Title :
Exploiting compartmental models of solute clearance in haemodialysis
Author :
Smye, Stephen W. ; Will, Eric J.
Author_Institution :
Depts. of Med. Phys. & Renal Med., St. James´´s Univ. Hosp., Leeds, UK
fDate :
31 Oct-3 Nov 1996
Abstract :
The significance of kinetic models of solute clearance during dialysis lies not simply in the determination of dialysis dose but in the simulation and assessment of novel dialysis techniques. In this paper a two-pool model of solute kinetics in which blood flow is the dominant transport mechanism, is used to simulate haemodialysis using dialysis with varying solute clearance and different distributions of flow between the high and low flow tissue compartments for constant systemic blood flow (5 l/min). The results demonstrate that the mass of solute removed during dialysis is relatively insensitive to the distributions of blood flow between compartments for QH<0.5 l/min or QH>4.5 l/min where QH denotes the blood flow to the high flow compartment. This simulation suggests that the inclusion of exercise during dialysis may be of limited utility in increasing solute removal during dialysis
Keywords :
haemodynamics; patient treatment; physiological models; blood flow; compartmental models; constant systemic blood flow; dialysis dose; dialysis techniques; dominant transport mechanism; exercise; haemodialysis; high flow tissue compartments; kinetic models; low flow tissue compartments; solute clearance; two-pool model; Blood flow; Bones; Brain modeling; Equations; Heart; Hospitals; Kinetic theory; Medical simulation; Physics; Portals;
Conference_Titel :
Engineering in Medicine and Biology Society, 1996. Bridging Disciplines for Biomedicine. Proceedings of the 18th Annual International Conference of the IEEE
Conference_Location :
Amsterdam
Print_ISBN :
0-7803-3811-1
DOI :
10.1109/IEMBS.1996.646519
