CombetS., Van LandschootM., MoulinP., PiechA., VerbavatzJ.M., GoffinE.Regulation of aquaporin-1 and nitric oxide synthase isoforms in a rat model for acute peritonitis.J Am Soc Nephrol1999; 10: 2185–96.
2.
MargettsP.J., GyorffyS., KolbM., YuL., HoffC.M., HolmesC.J.Antiangiogenic and antifibrotic gene therapy in a chronic infusion model of peritoneal dialysis in rats.J Am Soc Nephrol2002; 13: 721–8.
3.
MortierS., De VrieseA.S., LeyssensA., VanckerN.J., FaictD., CornelissenM.Antibiotic administration in an animal model of chronic peritoneal dialysate exposure.Perit Dial Int2003; 23: 331–8.
4.
SuzukiK., KhannaR., NolphK.D., TwardowskiZ.J., MooreH.L.Expected white blood cell counts and differentials in a rat model of peritoneal dialysis.Perit Dial Int1995; 15: 142–6.
5.
HekkingL.H.P., AaldersM.C., Van GelderopE., ZweersM.M., StruijkD.G., HavenithC.E.Effect of dialysis fluid measured in vivo in a rat-model of continuous peritoneal dialysis.Adv Perit Dial1998; 14: 14–18.
6.
ZareieM., HekkingL.H.P., WeltenA.G., DriesprongB.A., Schadee-EestermansI.L., FaictD.Contribution of lactate buffer, glucose and glucose degradation products to peritoneal injury in vivo.Nephrol Dial Transplant2003; 18: 2629–37.
7.
Van WestrhenenR., WestraW.M., van den BornJ., KredietR.T., KeuningE.D., HiralallJ.K.Alpha-2-macroglobulin and albumin are useful serum proteins to detect subclinical peritonitis in the rat.Perit Dial Int2006; 26: 101–7.
8.
ChoiJ., CreditK., HendersonK., DeverkadraR., VanpeltH.M., HeZ.Antibiotic prophylaxis in an animal model of chronic peritoneal exposure.Perit Dial Int2006; 26: 249–58.
9.
De VrieseA.S., MortierS., CornelissenM., PalmansE., VanckerN.J., LeyssensA.The effects of heparin administration in an animal model of chronic peritoneal dialysate exposure.Perit Dial Int2002; 22: 566–72.
10.
MargettsP.J., KolbM., YuL., HoffC.M., GauldieJ.A chronic inflammatory infusion model of peritoneal dialysis in rats.Perit Dial Int2001; 21(Suppl 3): S368–72.
11.
ZweersM.M., SplintL.J., KredietR.T., StruijkD.G.Ultrastructure of basement membranes of peritoneal capillaries in a chronic peritoneal infusion model in the rat.Nephrol Dial Transplant2001; 16: 651–4.
12.
LamM.F., ZweersM.M., KunneC., de WaartD.R., KredietR.T.Peritoneal administration of a NOS inhibitor in a rat peritoneal exposure model with chronic uremia [Abstract].Perit Dial Int2003; 23(Suppl 1): S15.
13.
FlessnerM.F., ChoiJ., VanpeltH., HeZ., CreditK., HenegarJ.Correlating structure with solute and water transport in a chronic model of peritoneal inflammation.Am J Physiol Renal Physiol2006; 290: F232–F240.
14.
HekkingL.H.P., ZweersM.M., KeuningE.D., DriesprongB.A.J., de WaartD.R., BeelenR.J.H.Apparent successful mesothelial cell transplantation hampered by peritoneal activation.Kidney Int2005; 68: 2362–7.
15.
WangT., HeimburgerO., QureshiA.R., WaniewskiJ., BergströmJ., LindholmB.Physiological saline is not a bio-compatible peritoneal dialysis solution.Int J Artif Organs1999; 22: 88–93.
16.
Wieczorowska-TobisK., BrelinskaR., BreborowiczA., OreopoulosD.G.Morphologic changes in the liver of dialyzed rats—preliminary observations.Adv Perit Dial2003; 19: 20–3.
17.
MortierS., De VrieseA.S., McLoughlinR.M., TopleyN., SchaubT.P., Passlick-DeetjenJ.Effects of conventional and new peritoneal dialysis fluids on leukocyte recruitment in the rat peritoneal membrane.J Am Soc Nephrol2003; 14: 1296–306.
18.
De VrieseA.S., MortierS., LameireN.H.Non anticoagulant effects of heparin: implications for animal models of peritoneal dialysis.Perit Dial Int2001; 21(Suppl 3): S354–6.
19.
MortierS., LameireN.H., De VrieseA.S.Animal models in peritoneal dialysis research: a need for consensus.Perit Dial Int2005; 25: 16–24.
20.
SchambyeH.T.Effect of different buffers on the biocompatibility of CAPD solutions.Perit Dial Int1996; 16(Suppl 1): S130–6.
