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References in periodicals archive ?
Bioelectric impedance analysis in the diagnosis of vesicoureteral reflux.
Women who underwent radiographic examination of the knees, body composition measurements by bioelectric impedance analysis, experienced natural menopause for at least one year and, completed questionnaires on demographic and clinical data were eligible for the study.
Among direct methods, [3,4] four-compartment model, air displacement plethysmography, and dual-energy X-ray absorptiometry (DXA) are included while indirect methods cover anthropometric measurements, skinfold measurement, body adiposity index, and bioelectric impedance analysis (BIA) to assess body composition.
Body composition estimative and agreement analysis between bipolar and tetrapolar bioelectric impedance analyzers.
Assessment of human body composition using dual energy x-ray absorptiometry and bioelectric Impedance Analysis.
A first study has been published in 2012, in which Yamaguchi and collaborators (15) have attempted to clarify whether silicone gel implants could interfere in body composition analysis by the bioelectric impedance analysis (BIA) technique.
Bioelectric impedance phase angle and body composition.
Traditional bioelectric impedance analysis (BIA) involves predictive equations and new approaches, such as bioelectrical impedance vector analysis (BIVA) and phase angle (PA) (7) studies, which can be useful tools for evaluating a patient's secondary nutritional status.
Bioelectric Impedance analysis is a method that is used to determine body composition.
Field methods include ultrasound, anthropometry, skinfold thickness (SF) and bioelectric impedance (BIA) [4-6].
Comparison of body composition with bioelectric impedance (BIA) and dual energy X-ray absorptiometry (DEXA) among Singapore Chinese.
WW = wet weight (g); FL = fork length (cm); [R.sub.par] = resistance in parallel ([OMEGA]); [Xc.sub.par] = reactance in parallel ([OMEGA]); D = distance between bioelectric impedance detector electrodes (cm); [R.sub.par] conductor volume = [D.sup.2]/[R.sub.par]; K = Fulton's K (100 * WW/[FL.sup.3]); capacitance (pF) is a measure of the electrical storage capacity of cells; impedance (S2) is a measure of the opposition to the flow of electrical current; [R.sub.par]/D = [R.sub.par] standardized forD; phase angle ([degrees]) = arctangent of Xc/R converted to degrees; [DELTA]AICc = difference in AICc values with respect to the most parsimonious model.