Literature DB >> 21784894

GFR normalized to total body water allows comparisons across genders and body sizes.

Bjørn O Eriksen1, Toralf Melsom, Ulla D Mathisen, Trond G Jenssen, Marit D Solbu, Ingrid Toft.   

Abstract

The normalization of GFR to a standardized body-surface area of 1.73 m(2) impedes comparison of GFR across individuals of different genders, heights, or weights. Ideally, GFR should be normalized to a parameter that best explains variation in GFR. Here, we measured true GFR by iohexol clearance in a representative sample of 1627 individuals from the general population who did not have diabetes, cardiovascular disease, or kidney disease. We also estimated total body water (TBW), extracellular fluid volume, lean body mass, liver volume, metabolic rate, and body-surface area. We compared two methods of normalizing GFR to these physiologic variables: (1) the conventional method of scaling GFR to each physiologic variable by simple division and (2) a method based on regression of the GFR on each variable. TBW explained a higher proportion of the variation in GFR than the other physiologic variables. GFR adjusted for TBW by the regression method exhibited less dependence on gender, height, and weight compared with the other physiologic variables. Thus, adjusting GFR for TBW by the regression method allows direct comparisons between individuals of different genders, weights, and heights. We propose that regression-based normalization of GFR to a standardized TBW of 40 L should replace the current practice of normalizing GFR to 1.73 m(2) of body-surface area.

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Year:  2011        PMID: 21784894      PMCID: PMC3148706          DOI: 10.1681/ASN.2010121321

Source DB:  PubMed          Journal:  J Am Soc Nephrol        ISSN: 1046-6673            Impact factor:   10.121


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1.  Indexed glomerular filtration rate as a function of age and body size.

Authors:  A M Peters; B L Henderson; D Lui
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Authors:  M Rydström; B Tengström; I Cederquist; J Ahlmén
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3.  Total body water volumes for adult males and females estimated from simple anthropometric measurements.

Authors:  P E Watson; I D Watson; R D Batt
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Authors:  C G Eriksson; A Kallner
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Authors:  S C Brown; P H O'Reilly
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