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Warianty tytułu
Języki publikacji
Abstrakty
Optimization of dialysis needs methods for quantitative assessment of hydraulic and oncotic pressure well as fluid and solute transport in body compartments. A mathematical model describing dynamics of these quantities during dialysis is presented. During dialysis, the blood volume often decreases; therefore, model includes the cardiovascular system. Mechanisms which react to blood volume loses are also taken into account. The purpose of this model is to serve as a decision support system for selection of "optimal" treatment options for particular patient.
Wydawca
Czasopismo
Rocznik
Tom
Strony
3--18
Opis fizyczny
Bibliogr. 22 poz., rys., wykr.
Twórcy
autor
- Institute of Biocybernetics and Biomedical Engineering, Polish Academy of Sciences, ul. Trojdena 4, 02-109 Warsaw, Poland
autor
- Institute of Biocybernetics and Biomedical Engineering, Polish Academy of Sciences, ul. Trojdena 4, 02-109 Warsaw, Poland
Bibliografia
- [1] Bassingthwaighte J.B.: The macro-ethics of genomics to health: the Physiome Project. C. R. Biologies, 2003, 326, 1105-1110.
- [2] Smye S.W., Clayton R.H.: Mathematical modeling for the new millennium: medicine by numbers. Med. Eng. Physics, 2002, 24(9), 565-574.
- [3] Uttamsingh R.J., Leaning M.S., Bushman J.A., Carson E.R., Finkelstein L.S.: Mathematical model of the human renal system. Med. Biol. Eng. Comput., 1985, 23, 525-535.
- [4] Gyenge C.C., Bowen B.D., Reed R.K., Bert J.L.: Transport of fluid and solutes in the body. I. Formulation of a mathematical model. Am. J. Physiol. Heart. Circ. Physiol., 1999, 277, 1215-1227.
- [5] Gyenge C.C., Bowen B.D., Reed R.K., Bert J.L.: Transport of fluid and solutes in the body. I. Model validation and implications. Am J. Physiol. Heart. Circ. Physiol., 1999, 277, 1228-1240.
- [6] Gyenge C.C., Bowen B.D., Reed R.K., Bert J.L.: Mathematical model of renal elimination of fluid and small ions during hyper- and hypovolemic conditions. Acta Anaesthesiologica Scandinavia, 2003, 47, 122-137.
- [7] Ursino M., Innocenti M.: Modeling Arteria Hypotension During Hemodialysis. Artificial Organs, 1997, 21 (8), 873-890.
- [8] Coli L., Ursino M., De Pascalis A., Brighenti C„ Dalmastri V., La Manna G., Isola E„ Cianciolo G. Patrono D., Boni P, Stefoni S.: Evaluation of Intradialytic Solute and Fluid Kinetics, Blood Purification, 2000, 18, 37-49.
- [9] Werynski A.: Evaluation of the impact of ultarfiltration on dialyzer clearance. Artif. Organs 1979, 3, 140-142.
- [10] Vonesh E.F., Lysaght M.J., Moran J., Farrell P.: Kinetic modeling as a prescription aid in peritoneal dialysis. Blood Purif., 1991, 9(5-6), 241-245.
- [11] Waniewski J., Weryński A., Heimburger O., Lindholm B.: Simple membrane models for peritoneal dialysis. Evaluation of diffusive and convective solute transport. ASAIO Journal, 1992, 38(4), 788-796.
- [12] Zydney A.L.: Bulk mass transport limitations during high-flux hemodialysis. Artif. Organs, 1993, 17(11): 919-924.
- [13] Haraldsson B.: Assessing the peritoneal dialysis capacities of individual patients. Kidney Int., 1995, 47, 1187-1198.
- [14] Waniewski J., Heimburger O., Weryński A., Lindholm B.: Simple models for fluid transport during peritoneal dialysis. Int. J. Artif. Organs, 1996, 19(8), 455-466.
- [15] Rippe B., Levin L.: Computer simulations of ultrafiltration profiles for an icodextrin-based peritoneal fluid in CAPD. Kidney International, 2000, 57, 2546-2556.
- [16] Ziolko M., Pietrzyk J.A., Grabska-Chrząstowska J.: Accuracy of hemodialysis modeling. Kidney Int., 2000, 57(3), 1152-1163.
- [17] Schneditz D., Daugirdas J.T.: Compartment effects in hemodialysis. Seminars in Dialysis, 2001, 14(4), 271-277.
- [18] Gałach M., Ciechanowska A., Sabalińska S„ Waniewski J., Wójcicki J., Weryński A.: Impact of convective transport on dialyzer clearance. J. Artif. Organs, 2003, 6, 42-48.
- [19] Cavalcanti S., Di Marco L.Y.: Numerical simulation of the hemodynamic response to hemodialysis-induced hypovolemia. Artif. Organs, 1999, 23(12), 1063-1073.
- [20] Cavalcanti S., Cavani S., Santoro A.: Role of short-term regulatory mechanisms on pressure response to hemodialysis-induced hypovolemia. Kidney Int., 2002,61, 228-238.
- [21] Guyton A.C.: Textbook of Medical Physiology. W.B. Saunders company, 1981.
- [22] Daugirdas J.T., Blake P.G., Todd S.: Handbook of dialysis. Lippincot, Williams and Wilkins, 2001.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ1-0011-0020