Fetal programming of body composition: relation between birth weight and body composition measured with dual-energy x-ray absorptiometry and anthropometric methods in older Englishmen
Fetal programming of body composition: relation between birth weight and body composition measured with dual-energy x-ray absorptiometry and anthropometric methods in older Englishmen
Background: Reduced fetal growth is associated with differences in body composition in adult life that may predispose to cardiovascular disease and diabetes. Most published data are based on simple anthropometric measures, which incompletely describe body composition.
Objective: The objective was to assess body composition and fat distribution by using dual-energy X-ray absorptiometry (DXA).
Design: This was a case-control study of 64–72-y-old white men (n = 32) with a low (x: 2.76 kg) or high (x: 4.23 kg) birth weight.
Results: Compared with the high-birth-weight group, after adjustment for weight and height, the low-birth-weight group had a higher percentage body fat (29.31% compared with 25.33%; P = 0.029) and fat mass (P = 0.039) but a lower fat-free soft tissue (56.32 compared with 59.22 kg; P = 0.024), muscle mass (27.25 compared with 29.22 kg; P = 0.022), and muscle-to-fat ratio. Low birth weight was also associated with a higher trunk-to-limb fat ratio after control for total fat mass (1.42 compared with 1.16; P = 0.005) or percentage body fat (P = 0.041). The same body mass index predicted a greater percentage body fat (P = 0.019) in the low- than in the high-birth-weight group, and the same ratio of trunk-to-limb skinfold thickness (or waist-to-hip ratio) predicted a higher trunk-to-limb fat ratio (P < 0.01).
Conclusion: Lifelong differences in adult body composition and fat distribution between the low- and high-birth-weight groups are consistent with programming in early life. The use of BMI to predict percentage body fat and the use of the trunk-to-limb skinfold thickness ratio (and waist-to-hip ratio) to predict the trunk-to-limb fat ratio measured by DXA can be misleading when low- and high-birth-weight groups are compared.
body composition, birth weight, fat, lean mass, muscle programming, body mass index, dual-energy x-ray absorptiometry, waist-to-hip ratio, fat distribution, skinfold thickness
980-987
Kensara, Osama A.
64a8273b-dbe1-4e92-8b41-6165284df280
Wootton, Steve A.
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Phillips, David I.
29b73be7-2ff9-4fff-ae42-d59842df4cc6
Patel, Mayke
27baf7c6-a87c-4ecf-beca-734f59e88fe2
Jackson, Alan A.
c9a12d7c-b4d6-4c92-820e-890a688379ef
Elia, Marinos
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
November 2005
Kensara, Osama A.
64a8273b-dbe1-4e92-8b41-6165284df280
Wootton, Steve A.
bf47ef35-0b33-4edb-a2b0-ceda5c475c0c
Phillips, David I.
29b73be7-2ff9-4fff-ae42-d59842df4cc6
Patel, Mayke
27baf7c6-a87c-4ecf-beca-734f59e88fe2
Jackson, Alan A.
c9a12d7c-b4d6-4c92-820e-890a688379ef
Elia, Marinos
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
Kensara, Osama A., Wootton, Steve A., Phillips, David I., Patel, Mayke, Jackson, Alan A. and Elia, Marinos
(2005)
Fetal programming of body composition: relation between birth weight and body composition measured with dual-energy x-ray absorptiometry and anthropometric methods in older Englishmen.
American Journal of Clinical Nutrition, 82 (5), .
Abstract
Background: Reduced fetal growth is associated with differences in body composition in adult life that may predispose to cardiovascular disease and diabetes. Most published data are based on simple anthropometric measures, which incompletely describe body composition.
Objective: The objective was to assess body composition and fat distribution by using dual-energy X-ray absorptiometry (DXA).
Design: This was a case-control study of 64–72-y-old white men (n = 32) with a low (x: 2.76 kg) or high (x: 4.23 kg) birth weight.
Results: Compared with the high-birth-weight group, after adjustment for weight and height, the low-birth-weight group had a higher percentage body fat (29.31% compared with 25.33%; P = 0.029) and fat mass (P = 0.039) but a lower fat-free soft tissue (56.32 compared with 59.22 kg; P = 0.024), muscle mass (27.25 compared with 29.22 kg; P = 0.022), and muscle-to-fat ratio. Low birth weight was also associated with a higher trunk-to-limb fat ratio after control for total fat mass (1.42 compared with 1.16; P = 0.005) or percentage body fat (P = 0.041). The same body mass index predicted a greater percentage body fat (P = 0.019) in the low- than in the high-birth-weight group, and the same ratio of trunk-to-limb skinfold thickness (or waist-to-hip ratio) predicted a higher trunk-to-limb fat ratio (P < 0.01).
Conclusion: Lifelong differences in adult body composition and fat distribution between the low- and high-birth-weight groups are consistent with programming in early life. The use of BMI to predict percentage body fat and the use of the trunk-to-limb skinfold thickness ratio (and waist-to-hip ratio) to predict the trunk-to-limb fat ratio measured by DXA can be misleading when low- and high-birth-weight groups are compared.
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Published date: November 2005
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Original research communication
Keywords:
body composition, birth weight, fat, lean mass, muscle programming, body mass index, dual-energy x-ray absorptiometry, waist-to-hip ratio, fat distribution, skinfold thickness
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Local EPrints ID: 25712
URI: http://eprints.soton.ac.uk/id/eprint/25712
ISSN: 0002-9165
PURE UUID: 9344fdaf-87d9-4737-9181-da31d67162ec
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Date deposited: 10 Apr 2006
Last modified: 15 Mar 2024 07:04
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Author:
Osama A. Kensara
Author:
David I. Phillips
Author:
Mayke Patel
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