A. Nakajima et al., Determination of effective charge density of hollow-fiber dialysis membranes and its effects on phosphate ion permeability, J MEMBR SCI, 187(1-2), 2001, pp. 129-139
Phosphate ion, which is a cause of metabolic bone disease, is excessively a
ccumulated in the blood of chronic dialysis patients, because many of dialy
sis membranes have negative charge, which inhibit removal of phosphate ion
from their blood. The ability to remove phosphate ion can be evaluated by m
embrane charge. The electrical charge of the membrane affects the rate of i
on permeability, and the phosphate ion is no exception. The membrane charge
of sheet dialysis membranes can be readily evaluated by measuring the memb
rane potential and calculating the effective charge density. Accordingly a
study was made of the influence on the phosphate ion permeability exerted b
y the membrane charge of sheet membranes composed of the same material as t
he hollow-fiber membranes used in hemodialysis. The diffusive permeability
of phosphate ion was greater due to the result that the higher the ionic st
rength in the solution, the higher the absolute ion mobility. On the other
hand, because of their shape, it is impossible to measure the membrane pote
ntial of hollow-fiber membranes using conventional techniques, making it di
fficult to determine the effective charge density. The authors therefore, h
ave proposed a novel technique to enable the measurement of membrane potent
ial in hollow-fiber membranes, and have studied the influence exerted on th
e phosphate ion permeability by the effective charge density calculated by
this technique. The phosphate ion permeability increases when the following
situations occur: (1) the smaller the absolute value of effective charge d
ensity, (2) the greater the ionic strength of the solution, and (3) the gre
ater the concentration of plasma proteins. This agrees with the theoretical
results. By calculating the effective charge density from the membrane pot
ential of the hollow-fiber membranes, as measured by the technique proposed
here, it is possible to evaluate the rate of phosphate ion permeability in
such membranes. (C) 2001 Elsevier Science B.V. All rights reserved.