Single- and multifrequency models for bioelectrical impedance analysis of body water compartments

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Single- and multifrequency models for bioelectrical impedance analysis of body water compartments

R. Gudivaka, D. A. Schoeller, R. F. Kushner, and M. J. G. Bolt

Clinical Nutrition Research Unit, University of Chicago, Chicago, Illinois 60637

The 1994 National Institutes of Health Technology Conference on bioelectrical impedance analysis (BIA) did not support theuse of BIA under conditions that alter the normal relationshipbetween the extracellular (ECW) and intracellular water (ICW)compartments. To extend applications of BIA to these populations,we investigated the accuracy and precision of seven previouslypublished BIA models for the measurement of change in body watercompartmentalization among individuals infused with lactated Ringersolution or administered a diuretic agent. Results were comparedwith dilution by using deuterium oxide and bromide combined withshort-term changes of body weight. BIA, with use of proximal,tetrapolar electrodes, was measured from 5 to 500 kHz, including50 kHz. Single-frequency, 50-kHz models did not accurately predictchange in total body water, but the 50-kHz parallel model didaccurately measure changes in ICW. The only model that accuratelypredicted change in ECW, ICW, and total body water was the 0/ $infinity$ -kHzparallel (Cole-Cole) multifrequency model. Use of the Hanai correctionfor mixing was less accurate. We conclude that the multifrequencyCole-Cole model is superior under conditions in which body watercompartmentalization is altered from the normalstate.

body composition; bioimpedance; deuterium; bromide; modeling

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