Influence of acute water ingestion and prolonged standing on raw bioimpedance and subsequent body fluid and composition estimates

Authors

Grant M. Tinsley, Texas Tech UniversityFollow
Matthew T. Stratton, Texas Tech University
Patrick S. Harty, Texas Tech University
Abegale D. Williams, Texas Tech University
Sarah J. White, Texas Tech University
Christian Rodriguez, Texas Tech University
Jacob R. Dellinger, Texas Tech University
Baylor A. Johnson, Texas Tech University
Robert W. Smith, University of Nebraska-Lincoln
Eric T. Trexler, Stronger By Science LLC Raleigh, NC

Document Type

Article

Date of this Version

4-7-2022

Citation

J Electr Bioimp, vol. 13, pp. 10-20, 2022

https://doi.org/10.2478/joeb-2022-0003

Comments

© 2022 Author(s). This is an open access article licensed under the Creative Commons Attribution License 4.0.

Abstract

This study evaluated the influence of acute water ingestion and maintaining an upright posture on raw bioimpedance and subsequent estimates of body fluids and composition. Twenty healthy adults participated in a randomized crossover study. In both conditions, an overnight food and fluid fast was followed by an initial multi-frequency bioimpedance assessment (InBody 770). Participants then ingested 11 mL/kg of water (water condition) or did not (control condition) during a 5-minute period. Thereafter, bioimpedance assessments were performed every 10 minutes for one hour with participants remaining upright throughout. Linear mixed effects models were used to examine the influence of condition and time on raw bioimpedance, body fluids, and body composition. Water consumption increased impedance of the arms but not trunk or legs. However, drift in leg impedance was observed, with decreasing values over time in both conditions. No effects of condition on body fluids were detected, but total body water and intracellular water decreased by ~0.5 kg over time in both conditions. Correspondingly, lean body mass did not differ between conditions but decreased over the measurement duration. The increase in body mass in the water condition was detected exclusively as fat mass, with final fat mass values ~1.3 kg higher than baseline and also higher than the control condition. Acute water ingestion and prolonged standing exert practically meaningful effects on relevant bioimpedance variables quantified by a modern, vertical multi-frequency analyzer. These findings have implications for pre-assessment standardization, methodological reporting, and interpretation of assessments.