Both medical benefits to the patient and financial incentives to the health care system exist to increase the use of peritoneal dialysis as renal replacement therapy. Providing long-term peritoneal access free of mechanical dysfunction continues to represent a major challenge to the success of this modality. Variable outcomes result from the lack of standard implantation methodology and failure to address persistent problems associated with current implantation techniques. This prospective case study compared noninfectious procedural complications of three approaches to establish peritoneal dialysis access. The groups consisted of 63 catheters implanted by traditional open dissection, 78 catheters implanted by basic laparoscopy without associated interventions, and 200 catheters implanted by advanced laparoscopic methods including rectus sheath tunneling, selective prophylactic omentopexy, and selective adhesiolysis. Mechanical flow obstruction, the major outcome indicator, followed only 1 of 200 (0.5%) implantation procedures in the advanced group and was significantly better ( P < 0.0001) than the open dissection (17.5%) and basic laparoscopic (12.5%) groups. A low rate of pericannular leaks (1.3–2%) was not different for the three groups. One pericannular hernia occurred in the open group. Catheter mechanical dysfunction attributable to the surgical technique can nearly be eliminated through adjunctive procedures made possible only by a laparoscopic approach.
Objective Presented herein is a technical description of a time-proven laparoscopic approach to establishing successful long-term peritoneal dialysis access. Design Using a two-port technique, the peritoneal catheter is inserted through a paramedian port site while continuously monitoring the implant procedure with a laparoscope from a second port location. A long rectus sheath tunnel created with a nontrocar port device keeps the dialysis catheter oriented toward the pelvis. Helium abdominal insufflation enables full surgical laparoscopy under local anesthesia. Validation of the effectiveness of the technique is made by comparison to previous implantation experience using an open dissection method. Patients Laparoscopic implantation of peritoneal catheters was performed in 150 patients, and placement by open dissection was accomplished in 63 patients. Main Outcome Measure The incidence of complications and revision-free catheter survival between implantation methods were compared. Results Catheters implanted laparoscopically had a significantly lower incidence of flow dysfunction ( p < 0.05) and better survival ( p < 0.001) than those placed by open dissection. Conclusions Compared to implantation by open dissection, the laparoscopic approach provides the patient reduced perioperative discomfort. The procedure can be performed safely with the patient under local anesthesia on an ambulatory basis. Laparoscopic implantation significantly reduces the incidence of catheter flow dysfunction and permits simultaneous identification and correction of other problems that could complicate dialysis therapy.
Implantation of peritoneal dialysis catheters by traditional laparotomy or trocar/guidewire techniques leaves the operator blind to the actual location and configuration of the peritoneal catheter tubing; it is associated with drainage dysfunction from catheter obstruction in 10-22% of catheter placements. This report presents a laparoscopic technique that allows accurate tube placement with complete visualization of the implant procedure. The peritoneal dialysis catheter was implanted through a port inserted in a paramedian location. Videoscopic monitoring was performed through a second port inserted in a pararectus location on the opposite side of the abdomen. Nitrous oxide gas was utilized for peritoneal insufflation thus permitting the procedure to be accomplished under local anesthesia. Follow-up of =12.7 months (median, 4.4) for the first 28 patients revealed a high rate of successful catheter function with an outflow obstruction rate of 3.6%. The procedure was well tolerated by patients under local anesthesia on an outpatient basis. Videolaparoscopy is ideally suited for peritoneal dialysis catheter implantation. Visual conformation of proper catheter location and configuration during the implant process are associated with lower incidences of outflow failure.
Omental entrapment of the peritoneal dialysis catheter remains a common cause of flow dysfunction. Prophylactic omentectomy during catheter implantation is still followed with an incidence of flow obstruction as high as 10%. We describe indications and a technique for selective performance of omentopexy during laparoscopic catheter implantation that resulted in only a 0.7% obstruction rate in 153 consecutive patients as compared with a 12.8% rate in a preceding group of 78 consecutive patients. Laparoscopic omentopexy was performed during 9.2% of implant procedures and only when the omentum was found to extend to the retrovesical space. The procedure is simple, quick, and inexpensive to perform. Employing selective criteria for omentopexy eliminates the performance of unnecessary procedures. Actuarial analysis demonstrates that an operative strategy of selectively performing omentopexy for redundant omentum significantly improves catheter survival free of flow dysfunction (P < 0.0001).
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