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dc.contributor.authorNevill, Alan M.
dc.contributor.authorStewart, Arthur D.
dc.contributor.authorOlds, Tim
dc.contributor.authorHolder, Roger L.
dc.date.accessioned2007-01-31T14:12:59Z
dc.date.available2007-01-31T14:12:59Z
dc.date.issued2006
dc.date.submitted2007-01-31
dc.identifier.citationAmerican Journal of Physical Anthropology, 129(1): 151-156
dc.identifier.issn0002-9483
dc.identifier.pmid16270304
dc.identifier.doi10.1002/ajpa.20262
dc.identifier.urihttp://hdl.handle.net/2436/8003
dc.description.abstractThe aims of this study were to assess 1) whether the stature-adjusted body mass index (BMI) is a valid proxy for adiposity across both athletic and nonathletic populations, and 2) whether skinfold measurements increase in proportion to body size, thus obeying the principle of geometric similarity. The research design was cross-sectional, allowing the relationship between skinfold calliper readings (at eight sites and between specific athletic and nonathletic groups, n = 478) and body size (either mass, stature, or both) to be explored both collectively, using proportional allometric MANCOVA, and individually (for each site) with follow-up ANCOVAs. Skinfolds increase at a much greater rate relative to body mass than that assumed by geometric similarity, but taller subjects had less rather than more adiposity, calling into question the use of the traditional skinfold-stature adjustment, 170.18/stature. The best body-size index reflective of skinfold measurements was a stature-adjusted body mass index similar to the BMI. However, sporting differences in skinfold thickness persisted, having controlled for differences in body size (approximate BMI) and age, with male strength- and speed-trained athletes having significantly lower skinfolds (32% and 23%, respectively) compared with controls. Similarly, female strength athletes had 29% lower skinfold measurements compared to controls, having controlled for body size and age. These results cast serious doubts on the validity of BMI to represent adiposity accurately and its ability to differentiate between populations. These findings suggest a more valid (less biased) assessment of fatness will be obtained using surface anthropometry such as skinfolds taken by experienced practitioners following established procedures.
dc.format.extent127164 bytes
dc.format.mimetypeapplication/pdf
dc.language.isoen
dc.publisherWiley InterScience
dc.relation.urlhttp://www3.interscience.wiley.com/journal/112139050/abstract
dc.subjectAdiposity
dc.subjectBody Size
dc.subjectBMI
dc.subjectBody Mass Index
dc.titleRelationship between adiposity and body size reveals limitations of BMI.
dc.typeJournal article
dc.identifier.journalAmerican Journal of Physical Anthropology
dc.format.digYES
refterms.dateFOA2018-08-20T14:07:14Z
html.description.abstractThe aims of this study were to assess 1) whether the stature-adjusted body mass index (BMI) is a valid proxy for adiposity across both athletic and nonathletic populations, and 2) whether skinfold measurements increase in proportion to body size, thus obeying the principle of geometric similarity. The research design was cross-sectional, allowing the relationship between skinfold calliper readings (at eight sites and between specific athletic and nonathletic groups, n = 478) and body size (either mass, stature, or both) to be explored both collectively, using proportional allometric MANCOVA, and individually (for each site) with follow-up ANCOVAs. Skinfolds increase at a much greater rate relative to body mass than that assumed by geometric similarity, but taller subjects had less rather than more adiposity, calling into question the use of the traditional skinfold-stature adjustment, 170.18/stature. The best body-size index reflective of skinfold measurements was a stature-adjusted body mass index similar to the BMI. However, sporting differences in skinfold thickness persisted, having controlled for differences in body size (approximate BMI) and age, with male strength- and speed-trained athletes having significantly lower skinfolds (32% and 23%, respectively) compared with controls. Similarly, female strength athletes had 29% lower skinfold measurements compared to controls, having controlled for body size and age. These results cast serious doubts on the validity of BMI to represent adiposity accurately and its ability to differentiate between populations. These findings suggest a more valid (less biased) assessment of fatness will be obtained using surface anthropometry such as skinfolds taken by experienced practitioners following established procedures.


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