) Lean body mass and bone mineral density in physically exercising postmenopausal women. Maturitas 45:185–190CrossRefPubMed
4.
Douchi T, Kuwahata R, Matsuo T, Uto H, Oki T, Nagata Y (2003) Relative contribution of lean and fat mass component to bone mineral density in males. J Bone Miner Metab 21:17–21CrossRefPubMed
5.
Van Langendonck L, Claessens AL, Lefevre J, et al (2002) Association between bone mineral density (DXA), body structure, and body composition in middle-aged men. Am J Human Biol 14:735–742CrossRef
6.
Winters KM, Snow CM (2000) Body composition predicts bone mineral density and balance in premenopausal women. J Womens Health Gend Based Med 9:865–872CrossRefPubMed
7.
Smerdely P, Seller M, Smith A, Day P, Diamond T (2000) Predictors of bone mass in healthy older men in the community. Med J Aust 173:183–186PubMed
8.
Chen Z, Lohman TG, Stini WA, Ritenbaugh C, Aickin M (1997) Fat or lean tissue mass: which one is the major determinant of bone mineral mass in healthy postmenopausal women? J Bone Miner Res 12:144–151PubMed
9.
Compston JE, Bhambhani M, Laskey MA, Murphy S, Khaw KT (1992) Body composition and bone mass in post-menopausal women. J Clin Endocrinol 37:426–431
10.
Reid IR, Plank LD, Evans MC (1992) Fat mass is an important determinant of whole body bone density in premenopausal women but not in men. J Clin Endocrinol Metab 75:779–782CrossRefPubMed
11.
Reid IR, Ames R, Evans MC, et al. (1992) Determinants of total body and regional bone mineral density in normal postmenopausal women-a key role for fat mass. J Clin Endocrinol Metab 75:45–51CrossRefPubMed
12.
Douchi T, Oki T, Nakamura S, Ijuin H, Yamamoto S, Nagata Y (1997) The effect of body composition on bone density in pre- and postmenopausal women. Maturitas 27:55–60CrossRefPubMed
13.
Nguyen TV, Howard GM, Kelly PJ, Eisman JA (1998) Bone mass, lean mass and fat mass: same genes or same environments? Am J Epidemiol 147:3–16PubMed
14.
Reid IR, Evans MC, Ames RW (1994) Volumetric bone density of the lumbar spine is related to fat mass but not lean mass in normal postmenopausal women. Osteoporos Int 4:362–367CrossRefPubMed
15.
Young D, Hopper JL, Nowson CA, et al (1995) Determinants of bone mass in 10- to 26-year-old females: a twin study. Bone Miner Res 10:558–567
16.
Cooper C, Campion G, Melton LJ 3rd (1992) Hip fractures in the elderly: a world-wide projection. Osteoporos Int 2:285–289PubMed
17.
Lau EM, Lee JK, Suriwongpaisal P, et al (2001) The incidence of hip fracture in four Asian countries: the Asian Osteoporosis Study (AOS). Osteoporos Int 12:239–243CrossRefPubMed
18.
Sanders KM, Nicholson GC, Ugoni AM, Seeman E, Pasco JA, Kotowicz MA (2002) Fracture rates lower in rural than urban communities: the Geelong Osteoporosis Study. J Epidemiol Community Health 56:466–470CrossRefPubMed
19.
Chevalle T, Herman FR, Delmi M, et al (2002) Evaluation of the age-adjusted incidence of hip fractures between urban and rural areas: the difference is not related to the prevalence of institutions for the elderly. Osteoporos Int 13:113–118CrossRefPubMed
20.
Madhok R, Melton LJ 3 rd, Atkinson EJ, O’Fallon WM, Lewallen DG (1993) Urban versus rural increase in hip fracture incidence. Age and sex of 901 cases 1980–1989 in Olmsted County, USA. Acta Orthop Scand 64:543–548PubMed
21.
Falch JA, Kaastad TS, Bohler G, Espeland J, Sundsvold OJ (1993) Secular increase and geographical differences in hip fracture incidence in Norway. Bone 14:643–645CrossRefPubMed
22.
Kaastad TS, Meyer HE, Falch JA (1998) Incidence of hip fracture in Oslo, Norway: differences within the city. Bone 22:175–178CrossRefPubMed
23.
Mannius S, Mellstrom D, Oden A, Rundgren A, Zetterberg C (1987) Incidence of hip fracture in western Sweden 1974–1982. Comparison of rural and urban populations. Acta Orthop Scand 58:38–42PubMed
24.
Gardsell P, Johnell O, Nilsson BE, Sernbo I (1991) Bone mass in an urban and a rural population: a comparative, population-based study in southern Sweden. J Bone Miner Res 6:67–75PubMed
25.
Li N, Ou P, Zhu H, et al (2001) Study on the prevalence rate of primary osteopenia in the middle-aged and the elderly population in some parts of China. Zhonghua Liu Xing Bing Xue Za Zhi 22:125–128PubMed
26.
Sundberg M, Duppe H, Gardsell P, Johnell O, Ornstein E, Sernbo I (1997) Bone mineral density in adolescents. Higher values in a rural area—a population-based study of 246 subjects in southern Sweden. Acta Orthop Scand 68:456–460PubMed
27.
Jonsson B, Gardsell P, Johnell O, Sernbo I, Gullberg B (1993) Life-style and different fracture prevalence: a cross-sectional comparative population-based study. Calcif Tissue Int 52:425–433CrossRefPubMed
28.
Nguyen TV, Sambrook PN, Eisman JA (1998) Bone loss, physical activity, and weight change in elderly women: the Dubbo Osteoporosis Epidemiology Study. J Bone Miner Res 13:1458–1467PubMed
29.
Proctor DN, Melton LJ, Khosla S, Crowson CS, O’Connor MK, Riggs BL (2000) Relative influence of physical activity, muscle mass and strength on bone density. Osteoporos Int 11:944–952CrossRefPubMed
30.
Marshall TA, Stumbo PJ, Warren JJ, Xie XJ (2001) Inadequate nutrient intakes are common and are associated with low diet variety in rural, community-dwelling elderly. J Nutr 131:2192–2196PubMed
31.
Gaddi A, Cicero AF, Wani FO, Dormi A, Pasquarelli V, D’Addato S (2001) The realization of a project aimed at reducing the plasmatic lipid level in a large Italian population improves the mean calcium daily intake: the Brisighella Study. Eur J Clin Nutr 55:97–106CrossRefPubMed
32.
Dibba B, Prentice A, Ceesay M, Stirling DM, Cole TJ, Poskitt EM (2000) Effect of calcium supplementation on bone mineral accretion in Gambian children accustomed to a low-calcium diet. Am J Clin Nutr 71:544–549PubMed
33.
Pettifor JM, Moodley GP (1997) Appendicular bone mass in children with a high prevalence of low dietary calcium intakes. J Bone Miner Res 12:1824–1832PubMed
34.
35.
Holbrook TL, Barrett-Connor E (1993) The association of lifetime weight and weight control patterns with bone mineral density in an adult community. Bone Miner 20:141–149PubMed
36.
Ravn P, Cizza G, Bjarnason NH, et al (1999) Low body mass index is an important risk factor for low bone mass and increased bone loss in early postmenopausal women. J Bone Miner Res 14:1622–1627PubMed
37.
Khosla S, Melton LJ 3rd, Riggs BL (2002) Estrogen and the male skeleton. J Clin Endocrinol Metab 87:1443–1450CrossRefPubMed
Metadata
Title
Contribution of lean tissue mass to the urban-rural difference in bone mineral density
Authors
Chatlert Pongchaiyakul
Tuan V. Nguyen
Vongsvat Kosulwat
Nipa Rojroongwasinkul
Somsri Charoenkiatkul
John A. Eisman
Rajata Rajatanavin
Publication date
01-12-2005
Publisher
Springer-Verlag
Published in
Osteoporosis International / Issue 12/2005
Print ISSN: 0937-941X
Electronic ISSN: 1433-2965
DOI
https://doi.org/10.1007/s00198-005-1921-5

Other articles of this Issue 12/2005

Osteoporosis International 12/2005 Go to the issue

Original Article

Musculoskeletal manifestations of mild osteogenesis imperfecta in the adult

Original Article

A controlled trial of the effect of milk basic protein (MBP) supplementation on bone metabolism in healthy menopausal women

Original Article

Pediatric in vivo cross-calibration between the GE Lunar Prodigy and DPX-L bone densitometers

Original Article

Diagnosis of osteoporosis: visual assessment on conventional versus digital radiographs

Original Article

Reporting of vertebral fractures on spine X-rays

Original Article

Survival after hip fracture