Sensitivity of multiple frequency bioelectrical impedance analysis to changes in ion status

Abstract

Bioelectrical impedance analysis has found extensive application as a simple non-invasive method for the assessment of body fluid volumes. The measured impedance is, however, not only related to the volume of fluid but also to its inherent resistivity. The primary determinant of the resistivities of body fluids is the concentration of ions. The aim of this study was to investigate the sensitivity of bioelectrical impedance analysis to bodily ion status. Whole body impedance over a range of frequencies (4-1012 kHz) of rats was measured during infusion of various concentrations of saline into rats concomitant with measurement of total body and intracellular water by tracer dilution techniques. Extracellular resistance (R0), intracellular resistance (Ri) and impedance at the characteristic frequency (Zc) were calculated. R0 and Zc were used to predict extracellular and total body water respectively using previously published formulae. The results showed that whilst R0 and Zc decreased proportionately to the amount of NaCl infused, Ri increased only slightly. Impedances at the end of infusion predicted increases in TBW and ECW of approximately 4-6% despite a volume increase of less than 0.5% in TBW due to the volume of fluid infused. These data are discussed in relation to the assumption of constant resistivity in the prediction of fluid volumes from impedance data.