WegenerG.Chirurgische Bemerkungen fiber die peritoneale Hole, mit besondere Berucksichtigung der Ovariotomie.Arch Klin Chir1877; 20: 51–9.
2.
PutiloffP.V.Mawrials for the study of the laws of growth of the human body in relation to the surface area: the trial on Russian subjects of planigraphic anatomy as a means of exact anthropometry. Presenwd at the Siberian branch of the Russian Geographic Society, Omsk, 1886.
3.
EsperancaM.J., CollinsD.L.Peritoneal dialysis efficiency in relation to body weight.J Paediatric Burg1966; 1: 162–9.
4.
RubinJ.L., ClawsonM., PlanchA., JonesQ.Measurements of peritoneal surface area in man and rat.Am J Med Sci1988; 295: 453–8.
5.
BellJ.L., LeypoldtJ.K., FrigonR.P., HendersonL.W.Hydraulically induced convective solute transport across the rabbit peritoneum.Kidney Int1990; 38: 19–27.
6.
RubinJ., JonesQ., PlanchA., StanekK.Systems of membranes involved in peritoneal dialysis.J Lab Clin Med1987; 110: 448–53.
7.
FoxS.D., LeypoldtJ.K., HendersonL.W.Visceral perito-neum is not essential for soluw transport during peritoneal dialysis.Kidney Int1991; 40: 612–20.
8.
AlonU., Bar-MaorJ.A., Bar-JosephG.Effective peritoneal dialysis in an infant with extensive resection of the small inwstine.Am J Nephrol1988; 8: 65–7.
9.
HendersonL.W.The problem of peritoneal membrane area and permeability.Kidney Int1973; 3: 409–10.
10.
DigenisG.E., RabinovichS., MedlineA., RodellaH., WuG., OreopoulosD.G.Electron microscopic study of the peritoneal kinetics of iron dextran during peritoneal dialysis in the rabbit.Nephron1984; 37: 108–12.
11.
NolphK.D., GhodsA., BrownP.Effects of nitroprusside on peritoneal mass transfer coefficients and microvascular physiology.Trans Am Soc Artif Intern Organs1977; 23: 210–18.
PietrzakI., HirszelP., ShostakA., WelchP.G., LeeR.E., MaherJ.F.Splanchnic volume, not flow rate, determines peritoneal permeability.Trans Am Boc Artif Intern Organs1989; 35: 583–7.
14.
NolphK.D., GhodsA.J., Van StoneJ., BrownP.A.The effects of intraperitoneal vasodilators on peritoneal clearances.Trans Am Soc Artif Intern Organs1976; 22: 586–94.
15.
NolphK.D., GhodsA.J., BrownP.A., TwardowskiZ.J.Effects of intraperitoneal nitroprusside on peritoneal clearances in man with variations of dose, frequency of administration and dwell times.Nephron1979; 24: 114–20.
16.
KredietR.T., ZuyderhoudtF.M.J., BoeschotenE.W., AriszL.Peritoneal permeability to proteins in diabetic and non-diabetic continuous ambulatory peritoneal dialysis patients.Nephron1986; 42: 133–40.
17.
NagelW., KuschinskyW.Study of the permeability of the isolated dog mesenwry.Eur J Clin Invest1970; 1: 149–54.
18.
RasioE.A.Metabolic control of permeability in isolated mesenwry.J Am Physiol1974; 226: 962–8.
19.
FoxJ.R., WaylandH.Interstitial diffusion of macromol ecules in the rat mesentery.Microvasc Res1979; 18: 255–76.
20.
PappenheimerJ.R., RenkinE.M., BorreroL.M.Filtration, diffusion and molecular sieving through peripheral capillary membranes. A contribution to the pore theory of capillary permeability.Am J Physiol1951; 167: 13–46.
21.
GrotteG.Passage of dextran molecules across the blood-lymph barrier.Acta Chir Scand1956; 211(Suppl): 1–84.
22.
MayersonH.S., WolframC.G., ShirleyH.H.Jr, WassermanK.Regional differences in capillary permeability, Am J Physiol1960; 198: 155–60.
23.
RenkinE.M.Relation of capillary morphology to transport of fluid and large molecules: A review.Acta Physiol Scand1979; 463(Suppl): 81–91.
24.
BundgaardM.Transport pathways in capillaries; in search of pores.Ann Rev Physiol1980; 42: 325–36.
25.
KarnovskyM.J.The ultrastructural basis of capillary permeability studied with peroxidase as a tracer.J Cell Biol1967; 35: 213–36.
26.
FoxJ., GaleyF., WaylandH.Action of histamine on the mesenteric microvasculature.Microvasc Res1980; 19: 108–26.
27.
BonominiV., ZucchelliP., MioliV.Selective and unselective protein loss in peritoneal dialysis.Proc Eur Dial Transplant Assoc1967; 4: 146–9.
28.
KredietR.T., StruijkD.G., ZemelD., KoomenG.C.M., AriszL.The transport of macromolecules across the human peritoneum during CAPD. In: La GrecaG., RoncoC., FerianiM., ChiaramonteS., GonzP., eds. Peritoneal dialysis.Milano: Wichtig, 1991: 61–9.
29.
ZemelD., KredietR.T., KoomenG.C.M., StruijkD.G., AriszL.Day to day variability of protein transport used as a method for analyzing peritoneal permeability in CAPD.PeritDialInt1991; 11: 217–23.
30.
KredietR.T., ZemelD., StruijkD.G., KoomenG.C.M., AriszL.Individual characterization of the peritoneal restriction barrier to macromolecules.Adv Perit Dial1991; 7: 15–20.
31.
ZemelD., Ten BergeR.J.M., StruijkD.G., BloemenaE., KoomenG.C.M., KredietR.T.Interleukin-6 in CAPD patients without peritonitis: Relationship to the intrinsic permeability of the peritoneal membrane.Clin Nephrol1992; 37: 97–103.
32.
LasrichM., MaherM., HirszelP., MalerJ.F.Correlation of peritoneal transport rates with molecular weight: A method for predicting clearances.ASAIO J1979; 2: 107–13.
33.
KredietR.T., ZuyderhoudtF.M.J., BoeschotenE.W., AriszL.Alterations in the peritoneal transport of water and solutes during peritonitis in continuous ambulatory peritoneal dialysis patients.Eur J Clin Invest1987; 17: 43–52.
34.
KredietR.T., BoeschotenE.W., StruijkD.G., AriszL.Differences in the peritoneal transport of water, solutes and proteins between dialysis with two and three-Iitre exchanges.Nephrol Dial Transplant1988; 2: 198–204.
35.
KredietR.T., AriszL.Fluid and solute transport across the peritoneum during continuous ambulatory peritoneal dialysis (CAPD).Perit Dial Int1989; 9: 15–25.
36.
ImholzA.L.T., KoomenG.C.M., StruijkD.G., AriszL., KredietR.T.The effect of dialysate osmolarity on the transport of low-molecular weight solutes and proteins during CAPD.Kidney Int (in press).
37.
KredietR.T., BoeschotenE.W., ZuyderhoudtF.M.J., StrackeeJ., AriszL.Simple assessment of the efficacy of peritoneal transport in continuous ambulatory peritoneal dialysis patients.Blood Purif1986; 4: 194–203.
