LowrieE.G., LewN.L.Death risk in hemodialysis patients: The predictive value of commonly measured variables and an evaluation of death rate differences between facilities.Am J Kidney Dis1990; 15: 458–82.
2.
DumlerF.Impact of nutritional status on the wellbeing of hemodialysis patients.Semin Dial1991; 4: 72–4.
3.
GotchF.A., SargentJ.A.A mechanistic analysis of the National Cooperative Dialysis Study (NCDS).Kidney Int1985; 28: 526–34.
4.
KeshaviahP.R., NolphK.D., ProwantB.F.Defining adequacy of CAPD with urea kinetics. In: KhannaR., NolphK.D., ProwantB.F., TwardowskiZ.J., OreopoulosD.G. eds. Advances in peritoneal dialysis.Toronto: Peritoneal Dialysis Bulletin, 1990; 6: 173–7.
5.
TeehanB.P., SchleiferC.R., BrownJ.M.U rea kinetic analysis and clinical outcome on CAPD: A fiveyear longitudinal study. In: KhannaR., NolphK.D., ProwantB.F., TwardowskiZ.J., OreopoulosD.G., eds. Advances in peritoneal dialysis.Toronto: Peritoneal Dialysis Bulletin, 1990; 6: 181–5.
HofferE.C., MeadorC.K., SimpsonD.C.Correlation of whole-body impedance with total body water volume.J Appl Physiol1969; 27: 531–4.
8.
KushnerR.F., SchoellerD.A.Estimation of total body water by bioelectrical impedance analysis. Am J Clin a Formerly affiliated with Henry Ford Hospital, Detroit, Michigan.Nutr1986; 44: 417–24.
9.
KushnerR.F., SchoellerD.A., FjeldC.R., DanfordL.Is the impedance index (ht2/R) significant in predicting total body water.Am J Clin Nutr1992; 56: 835–9.
10.
SchmidtR.J., DumlerF., CruzC.Indirect measures of total body water may confound precise assessment of peritoneal dialysis adequacy.Perit Dial Int1993; 13: (Suppl); S224–6.
11.
PastanS., OassensmithC.Total body water measured by bioelectrical impedance in patients after hemodialysis.ASAIO1992; 38: M186–9.
12.
de FijterW.M., de FijterC.W.H., OeP.L., de VriesP.M.J.M.Assessment of total body water fro III anthropometry, Watson formula. creatinine kinetics and body electrical impedance compared with antipirine kinetics in peritoneal dialysis patients (Abstract).Perit Dial Int1993; 13(Suppl): S68.
13.
Odar-CederlofI., EricssonF., ErikssonC.O.Kjellstrand CM. Oral antipyrine, a simple, accurate and nonbloody way of measuring total body water in hemodialysis patients (Abstract).JASN1991; 2: 342.
14.
CornishB.H., WardL.C., ThomasB.J.Measurement of extracellular and total body water of rats using multiple frequency bioelectrical impedance analysis.Nutr Res1992; 12: 657–66.
15.
KouwP.M., OlthofC.O., Ter WeeP.M.Assessment of post-dialysis dry weight: An application of the conductivity measurement methods.Kidney Int1992; 41: 440–4.
16.
de LorenzoA., BarraP.F.A., SassoO.F., BattistiniN.C., DeurenbergP.Body impedance measurements during dialysis.Eur J Clin Nutr1991; 45: 231–5.
17.
DumlerF., SchmidtR.J., LubkowskiT., FrinakS.Use of bioelectrical impedance for the nutritional follow-up of chronic hemodialysis patients.Miner Electrolyte Metah1992; 18: 284–7.
18.
TednerB., LinsL.E.Fluid volume monitoring with electrical impedance technique during hemodialysis.Artif Organs1974; 8: 66–71.
19.
SpenceJ.A., BaligaR., NyboerJ.Changes during hemodialysis in total body water. cardiac output and chest fluid as detected by bioelectrical impedance analysis.Trans Am Soc Artif Intern Organs1979; 25: 51–5.
20.
SchmidtR.J., DumlerF., CruzC.Improved nutritional follow-up of peritoneal dialysis patients with bioelectrical impedance. In: KhannaR., NolphK.D., ProwantB.F., TwardowskiZ.J., OreopoulosD.O. eds. Advances in peritoneal dialysis.Toronto: Peritoneal Dialysis Bulletin, 1992; 8: 157–9.
21.
KurtinP.S., ShapiroA.C., TomitaH., RaizmanD.Volume status and body composition of chronic dialysis patients: Utility of bioelectrical impedance plethysmography.Am J Nephrol1990; 10: 363–7.
22.
LukaskiH.C., BolonchukW.W., HallC.B., SidersW.A.Validation of tetrapolar bioelectrical impedance method to assess human body composition.J Appl Physiol1986; 60: 1327–32.
JacksonA.S., PollackM.L., GravesJ.E.Reliability and validity of bioelectrical impedance in determining body composition.J Appl Physiol1988; 64: 529–34.
25.
SegalK.R., OutinB., PrestaE., WangJ., Van ItallieT.B.Estimation of human body composition by electrical impedance methods: A comparative study.J Appl Physiol1985; 58: 1565–71.
26.
SegalK.R., Van LoadM., FitzgeraldP.I., HodgsonJ.A., Van ItallieT.B.Lean body mass estimation by bioelectrical impedance analysis: A four-site cross validation study.Am J Clin Nutr1988; 47: 7–14.
27.
NigrelliS., PizzarelliS.Bioelectrical impedance analysis: A non-invasive assessment of body composition in uremics.J Nephrol1989; 2: 155–6.
28.
SmytheM.A., BaumannT.J., ZarowitzB.J.Relationship between values of bioelectrical impedance and creatinine clearance.Pharmacotherapy1990; 10: 42–6.
29.
AhlemJ., JohanssonO., SchonbergC.Computed tomography and bioimpedance measurements in patients on CAPD (Abstract).Perit Dial Int1993; 13(Suppl): S72.
30.
VasquezJ.A., JanoskyJ.E.Validity of bioelectrical impedance analysis in measuring changes in lean body mass during weight reduction.Am J Clin Nutr1991; 54: 970–5.
31.
DeurenbergP., WeststrateJ.A., van der KooyK.Body composition changes assessed by bioelectrical impedance measurements.Am J Clin Nutr1989; 49: 401–3.
32.
van der KooyK., LeenenR., DeurenbergP., SeidellJ.C.Changes in fat - free mass in obese subjects after weight loss: A comparison of body composition measures.Int J Ohes1992; 16: 675–83.
33.
RossR., LegerL., MartinP., RoyR.Sensitivity of bioelectrical impedance to detect changes in human body composition.J Appl Physiol1989; 67: 1643–8.
34.
DeurenbergP., van der KooyK., LeenenR., SchoutenF.J.M.Body impedance is largely dependent on the intra and extra-cellular water distribution.Eur J Clin Nutr1989; 43: 845–53.
35.
ZillikensM.C., van den BergJ.W.O., WilsonJ.H.P., SwartO.R.Whole-body and segmental bioelectrical impedance analysis in patients with cirrhosis of the liver: Changes after treatment of ascites.Am J Clin Nutr1992; 55: 621–5.
36.
PreussL.E., BolinF.P.Biophysical methods for estimating in vivo body composition: the determination of the adipose compartment.Henry Ford Hosp Med J1988; 36: 92–102.
37.
DeurenbergP., van der KooijK., EversP., HulschofT.Assessment of body composition by bioelectrical impedance in a population aged > 60 y.Am J Clin Nutr1990; 51: 3–6.
38.
ChumleaW.C., OuoS.S., KuczmarskiR.J., VellasB.Bioelectric and anthropometric assessments and reference data in the elderly.J Nutr1993; 123: 449–53.
39.
Van LoanM., MayclinP.A new TOBEC instrument and procedure for the assessment of body composition: Use of Fourier coefficients to predict lean body mass and total body water.Am J Clin Nutr1987; 45: 131–7.
40.
PrestaE., WangJ., HarrisonG.O., BjorntorpP., HarkerW.H., Van ItallieT.B.Measurement of total body electrical conductivity: A new method for estimation of body composition.Am J Clin Nutr1983; 37: 735–9.
41.
FiorottoM.L., CochranW.J., FunkR.C., ShengH.P., KlishW.J.Total body electrical conductivity measurements: Effects of body composition and geometry.Am J Physiol1987; 252: R794–800.
42.
Van ItallieT.B., SegalK.R.Nutritional assessment of hospital patients: New methods and new opportunities.Am J Human Bioi1989; 1: 205–8.
43.
CochranW.J., WongW.W., FiorottiM.L.Total body water estimated by measuring total-body electrical conductivity.Am J Clin Nutr1988; 48: 946–50.
44.
GotfredsenA., JensenJ., BorgJ., ChristiansenC.Measurement of lean body mass and total body fat using dual photon absorptiometry.Metabolism1986; 35: 88–93.
45.
MazessR.B.Dual-energy x-ray absorptiometry for total-body and regional bone-mineral and soft -tissue composition.Am J Clin Nutr1990; 51: 110612.
46.
HeymsfieldS.B., WangJ., HeshkaS., KehayiasJ.J., PiersonR.N.Dual photon absorptiometry: Comparison of bone mineral and soft tissue measurements in vivo with established methods.Am J Clin Nutr1989; 49: 1283–9.
47.
ScanferlaF., LandiniS., FracassoA.On -line bioelectrical impedance during haemodialysis: Monitoring of body fluids and cell membrane status.Nephrol Dial Transplant1990; 5: 167–70.
