Abstract
BackgroundBioelectrical impedance vector analysis (BIVA) is a technique for the assessment of hydration and nutritional status, used in the clinical practice. Specific BIVA is an analytical variant, recently proposed for the Italian elderly population, that adjusts bioelectrical values for body geometry.ObjectiveEvaluating the accuracy of specific BIVA in the adult U.S. population, compared to the ‘classic’ BIVA procedure, using DXA as the reference technique, in order to obtain an interpretative model of body composition.DesignA cross-sectional sample of 1590 adult individuals (836 men and 754 women, 21–49 years old) derived from the NHANES 2003–2004 was considered. Classic and specific BIVA were applied. The sensitivity and specificity in recognizing individuals below the 5th and above the 95th percentiles of percent fat (FMDXA%) and extracellular/intracellular water (ECW/ICW) ratio were evaluated by receiver operating characteristic (ROC) curves. Classic and specific BIVA results were compared by a probit multiple-regression.ResultsSpecific BIVA was significantly more accurate than classic BIVA in evaluating FMDXA% (ROC areas: 0.84–0.92 and 0.49–0.61 respectively; p = 0.002). The evaluation of ECW/ICW was accurate (ROC areas between 0.83 and 0.96) and similarly performed by the two procedures (p = 0.829). The accuracy of specific BIVA was similar in the two sexes (p = 0.144) and in FMDXA% and ECW/ICW (p = 0.869).ConclusionsSpecific BIVA showed to be an accurate technique. The tolerance ellipses of specific BIVA can be used for evaluating FM% and ECW/ICW in the U.S. adult population.
Highlights
The assessment of body composition, i.e. fat mass and fat free mass – according to the two-compartment model – and of hydration status, is essential in epidemiological studies or routine biomedical practice, in the fields of nutritional research, geriatrics, and sports medicine.the more accurate methodologies for the assessment of body composition and hydration status are procedurally complex, relatively invasive and expensive, not suitable in routine medical practice or epidemiology.Bioelectrical impedance analysis (BIA), and its variants multifrequency BIA and bioimpedance spectroscopy (BIS), are easy and non-invasive methods for assessing body composition [1]
The accuracy of specific Bioelectrical impedance vector analysis (BIVA) was similar in the two sexes (p = 0.144) and in FMDXA% and Extra cellular water (ECW)/Intra cellular water (ICW) (p = 0.869)
The tolerance ellipses of specific BIVA can be used for evaluating FM% and ECW/ICW in the U.S adult population
Summary
The assessment of body composition, i.e. fat mass and fat free mass – according to the two-compartment model – and of hydration status, is essential in epidemiological studies or routine biomedical practice, in the fields of nutritional research, geriatrics, and sports medicine. Bioelectrical impedance analysis (BIA), and its variants multifrequency BIA and bioimpedance spectroscopy (BIS), are easy and non-invasive methods for assessing body composition [1]. These methods are based on the analysis of bioelectrical impedance in the human body ( the resistive component) at the passage of an alternating electrical current of low intensity. Bioelectrical impedance vector analysis (BIVA) is a technique for the assessment of hydration and nutritional status, used in the clinical practice. Specific BIVA is an analytical variant, recently proposed for the Italian elderly population, that adjusts bioelectrical values for body geometry
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