Abstract
Adequacy of peritoneal dialysis is dependent upon optimal solute and water transfer from the capillaries to peritoneal dialysate within the peritoneal cavity. Mass transfer is governed by the permeability of the capillary wall, the peritoneal interstitium and the mesothelial layer. Long-term exposure of these tissues to the processes and complications of CAPD may have an adverse effect on mass transfer, deleteriously affecting CAPD efficacy.
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References
Rubin J, Nolph K, Arfania D, Brown P, Prowant B: Follow up of peritoneal clearances in patients undergoing CAPD. Kidney Int 16: 619–623, 1979.
Rodger RSC, Goodship THJ, Nikolakakis N, Ashcroft R, Wilkinson R, Ward M: Sequential measurements of ultrafiltration capacity and peritoneal clearance show no loss of membrane function in patients treated by CAPD. Kidney Int 28(2): 311, 1985.
De Santo NG, Capodisaca G, Senatore T, Cicchetti D, Cirillo D, Damiano M, Giordano C: Stability of peritoneal urea clearances in continuous ambulatory peritoneal dialysis. Int J of Art Organs 2: 193–196, 1979.
Von Lillien T, Salusky IB, Alliapoulos JC, Leichter HE, Wilson M, Hall TL, Fine RN: The effect of chronic CAPD/CCPD treatment and peritonitis on peritoneal clearances in paediatric patients. Paediatric Research 19(4) pt 2: 385(A), 1985.
Sang Yong Ahn, dong Cheol Han, Seung Duk Hwang, Hi Bahl Lee: Changes in peritoneal solute transport during long-term continuous ambulatory peritoneal dialysis. Kidney Int 31(1): 248, 1987.
Finkelstein FO, Kliger AS, Bastl C, Yap P: Sequential clearance and dialysance measurements in chronic peritoneal dialysis patients. Nephron 18: 342–347, 1977.
Gilmour J, Wu G, Khanna R, Schilling H, Mitwalli A, Oreopoulos D: Long term continuous ambularoty peritoneal dialysis. PD Bulletin: april–june 1985.
Slingeneyer A, Canaud B, Mion C: Permanent loss of ultrafiltration capacity of the peritoneum in long term peritoneal dialysis: an epidemiological study. Nepron 33: 133–138, 1983.
Rottembourg J, Issad B, Mehamha H, Legrain M: Evolution of the ultrafiltration rate during CAPD: role of acetate and lactate buffers. Kidney Int 28(2): 311, 1985.
Huarte E, Sepas R, Carmona AR, Fontan MP, Ortega O, Martinez ME, Miguel JL, Socilia LS: Peritoneal membrane failure (PF) as a determinant of the CAPD future (an epidemiologically, functional and pathological study). Kidney Int 28(2): 307, 1985.
Raja RM, Kramer MS, Rosenbaum JL, Bolisay C and Krug M: Contrasting changes in solute transport and ultrafiltration with peritonitis in CAPD patients. Trans Am Soc Artif Internal Organs 27: 68–70, 1981.
Rubin J, Ray R, Barnes T, Bower J: Peritoneal abnormalities during infectious episodes of continuous ambulatory peritoneal dialysis. Nephron 29: 124–127, 1981.
Krediet R, Zuyderhoudt FMJ, Boeschoten EW, Arisz L: Alterations in peritoneal transport of water and solutes during peritonitis in continuous ambulatory peritoneal dialysis patients. Eur J Clin Invest (UK) 17(1): 43–52, 1987.
Wideroe T, Smeby LC, Mjaland S, Dahl K, Berg KJ, Aas TW: Long term changes in transperitoneal water transport during CAPD. Nephron 38: 238–247, 1984.
Slingeneyer A, Canaud B, Mion C: Permanent loss of ultrafiltration capacity of the peritoneum in long term peritoneal dialysis: an epidemiological study. Nephron 33: 133–138, 1983.
Cole CH, Roy D, Prichard S: Ultrafiltration capacity of the peritoneum as a function of peritonitis in patients on CAPD. Kidney Int 25(6): 997, 1984.
Lysaght MJ, Farrell PC: Membrane phenomena and mass transfer kinetics in peritoneal dialysis. J Mem Sci (in press).
Lysaght MJ, Hallett MD, Farrell PC: Evolution of transport theory in CAPD. Clinical Nephrology (in press).
Henderson LW, Nolph KD: Altered permeability of the peritoneal membrane after using hypertonic peritoneal dialysis fluid. J Clin Invest 48: 992–1001, 1969.
Babb AL, Johansen MJ, Strand H, Tenckhoff H, Scribner BH: Bi-directional permeability of the human peritoneum to middle molecules. Proc Eur Dial Transplant Assoc 10: 247–262, 1973.
Garred L, Canuad B, Farrell PC: A simple kinetic model for assessing peritoneal mass transfer in CAPD. ASAIO J 6(3): 131–137, 1983.
Randerson DH, Farrell PC: Long term peritoneal clearance in CAPD. In: Atkins RC, Thomson N, Farrell PC (eds), Peritoneal Dialysis. Churchill Livingstone: pp 22–29, 1981.
Spencer P, Farrell PC: Solute and water transfer kinetics in CAPD. In: Gokal (ed), Continuous Ambulatory Peritoneal Dialysis. Churchill Livingstone, Edinburgh: pp 38–55, 1986.
Leypoldt JK, Parker HR, Frigon RP, Henderson LW: Molecular size dependence of peritoneal transport. J Lab Clin Med 110(2): 207–216, 1987.
Randerson DH, Farrell PC: Mass transfer properties of the human peritoneum. ASAIO J 3: 140–25, 1980.
Mactier RA, Khanna R, Twardowski ZJ, Nolph DK: Role of peritoneal cavity lymphatic absorption in peritoneal dialysis. Kidney Int 32: 165–172, 1987.
Leypoldt JK, Pust AH, Frigon RP, Henderson LW: Dialysate volume measurements required for determining peritoneal solute transport. Kidney Int: 1987 in review.
Dedrick RL, Flessner MF, Collins JM, Schultz JS: Is the peritoneum a membrane? ASAIO J 5(1): 1–8, 1982.
Flessner MF, Dedrick RL, Schulz JS: A distributed Model of peritoneal plasma transport: theoretical considerations. AM J Physio 246: 597–607, 1984.
Flessner MF, Dedrick RL, Schulz JS: A distributed model of peritoneal-plasma transport: analysis of experimental data in the rat. Am J Physiol 248: 413–424, 1985.
Jaffrin MY, Odell RA, Farrell PC: A model of ultrafiltration and glucose mass transfer kinetics in peritoneal dialysis. Artificial Organs 11(3): 198–207, 1987.
Khanna R, Oreopoulos D: Complications of peritoneal dialysis other than peritonitis. In: Nolph KD (ed), Peritoneal dialysis. Nijhofpp 441–524, 1985.
Krediet RT, Boeschoten EW, Zuyderhoudt FMJ, Arisz L: Peritoneal transport characteristics of water, low-molecular weight solutes and proteins during long-term CAPD. Peritoneal Dialysis Bulletin 6(2): pp 61–65, 1986.
Randerson DH, Chapman GV, Farrell PC: Amino acid and dietary status in CAPD patients. In: Atkins RC, Thompson NM, Farrell PC (eds). Peritoneal dialysis. Churchill Livingstone: pp 179–191, 1981.
Weisberg S: Applied linear regression. John Wiley (pub): New York, 1982.
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© 1989 Kluwer Academic Publishers
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Hallett, M.D., Kush, R.D., Lysaght, M.J., Farrell, P.C. (1989). The Stability and Kinetics of Peritoneal Mass Transfer. In: Nolph, K.D. (eds) Peritoneal Dialysis. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-1085-0_19
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DOI: https://doi.org/10.1007/978-94-009-1085-0_19
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-6978-6
Online ISBN: 978-94-009-1085-0
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