Your search keyword '"Leonardo Cagnoli"' showing total 1 results

1. Model-based study of the effects of the hemodialysis technique on the compensatory response to hypovolemia

Author

Leonardo Cagnoli, Gattiani A, Stefano Severi, Stefano A. Bini, Antonio Santoro, Silvio Cavalcanti, Andrea Ciandrini, Fabio Badiali, CAVALCANTI S., A. CIANDRINI, S. SEVERI, F. BADIALI, S. BINI, A. GATTIANI, L. CAGNOLI, and A. SANTORO

Subjects

Nephrology, Male, Risk, medicine.medical_specialty, hypotension, medicine.medical_treatment, Hypovolemia, Blood volume, Blood Pressure, Hemodiafiltration, Cardiovascular System, bicarbonate dialysis, Nitric oxide, chemistry.chemical_compound, fluids and secretions, Heart Rate, Renal Dialysis, nitric oxide, Internal medicine, medicine, Humans, Computer Simulation, Prospective Studies, Dialysis, Aged, Aged, 80 and over, Cross-Over Studies, business.industry, Models, Cardiovascular, Middle Aged, bacterial infections and mycoses, Hemodialysis technique, Adaptation, Physiological, Myocardial Contraction, Surgery, respiratory tract diseases, Bicarbonates, chemistry, buffer-free dialysate, Anesthesia, Reflex, Kidney Failure, Chronic, Female, Vascular Resistance, Hemodialysis, medicine.symptom, business

Abstract

Model-based study of the effects of the hemodialysis technique on the compensatory response to hypovolemia.BackgroundHemodialysis technique (dialysate composition, filter, convection/diffusion ratio, etc.) can have an impact on the patient's tendency to acute hypotension. We have examined the hypothesis that the dialysis technique affects the hypotension risk by altering the cardiovascular compensatory response to hemodialysis-induced hypovolemia.MethodsTwelve hypotension-prone subjects were studied during six sessions of conventional bicarbonate dialysis (BD) and six sessions of acetate-free biofiltration (AFB). Blood volume (BV) control system was used in AFB to provide a BV change equivalent to the BV change observed in BD. The efficacy of reflex compensatory mechanisms was assessed by a model-based computer analysis of the BD and AFB sessions.ResultsBD sessions were complicated by hypotension more frequently than the AFB ones (34/66BD vs. 18/66AFB). Hypotension arose about 60 minutes earlier in BD (123 ± 41 minutes in BD vs. 183 ± 25 minutes in AFB, P < 0.01), and after a smaller BV reduction (hypotension BV 7.9%± 2.0% in BD vs. 10.9%± 2.6% in AFB, P < 0.05). Model-based computer analysis of the sessions without hypotension revealed differences in peripheral resistance adaptation (9%± 9% BD vs. 19%± 7% AFB, P < 0.05) as well as in the stroke volume reduction (19%± 8% BD vs. 10%± 8% AFB, P < 0.001). Model analysis of sessions with hypotension indicated that compensatory mechanisms were almost inoperative in BD, whereas a residual capacity to control peripheral resistance and cardiac contractility was present in AFB. Model simulations demonstrated that hypotension occurred later in AFB since the residual compensatory capacity in AFB was able to sustain the arterial pressure for larger BV reductions (8.3% BD vs. 11.2% AFB).ConclusionThe increased risk of acute hypotension in BD compared to AFB is caused by a therapy-induced inhibition of reflex compensatory response to hypovolemia.