PannekeetM.M., ImholzA.L.T., StruijkD.G., KoomenG.C.M., LangedijkM.J., SchoutenN.The standard peritoneal permeability analysis: A tool for the assessment of peritoneal permeability characteristics in CAPD patients.Kidney Int1995; 48: 866–75.
2.
TrunigerB., ColombiA.Peritonäale dialyse, ultrafiltration and hyperosmolarität.Schweiz Med Wochenschr1976; 106: 1102–9.
3.
NolphK.D., TwardowskiZ.J., PopovichR.P., RubinJ.Equilibration of peritoneal dialysis solutions during long-dwell exchanges.J Lab Clin Med1979; 93: 246–56.
4.
CanaudB., Liendo–LiendoC., ClaretG., MionH., MionC.Étude “in situ” de la cinétique de l'ultrafiltration en cours de dialyse péritonéale avec périodes de diffusion prolongée.Nephrologie1980; 1: 126–32.
5.
HeimbürgerO., WaniewskiJ., WerynskiA., TranæusA., LindholmB.Peritoneal transport in CAPD patients with permanent loss of ultrafiltration capacity.Kidney Int1990; 38: 495–506.
6.
ChenT.W., KhannaR., MooreH., TwardowskiZ.J., NolphK.D.Sieving and reflection coefficients for sodium salts and glucose during peritoneal dialysis.J Am Soc Nephrol1991; 2: 1092–100.
7.
HeimbürgerO., WaniewskiJ., WerynskiA., LindholmB.A quantitative description of solute and fluid transport during peritoneal dialysis.Kidney Int1992; 41: 1320–32.
8.
WangT., WaniewskiJ., HeimbürgerO., WerynskiA., LindholmB.A quantitative analysis of sodium transport and removal during peritoneal dialysis.Kidney Int1997; 52: 1609–16.
9.
RajaR.M., CantorR.E., BoreykoC., BushehriH., KramerM.S., RosenbaumJ.L.Sodium transport during ultrafiltration peritoneal dialysis.ASAIO Trans1972; 18: 429–33.
10.
NolphK.D., HanoJ.E., TeschanP.E.Peritoneal sodium transport during hypertonic peritoneal dialysis.Ann Intern Med1969; 70: 931–41.
11.
Ho-dac-PannekeetM.M., SchoutenN., LangedijkM.J., HiralallJ.K., de WaartD.R., StruijkD.G.Peritoneal transport characteristics with glucose polymer based dialysate.Kidney Int1996; 50: 979–86.
12.
KredietR.T., StruijkD.G., KoomenG.C.M., HoekF.J., AriszL.The disappearance of macromolecules from the peritoneal cavity during CAPD is not dependent on molecular size.Perit Dial Int1990; 10: 147–52.
13.
StruijkD.G., KoomenG.C., KredietR.T., AriszL.Indirect measurement of lymphatic absorption in CAPD patients is not influenced by trapping.Kidney Int1992; 41: 1668–75.
14.
WaniewskiJ., HeimbürgerO., WerynskiA., LindholmB.Aqueous solute concentrations and evaluation of mass transport coefficients in peritoneal dialysis.Nephrol Dial Transplant1992; 7: 50–6.
15.
ImholzA.L.T., KoomenG.C.M., StruijkD.G., AriszL., KredietR.T.Fluid and solute transport in CAPD patients using ultralow sodium dialysate.Kidney Int1994; 46: 333–40.
16.
LeypoldtJ.K., CharneyD.I., CheungA.K., NaprestekC.L., AkinB.H., ShockleyT.R.Ultrafiltration and solute kinetics using low sodium peritoneal dialysate.Kidney Int1995; 48: 1959–66.
17.
ColombiA.Sodium modelling in CAPD.Contrib Nephrol1991; 89: 155–60.
18.
SwalesJ.D.Sodium uptake in peritoneal dialysis.Br Med J1967; 3: 345–7.
19.
AmiciG., VirgaG., Da RinG., TeodoriT., CalzavaraP., BocciC.Low sodium concentration solution in normohydrated CAPD patients. In: KhannaR., ed. Advances in peritoneal dialysis.Toronto: Peritoneal Dialysis Publications, 1995; 11: 78–82.
20.
NakayamaM., YokoyamaK., KuboH., MatsumotoH., HasegawaT., ShigematsuT.The effect of ultralow sodium dialysate in CAPD. A kinetic and clinical analysis.Clin Nephrol1996; 45: 188–93.
21.
KredietR.T., BoeschotenE.W., StruijkD.G., AriszL.Differences in the peritoneal transport of water, solutes and proteins between dialysis with two- and with three-litre exchanges.Nephrol Dial Transplant1988; 2: 198–204.
22.
DrakeR.E., GabelJ.C.Diaphragmatic lymph vessel drainage of the peritoneal cavity.Blood Purif1992; 10: 132–5.
23.
WangT., HeimbürgerO., ChengH., WaniewskiJ., BergströmJ., LindholmB.Effects of dialysate fill volume on peritoneal fluid and solute transport.Kidney Int1997; 52: 1068–76.
24.
WangT., ChengH., HeimbürgerO., WaniewskiJ., BergströmJ., LindholmB.Hyaluronan prevents the decrease in net fluid removal caused by increased dialysate fill volume.Kidney Int1998; 53: 496–502.
25.
MistryC.D., GokalR., PeersE., and the Midas Study Group. A randomized multicenter clinical trial comparing isoosmolar icodextrin with hyperosmolar glucose solutions in CAPD.Kidney Int1994; 46: 496–503.
26.
AhearnD.J., NolphK.D.Controlled sodium removal with peritoneal dialysis.ASAIO Trans1972; 18: 423–8.
27.
RajaR.M., KramerM.S., RosenbaumJ.L., ManchandaR., LazaroN.Evaluation of hypertonic peritoneal dialysis solutions with low sodium.Nephron1973; 11: 342–53.
28.
Vande WalleJ., RaesA., CastilloD., Lutz–DettingerN., DejaegherA.Advantages of HCO3 solution with low sodium concentration over standard lactate solutions for acute peritoneal dialysis. In: KhannaR., ed. Advances in peritoneal dialysis.Toronto: Peritoneal Dialysis Publications, 1997; 13: 179–82.
