The outlook of more biocompatible and physiological dialysis is today confronted with a older and sicker population in need of maintenance hemodialysis. The knowledge of biological mechanisms operating at the system level will be approached with the help of improved technologies hopefully able to reduce the deleterious effect of the repetitive contact with a foreign surface and to insure optimal performances for the elimination of small and middle molecule solutes. Advances in dialyzer membranes and geometries, as well as blood tubings The Evolution of Biocompatibility: From Microinflammation to Microvesiscles 107 together with new concepts in machine technology have already shown their great potential to improve survival and cardiovascular stability.
The evolution of biocompatibility: from microinflammation to microvesiscles
Barbara Cisterna;
2011-01-01
Abstract
The outlook of more biocompatible and physiological dialysis is today confronted with a older and sicker population in need of maintenance hemodialysis. The knowledge of biological mechanisms operating at the system level will be approached with the help of improved technologies hopefully able to reduce the deleterious effect of the repetitive contact with a foreign surface and to insure optimal performances for the elimination of small and middle molecule solutes. Advances in dialyzer membranes and geometries, as well as blood tubings The Evolution of Biocompatibility: From Microinflammation to Microvesiscles 107 together with new concepts in machine technology have already shown their great potential to improve survival and cardiovascular stability.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
