BestosoJTMehtaRL. Monitoring volume changes in hemodialysis (HD) with bioimpedance spectroscopy (BIS) (Abstract). J Am Soc Nephrol1993;4: 333.
2.
ChertowGLowieEWilmoreDGonzalezJLewNLLingJLeboffMSGottliebMNZebrowiskiBCollegeJLazzarusM. Nutritional assessment with bioelectrical impedance analysis in maintenance hemodialysis patients. J Am Soc Nephrol1995;6:75–81.
3.
ChumleaWGuoS. Bioelectrical impedance and body composition: Present status and future directions. Nutr Rev1994;52:123–131.
4.
ColeKS. Membranes, Ions and Impulses: A Chapter of Classical Biophysics. Berkeley, CA: Univ. of Calif. Press, 1972.
5.
CornishBHThomasBJWardLC. Improved prediction of extracellular and total body water using impedance loci generated by multiple frequency bioelectrical impedance analysis. Phys Med Biol1993;38:337–346.
6.
De la RueRETobiasCW. The conductivity of dispersions. J Electrochem Soc1959;106: 827–833.
7.
ForbesGB. Human Body Composition: Growth, Aging, Nutrition, and Activity. New York: Springer, 1987.
8.
FosterKRLukaskiHC. Whole body impedance–what does it measure?Am J Clin Nutr, 1996; 64 (Suppl): 388S–396S.
9.
FrickeH. Amathematical treatment of the electrical conductivity and capacity of disperse systems. II. The capacity of a suspension of conducting spheroids surrounded by a nonconducting membrane for a current of low frequency. Phys Rev1925;26:678–681.
10.
GeddesLABakerLE. The specific resistivity of biological material: A compendium of data for the biomedical engineer and physiologist. Med Biol Eng1967;5:271–293.
11.
GersingESchaferMOsypkaM. The appearance of positive phase angles in impedance measurements on extended biological objects. Innov Tech Biol Med1995; 16:71–76.
12.
GerthWAMontgomeryLDWuYC. A computer based bioelectrical impedance spectroscopic system for noninvasive assessment of compartmental fluid redistribution. In: Third IEEE Symposium on Computer Based-Medical Systems. Los Alamitos, CA: IEEE Computer Soc., 1990, p. 446–453.
13.
HoLTKushnerRSchoellerDAGudivakaRSpiegelDM. Bioimpedance analysis of total body water in hemodialysis patients. Kidney Int1994;46:1438–1442.
14.
Lo” fgren, B. The electrical impedance of complex tissue and its relation to changes in volume and fluid distribution. Acta Physiol. Scand.1951;23 (Suppl. 81): 2–51.
15.
LukaskiH. Biological indexes considered in the derivation of the bioelectrical impedance analysis. Am. J. Clin. Nutr.64, Suppl.: 397S–404S, 1996.
16.
MatthieJRWithersPO. Segmental versus whole body multifrequency bioimpedance measurements (Letter to Editor). J Appl Physiol1995;79: 2177–2179.
17.
McAdamsETJossinetJ. Tissue impedance: A historical overview. Physiol Meas1995;16: A1–A7.
18.
PiccoliARossiBPillonLBuccianteG. A new method for monitoring body fluid variation by bioimpedance analysis: The Rxc graph. Kidney Int1994;46: 534–539.
19.
RamoSWhinneryJVan DuzerT. Fields andWaves in Communication Electronics (2nd ed.). New York:Wiley, 1984.
20.
ScharfetterHWirnsbergerGLaszzloZHolzerHHinghofer-SzalkayHHuttenH. Influence of ionic shifts and postural changes during dialysis on volume estimation with multifrequency impedance analysis. In: Proceedings of the 9th International Conference on Electrical Bio-Impedance, Heidelberg, Germany 1995. Heidelberg, Germany: Univ. of Heidelberg, 1995, p. 241–244.
