Your search keyword '"Zoni U"' showing total 4 results

1. Potassium-Based Dilutional Method to Measure Hemodialysis access Recirculation

Author

Brancaccio, D., Tessitore, N., Carpani, P., Gammaro, L., Losi, B., Zoni, U., Maschio, G., and Gallieni, M.

Abstract

Background Assessment of access recirculation (AR) is crucial to dialysis efficiency and there is thus a need for a method yielding a highly accurate, fast, easy and economical measurement that can be applied in any busy dialysis clinic. Non-urea based dilutional methods are more accurate than urea based methods and avoid problems with cardiopulmonary recirculation, but they require expensive specialized devices, which limit their applicability.Methods We developed a simple dilutional method of AR which does not require any specific device, based on the determination of serum potassium [K+] in two samples. Briefly, a basal sample is drawn at the time of needle insertion (basal [K+]); needles are connected to blood lines and blood flow rate is quickly increased to 300 ml/mm; a second sample (arterial [K+]) is drawn from the arterial line port within 5 to 10 seconds, to avoid errors due to cardiopulmonary recirculation of the normal saline entering the blood stream. At this time, if recirculation is present, part of the normal saline will enter the arterial line and dilute the serum [K+]. The AR formula is: AR (%) = 100 x [1 - arterial K+/ basal K+] We compared our method with the two-needle urea and ultrasound velocity dilution methods. Results: AR values by the ultrasound method > 10% were hypothesized as gold standard for AR, against which values obtained with the potassium method were compared. The potassium based method showed: sensitivity (100%,); specificity (95%); predictive value, positive (91%); predictive value, negative (100%). In addition, the potassium based method appears to be more reliable than the two-needle urea based method.Conclusion Our method, similar to other dilutional methods, is not influenced by cardiopulmonary recirculation or veno-venous disequilibrium and is fast and accurate. Moreover it is very simple, economical, and can easily be performed in any dialysis unit.

Published

2001

2. Nefropatia Da Abuso Di Analgesici: Una Malattia Evitabile

Author

Zoni, U.

Published

1991

3. Complement Activation in Dialysis: Effects on Cytokines, Lymphocyte Activation and β2Microglobulin

Author

Gardinali, M., Calcagno, A., Conciato, L., Agostoni, A., Rosti, A., Cori, P., Vozzo, N., Moroni, A., Anelli, A., Zoni, U., and Del Prete, M.

Abstract

Anaphylatoxins generated by complement activation by filter membranes are present in plasma during hemodialysis (HD). In the presence of endotoxins which may contaminate the dialysate, they can trigger monocytes to produce interleukin-1 (IL-1) and tumor necrosis factor (TNF), with detrimental effects for the patients. We have investigated whether or not the use of complement activating (cuprophan) and non- (or less-) activating membranes (polysulfone, polymethylmethacrylate or polyacrylonitrile) per se influences cytokine levels in HD patients. Our results indicate that if a sterile bicarbonate solution is used as dialysate, there are no significant increases in IL-1, TNF, interleukin-2 (IL-2) and soluble IL-2 receptors (sIL-2r) throughout HD, even with cuprophan membranes. Moreover even a prolonged use of this membrane (three months) did not change pre-dialysis levels of cytokines and receptors. Use of complement activating membranes also does not influence β2microglobulin levels.

Published

1994

4. Hemodialysis Access Recirculation Measured with a Simple and Economical Potassium-Based Dilutional Method

Author

Gallieni, M., Carpani, P., Losi, B., Cozzolino, M., and Zoni, U.

Published

2000