Nephrology Dialysis Transplantation, Vol 14, Issue 90003 92-97, Copyright © 1999 by Oxford University Press
F Locatelli, C Manzoni, S Di Filippo and S Andrulli
Background: Despite technological advances in dialysis
equipment, the morbidity and quality of life of uraemic patients undergoing
regular haemodialytic treatment are still severely affected by acute
intradialytic complications possibly related to the treatment itself.
Cardiovascular instability still affects >30% of dialytic sessions
and, although its pathogenesis is multifactorial, dialysate sodium
concentration (and, consequently, intradialytic sodium removal) is one of
the main factors affecting intradialytic hypotension. Convective treatment
modalities and so-called biocompatible membranes increasingly are
recognized as improving acute and particularly chronic dialytic
complications because a number of the pathways activated in patients during
dialysis with 'bioincompatible' membranes have the potential to produce
many side effects. Methods: The main clinical studies
are reviewed to highlight the advantages of on-line monitoring and
convective modalities on acute intradialytic symptoms.
Results: The conductivity kinetic model has been shown
to be a reliable and inexpensive method of matching intradialytic sodium
removal and interdialytic load. By applying this model to patients prone to
dialysis hypotension, a smaller reduction in intradialytic systolic blood
pressure has been observed, without any change in dialysate and reinfusate
sodium concentrations or dry body weight. Furthermore, a new model of
haemodialysis potassium removal based on a decreasing intradialytic
potassium concentration and a constant plasma dialysate potassium gradient
is capable of reducing the arrhythmogenic effect of standard haemodialysis.
Despite the proven biological superiority of biocompatible membranes, there
is no definitive evidence that membrane biocompatibility and/or flux lead
to a decrease in acute intradialytic clinical symptoms.
Conclusions: On-line monitoring of intradialytic
sodium removal and the potassium gradient is capable of reducing
intradialytic hypotension and the arrhythmogenic effect of haemodialysis,
and thus having a considerable clinical impact on acute intradialysis
complications. As far as the effects of biocompatibility and/or flux on the
incidence of acute intradialytic clinical symptoms are concerned, further
trials involving a sicker patient population with higher prevalence of
intradialytic hypotension are needed in order to achieve statistical power.
Key words: biocompatibility; cardiovascular stability;
conductivity kinetic model; convective modalities; on-line monitoring;
sodium kinetic model
ORIGINAL ARTICLES
On-line monitoring and convective treatment modalities: short-term advantages
Department of Nephrology, Lecco Hospital, Via Ghislanzoni, 2, 23900 Lecco, Italy
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