Abstract
Bioelectrical impedance vector analysis (BIVA) is a method used to estimate variation in body hydration. We assessed the potential of BIVA for monitoring daily body hydration fluctuations in nine healthy, normally active males under matching normoxic (NX) and hypobaric hypoxic (HH) experimental conditions. Furthermore, we aimed to investigate whether changes in BIVA may correspond with the development of acute mountain sickness (AMS). Subjects were exposed in a hypobaric chamber to both NX (corresponding to an altitude of 262 m) and HH conditions corresponding to an altitude of 3500 m during two four-day sojourns within which food, water intake and physical activity were controlled. Bioimpedance and body weight measurements were performed three times a day and medical symptoms were assessed every morning using the Lake Louise score (LLS). Total body water (TBW) was also assessed on the last day of both sojourns using the deuterium dilution technique. We detected circadian changes in vector length, indicating circadian body water variations that did not differ between NX and HH conditions (ANOVA effects: time: p = 0.018, eta2 = 0.149; interaction: p = 0.214, eta2 = 0.083; condition: p = 0.920, eta2 = 0.001). Even though none of the subjects developed AMS, four subjects showed clinical symptoms according to the LLS during the first 24 hours of HH conditions. These subjects showed a pronounced (Cohen’s d: 1.09), yet not statistically significant (p = 0.206) decrease in phase angle 6 hours after exposure, which may indicate fluid shift from the intracellular to the extracellular compartment. At the end of each sojourn, vector length correlated with deuterium dilution TBW “gold standard” measurements (linear regression: NX: p = 0.002 and r2 = 0.756, HH: p < 0.001 and r2 = 0.84). BIVA can be considered a valuable method for monitoring body hydration changes at altitude. Whether such changes are related to the development of clinical symptoms associated with AMS, as indicated in the present investigation, must be confirmed in future studies.
Highlights
Circadian Body Fluid Fluctuations at NX and hypobaric hypoxic (HH). During both the NX and HH sojourn, we detected similar circadian rhythms with the longest vectors measured in the morning and shorter ones during the day and in the
TBWiscircadian rhythm is not influenced by afluid prolonged hypobaric hypoxic exposure for, Total body water (TBW) circadian rhythm is not influenced by a prolonged hypobaric hypoxic corresponding to 3500 m
We showed that vector length correlated well with deuterium dilution TBW measurements, widely considered the “gold standard”, confirming that vector length provides specific information on total body water content [3]
Summary
Bioelectrical impendence analysis (BIA) is a non-invasive tool for assessing body hydration [1,2]. An alternating electrical current is delivered and electrical impedance (Z), composed of electrical resistance (R) and reactance (Xc), is quantified. R is determined by the body’s resistive (i.e., opposition to flow of current) elements, and Xc is determined by the body’s capacitive elements; both differ between body fluids and structures [3,4].
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