Use of bioelectrical impedance in hydration status assessment: reliability of a new tool in psychophysiology research.

Adequate hydration is crucial in maintaining optimal physical and mental functioning and the need for a fast and reliable hydration status assessment in behavioral medicine research has become increasingly important. The goal of this study was to determine the reliability of bioelectrical impedance assessment (BIA) in assessing total body water (TBW), extracellular water (ECW) and intracellular water (ICW) and to assess whether individuals can be reliably classified as being hypohydrated or hyperhydrated using lower and upper quartiles, respectively. TBW, ECW and ICW were assessed via BIA (Bodystat, Isle of Man, UK) in 52 male and 48 female college students on 2 separate days within 1 week. Results revealed strong test-retest reliability for TBW (r=0.983), ECW (r=0.972) and ICW (r=0.988) (all P's<0.001). Following the initial and follow-up assessments, participants were then classified as being either hypohydrated or hyperhydrated based on the percentage of body weight accounted for by TBW. Test-retest reliability of hydration status within classifications was then assessed by gender. Test-retest reliability was found for TBW, ECW and ICW among hypohydrated (r=0.985, r=0.972 and r=0.99, respectively) and hyperhydrated (r=0.994, r=0.989 and r=0.994, respectively) males (all P's<0.001). Significant test-retest correlations were also found for females classified as being hypohydrated (r=0.97, r=0.956 and r=0.976, respectively) and hyperhydrated (r=0.973, r=0.976 and r=0.976, respectively) (all P's<0.001). These findings suggest that hydration status, as indexed by bioelectrical impedance technique, is reliable across time and is also reliable within individuals who are chronically hyperhydrated or hypohydrated.

[1]  J. Conant,et al.  Recommended Dietary Allowances , 1964, Clinical pediatrics.

[2]  V. Convertino,et al.  Plasma volume during stress in man: osmolality and red cell volume. , 1979, Journal of applied physiology: respiratory, environmental and exercise physiology.

[3]  D. Redwood,et al.  Blood Fibrinolytic Activity in Man: Diurnal Variation and the Response to Varying Intensities of Exercise , 1970, Circulation research.

[4]  R V Patel,et al.  Estimation of total body and extracellular water in post-coronary artery bypass graft surgical patients using single and multiple frequency bioimpedance. , 1996, Critical care medicine.

[5]  W. van Beaumont Evaluation of hemoconcentration from hematocrit measurements. , 1972, Journal of applied physiology.

[6]  S. Willich,et al.  Concurrent morning increase in platelet aggregability and the risk of myocardial infarction and sudden cardiac death. , 1987, The New England journal of medicine.

[7]  K. Matthews,et al.  Stress-induced hemoconcentration of blood cells and lipids in healthy women during acute psychological stress. , 1995, Health psychology : official journal of the Division of Health Psychology, American Psychological Association.

[8]  T. Barbieri,et al.  Predicting total body water and extracellular fluid volumes from bioelectrical measurements of the human body. , 1992, Journal of the American College of Nutrition.

[9]  K J Ellis,et al.  Human hydrometry: comparison of multifrequency bioelectrical impedance with 2H2O and bromine dilution. , 1998, Journal of applied physiology.

[10]  S M Shirreffs,et al.  Markers of hydration status. , 2000, The Journal of sports medicine and physical fitness.

[11]  R V Patel,et al.  Estimation of Total Body and Extracellular Water Using Single-and Multiple-Frequency Bioimpedance , 1994, The Annals of pharmacotherapy.

[12]  D. Riebe,et al.  Bioimpedance spectroscopy technique: intra-, extracellular, and total body water. , 1997, Medicine and science in sports and exercise.

[13]  Lymphocyte subset redistribution during acute laboratory stress in young adults: mediating effects of hemoconcentration. , 1997 .

[14]  S. Shirreffs,et al.  Urine osmolality and conductivity as indices of hydration status in athletes in the heat. , 1998, Medicine and science in sports and exercise.

[15]  J. Gottdiener,et al.  Effects of acute mental stress on serum lipids: mediating effects of plasma volume. , 1993, Psychosomatic medicine.

[16]  D. Costill,et al.  Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration. , 1974, Journal of applied physiology.

[17]  S. Manuck,et al.  Lymphocyte subset redistribution during acute laboratory stress in young adults: mediating effects of hemoconcentration. , 1997, Health psychology : official journal of the Division of Health Psychology, American Psychological Association.

[18]  R W Hubbard,et al.  Urinary and hematologic indexes of hypohydration. , 1987, Journal of applied physiology.

[19]  Shumei S. Guo,et al.  Body composition estimates from NHANES III bioelectrical impedance data , 2002, International Journal of Obesity.

[20]  D. Riebe,et al.  Urinary indices of hydration status. , 1994, International journal of sport nutrition.

[21]  J. Matthie,et al.  Predicting body cell mass with bioimpedance by using theoretical methods: a technological review. , 1997, Journal of applied physiology.

[22]  H. L. Young,et al.  Body water compartments during bed rest: Evaluation of analytical methods , 1973 .

[23]  Foster,et al.  Whole-body impedance what does it measure ? ” 2 , 2005 .

[24]  David S. Krantz,et al.  Time course and mechanisms of decreased plasma volume during acute psychological stress and postural change in humans. , 1993, Psychophysiology.

[25]  P. Deurenberg,et al.  Multi-frequency impedance for the prediction of extracellular water and total body water , 1995, British Journal of Nutrition.

[26]  L. C. Senay Changes in plasma volume and protein content during exposures of working men to various temperatures before and after acclimitization to heat: separation of the roles of cutaneous and skeletal muscle circulation , 1972, The Journal of physiology.

[27]  P. Levallois,et al.  New patterns of drinking-water consumption: results of a pilot study. , 1998, The Science of the total environment.

[28]  W. Snodgrass Physiology , 1897, Nature.

[29]  Steven B. Heymsfield,et al.  Bioelectrical impedance analysis in body composition measurement: National Institutes of Health Technology Assessment Conference Statement. , 1996, The American journal of clinical nutrition.

[30]  Nutrition Board,et al.  RECOMMENDED DIETARY ALLOWANCES. , 1964, Clinical pediatrics.

[31]  D. Brodie,et al.  Body composition measurement: a review of hydrodensitometry, anthropometry, and impedance methods. , 1998, Nutrition.

[32]  K R Westerterp,et al.  Bioelectrical impedance analysis to assess changes in total body water in patients with cancer. , 1999, Clinical nutrition.

[33]  P. D. Watson,et al.  Weekly variability in total body water using 2H2O dilution in college-age males. , 1993, Medicine and science in sports and exercise.

[34]  S. Manuck,et al.  Acute cholesterol responses to mental stress and change in posture. , 1992, Archives of internal medicine.

[35]  S. Willich,et al.  Concurrent morning increase in platelet aggregability and the risk of myocardial infarction and sudden cardiac death. , 1987, The New England journal of medicine.

[36]  Assessment of changes in extra-cellular water and total body water using multi-frequency bio-electrical impedance. , 1993, Basic life sciences.

[37]  M. Elia,et al.  A Comparison of the Siconolfi and Cole‐Cole Procedures for Multifrequency Impedance Data Analysis , 1999 .

[38]  C. Jern,et al.  'Polycythaemia of stress' in subjects with Type A and Type B behaviour patterns. , 1991, Journal of psychosomatic research.

[39]  S W Smye,et al.  A comparison of four commercial systems used to measure whole-body electrical impedance. , 1993, Physiological measurement.

[40]  M. Liang,et al.  Effects of skin blood flow and temperature on bioelectric impedance after exercise. , 1993, Medicine and science in sports and exercise.

[41]  S. Heymsfield,et al.  The quality of the body cell mass--1996. Are we ready to measure it? , 1998, Applied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine.

[42]  K R Foster,et al.  Whole-body impedance--what does it measure? , 1996, The American journal of clinical nutrition.

[43]  D A Schoeller,et al.  Bioelectrical Impedance Analysis What Does It Measure? , 2000, Annals of the New York Academy of Sciences.

[44]  C. Gips,et al.  Whole blood and plasma water in health and disease: longitudinal and transverse observations and correlations with several different hematological and clinicochemical parameters. , 1997, Clinica chimica acta; international journal of clinical chemistry.

[45]  S M Kleiner,et al.  Water: an essential but overlooked nutrient. , 1999, Journal of the American Dietetic Association.

[46]  K. Matthews,et al.  Effects of Hemoconcentration and Sympathetic Activation on Serum Lipid Responses to Brief Mental Stress , 2002, Psychosomatic medicine.

[47]  P. Gopinathan,et al.  Role of dehydration in heat stress-induced variations in mental performance. , 1988, Archives of environmental health.

[48]  G. Pichan,et al.  Influence of heat-stress induced dehydration on mental functions. , 1986, Ergonomics.