Catheter Obstruction with Omental Wrap Stimulated by Dialysate Exposure

A new Implantation technique and catheter design (Moncrlef-Popovlch Catheter) were tested in the continuous ambulatory peritoneal dialysis (CAPO) dog model. With this technique the catheter distal (external) segment was Implanted in a subcutaneous tunnel for 4–6 weeks. Therefore, no irrigation of exposure to dialysate was present. Secondary exteriorization and irrigation (CAPO exchanges) demonstrated no episodes of primary catheter obstruction. Fifteen mongrel female dogs had 30 catheters implanted; 2 catheters simultaneously in each dog. One catheter was implanted with the interabdominal segments in the pelvis and the second interabdominal segment directed upward In direct contact with the omentum. Following initial irrigation, all catheters were patent, but within 24–48 hours all upwardly directed catheters were obstructed. Nine of the 15 downwardly directed catheters became obstructed by omentum wrapping around the catheter within 5 days. Preliminary studies have failed to demonstrate the cause of this “omental stimulation,” which occurs with peritoneal contact with fresh dialysate. Possible explanations include pH, osmolality, flow direction, volume, vasodilator effect of osmols or lactate, and glucose, among others. This effect needs study, and this model would allow evaluation of improvements in the biocompatibility of dialysis fluids.

[1]  A. B. Wolfson,et al.  Continuous ambulatory peritoneal dialysis. , 1994, Emergency medicine clinics of North America.

[2]  R. A. Tate,et al.  The Moncrief-Popovich Catheter: A New Peritoneal Access Technique for Patients on Peritoneal Dialysis , 1993, ASAIO journal.

[3]  T. Ing,et al.  In vitro buffering capacity of residual peritoneal dialysate fluid: implications for peritoneal dialysis therapy. , 2008, Artificial organs.

[4]  R. Popovich,et al.  Continuous Ambulatory Peritoneal Dialysis (CAPD) , 1989 .

[5]  A. Pustelnik,et al.  Ultrafiltration and absorption characteristics of hydroxyethylstarch and dextran during long dwell peritoneal dialysis exchanges in rats. , 1989, Advances in peritoneal dialysis. Conference on Peritoneal Dialysis.

[6]  H. Schuppe,et al.  Peritoneal Membrane Permeability for High and Low Molecular Weight Proteins (H/LMWP) in CAPD , 1986 .

[7]  J. Dobbie,et al.  The Ultrastructure of the Parietal Peritoneum in Normal and Uremic Man and in Patients on CAPD , 1986 .

[8]  J. P. Lovinggood Peritoneal Catheter Implantation for CAPO , 1984 .

[9]  J. CondeOlasagasti Continuous ambulatory peritoneal dialysis , 1984 .

[10]  B. Canaud,et al.  Permanent loss of ultrafiltration capacity of the peritoneum in long-term peritoneal dialysis: an epidemiological study. , 1983, Nephron.

[11]  D. Oreopoulos,et al.  COMPARISON OF THE SURVIVAL AND COMPLICATIONS OF THREE PERMANENT PERITONEAL DIALYSIS CATHETERS , 1982 .

[12]  L. Henderson Ultrafiltration with Peritoneal Dialysis , 1981 .

[13]  R. Popovich,et al.  Continuous Ambulatory Peritoneal Dialysis (CAPD) — Worldwide Experience , 1981 .

[14]  H. Tenckhoff,et al.  A bacteriologically safe peritoneal access device. , 1968, Transactions - American Society for Artificial Internal Organs.