ShockleyT.R., OfsthunN.J.Pathways for fluid loss from the peritoneal cavity.Blood Purif1992; 10: 115–21.
2.
RippeB., StelinG.Simulations of peritoneal solute transport during CAPD. Application of two-pore for malism.Kidney Int1989; 35: 1234–44.
3.
StelinG., RippeB.A phenomenological interpretation of the variation in dialysate volume with dwell time in CAPD.Kidney Int1990; 38: 465–72.
4.
DaugirdasJ.T., IngT.S., GandhiV.C., HanoJ.E., ChenW.T., YuanL.Kinetics of peritoneal fluid absorption in patients with chronic renal failure.J Lab Clin Med1980; 95: 351–61.
5.
RippeB., StelinG., AhlménJ.Lymph flow from the peritoneal cavity in CAPD patients. In: MaherJ.F., WinchesterJ.F., eds. Frontiers in peritoneal dialysis.New York: Field, Rich and Associates, 1986: 24–30.
6.
RippeB., ZakariaE.R.Lymphatic versus non-lymphatic fluid absorption from the peritoneal cavity as related to the peritoneal ultrafiltration capacity and sieving properties.Blood Purif1992; 10: 189–202.
7.
ZakariaE.R., RippeB.Osmotic barrier properties of the rat peritoneal membrane.Acta Physiol Scand1993; 149: 355–64.
8.
FlessnerM.F.Net ultrafiltration in peritoneal dialysis: role of direct fluid absorption into peritoneal tissue.Blood Purif1992; 10: 136–47.
9.
FlessnerM.F., ParkerR.J., SieberS.M.Peritoneallymphatic uptake of fibrinogen and erythrocytes in the rat.Am J Physiol1983; 244(Heart Circ Physiol 13): H89–96.
10.
ZakariaE.R., RippeB.Peritoneal fluid kinetics in the rat. Effects of increases in intraperitoneal hydrostatic pressure.Perit Dial Int1995; 15: 1–11.
