Renal replacement therapy involves the control of body pools of water and electrolytes, and removal of small metabolites (urea, creatinine). The correct estimation of "the dose of therapy" and optimisation of the procedure needs quantification of fluid and solute transport during dialysis as well as evaluation of the distribution and exchange of water and solutes within the body. Mathematical models can combine the general physiological knowledge with information about individual patients yielded by clinical measurements. Many of these models (urea model, sodium model, models of peritoneal transport) have been presented to the community of clinical nephrologists in the form of computer programs often supplemented with on-line measuring devi...
International audienceMathematical modelling has long served as a valuable tool for understanding th...
AbstractA computer model of the human nephron is presented that predicts urine flow, sodium and pota...
This model describes the orthoiodohippurate (OIH) distribution and clearance in the renovascular sys...
Mathematical models can predict solute clearances and solute concentrations during renal replacement...
Hemodialysis is a technique of removing waste materials and extra fluids (creatinine and urea) from...
The objective of this research programme is the development of a comprehensive mathematical model of...
The advent of the Middle Molecule Theory of Uremic Toxicity has introduced the need for hemodialyzer...
A mathematical model of solute kinetics oriented to improve hemodialysis treatment is presented. It ...
“It is the mark of the instructed mind to rest satisfied with the degree of precision which the natu...
The principle underlying all methods of blood purification for the treatment of uremia is based on t...
A simple lumped-parameter mathematical model is developed for analysing the performance of a haemodi...
Includes bibliographical references (pages 206-211)Artificial kidney systems are used by patients wi...
none6noA mathematical model of solute kinetics oriented to the simulation of hemodialysis is present...
In healthy individuals, the removal of uid and toxic catabolic waste products is a continuous 24 ho...
Accuracy of hemodialysis modeling.BackgroundOne- and two-compartmental models of hemodialysis (HD) a...
International audienceMathematical modelling has long served as a valuable tool for understanding th...
AbstractA computer model of the human nephron is presented that predicts urine flow, sodium and pota...
This model describes the orthoiodohippurate (OIH) distribution and clearance in the renovascular sys...
Mathematical models can predict solute clearances and solute concentrations during renal replacement...
Hemodialysis is a technique of removing waste materials and extra fluids (creatinine and urea) from...
The objective of this research programme is the development of a comprehensive mathematical model of...
The advent of the Middle Molecule Theory of Uremic Toxicity has introduced the need for hemodialyzer...
A mathematical model of solute kinetics oriented to improve hemodialysis treatment is presented. It ...
“It is the mark of the instructed mind to rest satisfied with the degree of precision which the natu...
The principle underlying all methods of blood purification for the treatment of uremia is based on t...
A simple lumped-parameter mathematical model is developed for analysing the performance of a haemodi...
Includes bibliographical references (pages 206-211)Artificial kidney systems are used by patients wi...
none6noA mathematical model of solute kinetics oriented to the simulation of hemodialysis is present...
In healthy individuals, the removal of uid and toxic catabolic waste products is a continuous 24 ho...
Accuracy of hemodialysis modeling.BackgroundOne- and two-compartmental models of hemodialysis (HD) a...
International audienceMathematical modelling has long served as a valuable tool for understanding th...
AbstractA computer model of the human nephron is presented that predicts urine flow, sodium and pota...
This model describes the orthoiodohippurate (OIH) distribution and clearance in the renovascular sys...