Chronic volume overload is associated with left ventricular hypertrophy and high cardiovascular mortality in patients undergoing dialysis. Therefore, estimating body fluid status is important in these patients. However, most dry-weight assessments are still performed clinically, while attempts have been made to measure the volume status and dry weight of patients undergoing dialysis using bioimpedance analysis (BIA). BIA uses the electrical properties of the human body to alternate current flow and measures resistance values to estimate body water content and composition. BIA is divided into single-frequency BIA, multi-frequency BIA, and bioimpedance spectroscopy (BIS) according to the number of frequencies used, and into whole-body and segmental BIA according to whether or not the whole body is divided into segments. Extracellular water (ECW), intracellular water, and total body water (TBW) contents can be measured with BIA. Dry weight can be estimated by measuring the volume overload of the patient through the ECW/TBW and ECW-to-body weight ratios. Other estimation methods include the normovolemia/hypervolemia slope method, a resistance-reactance (RXc) graph, overhydration measurements using a body composition monitor, and calf BIS. In this review, we will examine the principles of BIA, introduce various volume status measurement methods, and identify the optimal method for patients undergoing dialysis.

1 Piccoli A, "Whole body: single frequency bioimpedance" 149 : 150-161, 2005

2 Wang X, "Volume status and blood pressure in continuous ambulatory peritoneal dialysis patients" 23 : 373-378, 2005

3 Pillon L, "Vector length as a proxy for the adequacy of ultrafiltration in hemodialysis" 66 : 1266-1271, 2004

4 Lukaski HC, "Validation of tetrapolar bioelectrical impedance method to assess human body composition" 60 : 1327-1332, 1986

5 Olde Rikkert MG, "Validation of multi-frequency bioelectrical impedance analysis in detecting changes in fluid balance of geriatric patients" 45 : 1345-1351, 1997

6 Khalil SF, "The theory and fundamentals of bioimpedance analysis in clinical status monitoring and diagnosis of diseases" 14 : 10895-10928, 2014

7 Davies SJ, "The role of bioimpedance and biomarkers in helping to aid clinical decision-making of volume assessments in dialysis patients" 86 : 489-496, 2014

8 Wizemann V, "The mortality risk of overhydration in haemodialysis patients" 24 : 1574-1579, 2009

9 Schloerb PR, "The measurement of total body water in the human subject by deuterium oxide dilution; with a consideration of the dynamics of deuterium distribution" 29 : 1296-1310, 1950

10 Ando Y, "The inferior vena cava diameter as a marker of dry weight in chronic hemodialyzed patients" 19 : 1237-1242, 1995

11 Asghar RB, "Relationship of demographic, dietary, and clinical factors to the hydration status of patients on peritoneal dialysis" 24 : 231-239, 2004

12 van de Kerkhof J, "Reference values for multifrequency bioimpedance analysis in dialysis patients" 22 : 301-306, 2004

13 Cha K, "Principles of bioelectritical impedance analysis" InBody Co. Ltd. 1-8, 1977

14 Lee SW, "Plasma brain natriuretic peptide concentration on assessment of hydration status in hemodialysis patient" 41 : 1257-1266, 2003

15 Onofriescu M, "Overhydration, cardiac function and survival in hemodialysis patients" 10 : e0135691-, 2015

16 Yoon HE, "Overhydration negatively affects quality of life in peritoneal dialysis patients: evidence from a prospective observational study" 13 : 686-695, 2016

17 김예진, "Overhydration measured by bioimpedance analysis and the survival of patients on maintenance hemodialysis: a single-center study" 대한신장학회 34 (34): 212-218, 2015

18 Chertow GM, "Nutritional assessment with bioelectrical impedance analysis in maintenance hemodialysis patients" 6 : 75-81, 1995

19 장문, "Numerical expression of volume status using the bioimpedance ratio in continuous ambulatory peritoneal dialysis patients: A pilot study" 대한신장학회 36 (36): 290-295, 2017

20 Middleton RJ, "Left ventricular hypertrophy in the renal patient" 12 : 1079-1084, 2001

21 Chazot C, "Importance of normohydration for the long-term survival of haemodialysis patients" 27 : 2404-2410, 2012

22 Piccoli A, "Identification of operational clues to dry weight prescription in hemodialysis using bioimpedance vector analysis. The Italian Hemodialysis-Bioelectrical Impedance Analysis (HD-BIA) Study Group" 53 : 1036-1043, 1998

23 Shoji T, "Hemodialysis-associated hypotension as an independent risk factor for two-year mortality in hemodialysis patients" 66 : 1212-1220, 2004

24 Thomson GE, "Hemodialysis for chronic renal failure. Clinical observations" 120 : 153-167, 1967

25 Oe B, "Hemodialysis (HD) versus peritoneal dialysis (PD): latent overhydration in PD patients?" 25 : 838-843, 2002

26 Machek P, "Guided optimization of fluid status in haemodialysis patients" 25 : 538-544, 2010

27 "Fresenius Medical Care. BCM standard"

28 Konings CJ, "Fluid status, blood pressure, and cardiovascular abnormalities in patients on peritoneal dialysis" 22 : 477-487, 2002

29 Hannan WJ, "Evaluation of multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients" 86 : 479-485, 1994

30 Patel RV, "Estimation of total body and extracellular water in post-coronary artery bypass graft surgical patients using single and multiple frequency bioimpedance" 24 : 1824-1828, 1996

31 Buendia R, "Estimation of body fluids with bioimpedance spectroscopy: state of the art methods and proposal of novel methods" 36 : 2171-2187, 2015

32 Steuer RR, "Enhanced fluid removal guided by blood volume monitoring during chronic hemodialysis" 22 : 627-632, 1998

33 Foley RN, "Effect of hemoglobin levels in hemodialysis patients with asymptomatic cardiomyopathy" 58 : 1325-1335, 2000

34 Hur E, "Effect of fluid management guided by bioimpedance spectroscopy on cardiovascular parameters in hemodialysis patients: a randomized controlled trial" 61 : 957-965, 2013

35 진동찬, "Current characteristics of dialysis therapy in Korea: 2015 registry data focusing on elderly patients" 대한신장학회 35 (35): 204-211, 2016

36 Parfrey PS, "Congestive heart failure in dialysis patients" 148 : 1519-1525, 1988

37 Plum J, "Comparison of body fluid distribution between chronic haemodialysis and peritoneal dialysis patients as assessed by biophysical and biochemical methods" 16 : 2378-2385, 2001

38 Hannan WJ, "Comparison of bio-impedance spectroscopy and multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients" 89 : 651-658, 1995

39 O'Lone EL, "Clinical significance of multi-frequency bioimpedance spectroscopy in peritoneal dialysis patients: independent predictor of patient survival" 29 : 1430-1437, 2014

40 Vasko R, "Clinical judgment is the most important element in overhydration assessment of chronic hemodialysis patients" 17 : 563-568, 2013

41 Barth C, "Characteristics of hypotension-prone haemodialysis patients: is there a critical relative blood volume?" 18 : 1353-1360, 2003

42 Miller ME, "Bromide space determination using anion-exchange chromatography for measurement of bromide" 50 : 168-171, 1989

43 Sartorio A, "Body water distribution in severe obesity and its assessment from eight-polar bioelectrical impedance analysis" 59 : 155-160, 2005

44 Moissl UM, "Body fluid volume determination via body composition spectroscopy in health and disease" 27 : 921-933, 2006

45 Pierson RN Jr, "Body composition measurements in normal man: the potassium, sodium, sulfate and tritium spaces in 58 adults" 35 : 419-428, 1982

46 Onofriescu M, "Bioimpedance-guided fluid management in maintenance hemodialysis: a pilot randomized controlled trial" 64 : 111-118, 2014

47 Moissl U, "Bioimpedance-guided fluid management in hemodialysis patients" 8 : 1575-1582, 2013

48 Kuhlmann MK, "Bioimpedance, dry weight and blood pressure control: new methods and consequences" 14 : 543-549, 2005

49 Abbas SR, "Bioimpedance can solve problems of fluid overload" 25 : 234-237, 2015

50 Tattersall J, "Bioimpedance analysis in dialysis: state of the art and what we can expect" 27 : 70-74, 2009

51 Kyle UG, "Bioelectrical impedance analysis: part I: review of principles and methods" 23 : 1226-1243, 2004

52 Zhu F, "Application of bioimpedance techniques to peritoneal dialysis" 150 : 119-128, 2006

53 Matthie J, "Analytic assessment of the various bioimpedance methods used to estimate body water" 84 : 1801-1816, 1998

54 Zhu F, "Adjustment of dry weight in hemodialysis patients using intradialytic continuous multifrequency bioimpedance of the calf" 27 : 104-109, 2004

55 Chen YC, "Adjusting dry weight by extracellular volume and body composition in hemodialysis patients" 92 : 91-96, 2002

56 Bedogni G, "Accuracy of an eight-point tactile-electrode impedance method in the assessment of total body water" 56 : 1143-1148, 2002

57 Chamney PW, "A whole-body model to distinguish excess fluid from the hydration of major body tissues" 85 : 80-89, 2007

58 Lindley E, "A ward-based procedure for assessment of fluid status in peritoneal dialysis patients using bioimpedance spectroscopy" 25 (25): S46-S48, 2005

59 Chamney PW, "A new technique for establishing dry weight in hemodialysis patients via whole body bioimpedance" 61 : 2250-2258, 2002

60 Piccoli A, "A new method for monitoring body fluid variation by bioimpedance analysis: the RXc graph" 46 : 534-539, 1994