腹膜透析管植入术后休整期与腹透导管相关并发症间关系的临床研究

目的：分析腹膜透析管植入术后至开始腹膜透析时的时间间隔（手术后休整期）与患者腹透导管相关并发症之间的关系,寻找合适的腹膜透析导管术后休整期。方法：回顾性总结本科室从1997年以来部分实行腹膜透析管植入术并长期随访的腹膜透析患者154例,根据腹透管置管植入术后休整期长短不同分为3组,7 d以内组（时间〈7 d）、7 d以上组（7 d≤时间〈14 d）和14 d以上组（时间≥14 d）,分析3组患者的原发疾病,术前白蛋白和肌酐水平、腹透液渗漏、腹透管移位、大网膜包裹等腹透导管相关并发症的发生情况,以及手术干预的例次。结果：各组中疾病谱分布、术前血清白蛋白及肌酐值水平差异无统计学意义（P〉0.05）;7 d以内组患者发生腹透液渗漏发生率（10.0%）、腹透管移位发生率（22.5%）、大网膜包裹发生率（20.0%）均高于其余两组（P〈0.05）;7 d以上组和14 d以上组之间上述并发症发生率相当（P〉0.05）;7 d以内组需手术处理的并发症（81.0%）显著高于其他两组（P〈0.05）。结论：腹膜透析管植入术后7～14 d的休整期能明显减少腹透导管相关并发症的发生,是比较合适的休整期。     

Dialysate leaks in peritoneal dialysis

Dialysate leakage represents a major noninfectious complication of peritoneal dialysis (PD). An exit-site leak refers to the appearance of any moisture around the PD catheter identified as dialysate; however, the spectrum of dialysate leaks also includes any dialysate loss from the peritoneal cavity other than via the lumen of the catheter. The incidence of dialysate leakage is somewhat more than 5% in continuous ambulatory peritoneal dialysis (CAPD) patients, but this percentage probably underestimates the number of early leaks. The incidence of hydrothorax or pleural leak as a complication of PD remains unclear. Factors identified as potentially related to dialysate leakage are those related to the technique of PD catheter insertion, the way PD is initiated, and weakness of the abdominal wall. The pediatric literature tends to favor Tenckhoff catheters over other catheters as being superior with respect to dialysate leakage, but no consensus on catheter choice exists for adults in this regard. An association has been found between early leaks (< or =30 days) and immediate CAPD initiation and perhaps median catheter insertion. Risk factors contributing to abdominal weakness appear to predispose mostly to late leaks; one or more of them can generally be identified in the majority of patients. Early leakage most often manifests as a pericatheter leak. Late leaks may present more subtly with subcutaneous swelling and edema, weight gain, peripheral or genital edema, and apparent ultrafiltration failure. Dyspnea is the first clinical clue to the diagnosis of a pleural leak. Late leaks tend to develop during the first year of CAPD. The most widely used approach to determine the exact site of the leakage is with computed tomography after infusion of 2 L of dialysis fluid containing radiocontrast material. Treatments for dialysate leaks include surgical repair, temporary transfer to hemodialysis, lower dialysate volumes, and PD with a cycler. Recent recommendation propose a standard approach to the treatment of early and late dialysate leaks: 1-2 weeks of rest from CAPD, and surgery if recurrence. Surgical repair has been strongly suggested for leakage causing genital swelling. Delaying CAPD for 14 days after catheter insertion may prevent early leakage. Initiating CAPD with low dialysate volume has also been recommended as a good practice measure. Although peritonitis and exit-site infections are the most frequent causes of technical failure in peritoneal dialysis (PD), dialysate leaks represent one of the major noninfectious complications of PD. In some instances, dialysate leakage may lead to discontinuation of the technique (1). Despite its importance, the incidence, risk factors, management, and outcome of dialysate leakage are poorly characterized in the literature. We will review the limited available information on this topic in the next few sections.     

Continuous ambulatory peritoneal dialysis: Technique of catheter insertion and management of associated surgical complications

Fifty-seven patients initiated continuous ambulatory peritoneal dialysis. All patients were generally pleased with this form of dialysis and particularly enjoyed the greater mobility and decreased dietary restriction. Complications associated with continuous ambulatory peritoneal dialysis include peritonitis, pericatheter infection, catheter malfunction, dialysate leak, and hernias of the abdominal wall.     

Moncrief-Popovich catheter and implantation technique: the AV fistula of peritoneal dialysis

Despite the decrease in peritonitis rate from touch contamination caused by the use of disconnect systems, technique failure in peritoneal dialysis (PD) from pericatheter and exit-site infections in PD remains unchanged. This indicates a failure of current PD catheters to prevent bacterial transfer from exit site to the peritoneal cavity. In 1991, Moncrief and Popovich introduced a new catheter design and implantation technique to address this problem. The catheter is made of silastic, has a coiled tip with 2 cuffs, and an arcuate bend between the cuffs. This would prevent catheter malfunction and leakage of PD fluid. The implantation technique involves embedding of the external segment of the catheter in the subcutaneous tunnel at insertion. The catheter segment is kept embedded for 4 to 6 weeks before externalization. This procedure will allow time for tissue ingrowth on into the external cuff and catheter surfaces between the 2 cuffs, preventing bacterial colonization of the catheter surfaces from the exit wound and thereby reducing pericatheter infections. Thus, the new technique will establish a more effective bacteriologic barrier between the exit wound and the peritoneal cavity than the conventional catheters. Ten years after validation of the catheter design and implantation technique by Moncrief and Popovich, various clinical studies confirm that this new technique of catheter implantation increases catheter life expectancy and reduces pericatheter infections in PD. Like the arteriovenous fistula of haemodialysis, this new catheter remains embedded in subcutaneous tunnel, is exteriorized electively when patient needs to be started on dialysis, and reduces pericatheter and exit-site infections in PD. The new technique, therefore, is widely accepted as a simple, safe, and cost-effective procedure for quality care of PD patients around the world.     

Access-related complications in peritoneal dialysis in developing countries

Access-related complications differ considerably between acute and chronic peritoneal dialysis as a result of differences in catheter design, catheter material, number of cuffs, break in period, and the duration of peritoneal dialysis. Pain, which is the commonest complication of acute peritoneal dialysis, is seen in 56% to 75% followed by blood tinged dialysate effluent in 30%, pericatheter leak in 14% to 36%, catheter malfunction in 12% to 28%, bowel injury in 0.1% to 1.3%, rarely bladder injury and peritonitis in 2.5%. In chronic peritoneal dialysis, the incidence of exit-site infections are seen anywhere between 1 episode in 27.3 patients months to 1 episode in 41.9 patients months, and pericatheter leak is seen in 5.2%. Technique of exit-site care is variable in different countries, and regular use of mupirocin ointment at the exit site is practiced in different centers.     

Incidence and clinical significance of nasal and pericatheter colonization by Gram-negative bacteria among patients undergoing chronic peritoneal dialysis.

BACKGROUND: Nasal and pericatheter colonization by Staphylococcus aureus portends an increased risk of peritonitis and exit-site infection for peritoneal dialysis (PD) patients. The aim of the present study was to examine the incidence of colonization by other peritoneal pathogens, and more specifically by Gram-negative bacteria (GNB), among PD patients, and to disclose its potential correlation with PD-related infections. METHOD: Over a 3-year period, we prospectively screened 152 PD patients and 99 partners every other month for nasal and pericatheter bacterial colonization (total follow-up for patients 3182 months). We performed 1089 studies in patients and 561 in partners. RESULTS: Although S. aureus and coagulase-negative Staphylococcus spp. predominated both in patients and partners, we recovered GNB from 15.8% (nares) and 22.4% (pericatheter) of the patients and from 29.3% of the partners. Most isolations of GNB were transient and only 7.2% of the patients and 7.1% of the partners had the same GNB isolated in at least two controls from the same sampling site. Older age, male gender, longer follow-up on PD, previous immunosuppressive therapy, low socioeconomic conditions, and a high global incidence of peritonitis were predictive of colonization by GNB. Previous pericatheter mupirocin therapy was also associated with later colonization by GNB. Nasal or pericatheter colonization by bacteria other than S. aureus, particularly GNB, had a poor predictive power for PD-related infections. CONCLUSION: Nasal and pericatheter bacterial colonization is protean in PD patients and their partners, and includes the significant presence of potentially pathogenic GNB. Colonization by GNB was not clearly associated with an increased risk of peritonitis or exit-site infection in these patients.     

Peritoneal dialysis catheter infections and peritonitis in children: a report of the North American Pediatric Renal Transplant Cooperative Study

Peritonitis and catheter-related infections remain the two most-common causes of peritoneal dialysis (PD) treatment failure. To define the frequency and risks associated with exit site/tunnel infections (ESI/TI), as well as peritonitis, in pediatric patients on PD, we undertook a retrospective cohort study of patients initiated on PD in the North American Pediatric Renal Transplant Cooperative Study (NAPRTCS). We examined demographic data and PD catheter characteristics of 1,258 patients, aged <21 years, initiated on PD from 1992 to 1997. We examined the frequency and complications of ESI/TI occurring within 30 days, 6 months, and 1 year of follow-up. For peritonitis episodes, we examined patient risk factors for peritonitis. Almost 11% of patients had an ESI/TI at 30 days, 26% between 30 days and 6 months, and 30% between 6 months and 1 year of follow-up. There was no increased risk of ESI/TI associated with patient age, race, or catheter characteristics. Peritonitis occurred in dialysis patients at a rate of 1 episode per 13.2 patient months. Proportional hazards regression analysis demonstrated that black race, single-cuffed catheters, and upward pointing exit sites were independent risk factors for peritonitis in the pediatric PD population. Patients with ESI/TI had twice the risk of those without these infections of developing peritonitis or needing access revision, and an almost threefold increased risk of hospitalization for access complications/malfunction. ESI/TI occurs commonly in pediatric PD patients. These infections cause significant morbidity, through risk of peritonitis, access revision, and hospitalization for catheter complications. Further study of potentially modifiable risk factors for ESI/TI in pediatric end-stage renal disease patients is warranted. Received: 22 November 1999 / Revised: 7 June 2000 / Accepted: 9 June 2000     

Laparoscopic-assisted peritoneal dialysis catheter placement, an improvement on the single trocar technique

In 2002, Ochsner laparoscopic surgeons and nephrologists began placing peritoneal dialysis (PD) catheters via a laparoscopic-assisted method. We compared laparoscopically placed PD catheters (LAPD) with catheters most recently placed without laparoscopic aid (STPD). The method for this study is a retrospective chart review. Demographics of both groups were similar. Nine of 20 (45%) in the STPD group and 16 of 23 (70%) in the LAPD group had had previous abdominal surgery. Three of 20 (15%) of STPD had complications, including one small bowel injury. Four of 23 (17.4%) of the LAPD had complications. One of 20 (5%) in the STPD group and 3 of 23 (13%) in the LAPD group had dialysate leaks. In the STPD group, 8 of 20 (40%) had catheter problems that led to removal in 7 (35%). In the LAPD group, 6 of 23 (26%) had catheter malfunction: 3 were salvaged with a laparoscopic procedure; 3 (13%) were removed for malfunction. 1) LAPD allows proper PD placement after complex abdominal surgery; 2) Although dialysate leak complications are increased, bowel perforation risk is less; 3) Because of proper placement, PD catheter malfunction rate is less with LAPD; 4) Although no results obtained statistical significance, we found LAPD superior to STPD and have converted to this technique.     

Blind peritoneal catheter placement with a Tenckhoff trocar by nephrologists: a single-center experience

Aim: Blind peritoneal dialysis (PD) catheter instrumentation with a Tenckhoff trocar is performed without direct visualization of the peritoneum. This method requires the least equipment, it is safe and it can be performed mainly by nephrologists. We report here on our long‐term experience with this method as performed by nephrologists. Methods: We reviewed the medical records at Yeungnam University Hospital in Korea and identified all the patients who had undergone blind PD catheter instrumentation with a Tenckhoff trocar by nephrologists. Four hundred and three patients were enrolled. Results: Early complications occurred in 7.7% (four patients with pericatheter bleeding, one patient with pleural leakage, two patients with migration, two patients with omental wrapping, three patients with exit site/tunnel infection and 19 patients with peritonitis). The late mechanical complications included eight cases of hernia, three cases of catheter extrusion, five cases of leakage, four cases of migration and five cases of omental wrapping. Exit site/tunnel infection and peritonitis occurred at a rate of 0.067 and 0.40 episodes/year, respectively. The intervention free survival rate was 84.5% at one year and 63.3% at 5 years. The catheter survival rate was 96.5% at one year and 83.6% at 5 years. Conclusion: This study provides evidence that blind PD catheter placement with a Tenckhoff trocar requires the least equipments, and it is easy to perform. Therefore, if the general anesthesia is impossible or equipment, such as fluoroscopy and laparoscopy, were not available, this method may be an alternative choice for PD catheter placement.     

Complications and catheter survival with prolonged embedding of peritoneal dialysis catheters.

BACKGROUND: Our centre uses a modification of the Moncrief technique of embedding peritoneal dialysis (PD) catheters. We undertook this study to test the hypothesis that catheter survival on PD is a function of the time a catheter is left embedded prior to use. METHODS: Data were retrospectively abstracted from review of patient records of those who received a first PD catheter over a 5-year period. Patients were divided into tertiles based on the number of days between insertion of the catheter and exteriorization to create three equal groups representing early (group 1, 11-47 days), mid (group 2, 48-133 days) and late (group 3, 134-2041 days) exteriorization strategies. RESULTS: 435 embedded PD catheters were inserted, 349 were exteriorized and total observation period was 5624 patient-months. Time to catheter loss was shortest in group 1 and longest in group 2 (P = 0.04). The overall rate of primary catheter failure was 6% and was significantly different in the three groups (6.9% in group 1, 1.7% in group 2 and 9.4% in group 3, P = 0.04). The time to first episode of peritonitis was longest in group 3 and shortest in group 1 (group 1 versus group 3, P = 0.009; group 2 versus group 3, P = 0.03). Adjusted peritonitis rates, however, were not different between the three groups. CONCLUSIONS: Mechanical complications and catheter loss are associated with the length of time a catheter is embedded. We recommend insertion 6 weeks to 5 months ahead of the need for PD to maximize catheter survival.     

Two-port laparoscopic placement of a peritoneal dialysis catheter with abdominal wall fixation

We devised a new laparoscopic technique for peritoneal dialysis catheter (PDC) placement to overcome the common problem of malfunction or migration of the catheter. Between March 2005 and August 2006, 38 patients underwent laparoscopic catheter placement with lower abdominal wall fixation. Using an abdominal scout film, we checked for catheter tip migration regularly. There was no leak in the immediate postoperative period. After follow-up of 21.5 months (range 6–34), all catheters were working properly, although tip migrations were found in the iliac fossa in three patients and in the right upper quadrant in one patient. A port site hernia developed in one patient and peritonitis developed in two patients. Only one remote migration (2.6%) occurred during the study period. Thus, our method of laparoscopic catheter insertion might be a feasible option.     

Peritoneal Dialysis Catheter Implantation: Avoiding Problems and Optimizing Outcomes

The success of peritoneal dialysis (PD) as renal replacement therapy is dependent upon the patient having a functional long‐term peritoneal access. There are a number of identified best practices that must be adhered to during PD catheter placement to achieve a durable and infection‐resistant access. The clinical setting, available resources, and the employed catheter insertion method may not always permit complete adherence to these practices; however, an attempt should be made to comply with them as closely as possible. Although omission of any one of the practices can lead to catheter loss, departures from some are committed more frequently, manifesting as commonly occurring clinical problems, such as drain pain, catheter tip migration, omental entrapment, pericatheter leaks and hernias, and poor exit‐site location. Understanding the technical pitfalls in PD catheter placement that lead to these problems, enable the provider to modify practice habits to avoid them and optimize outcomes.     

改良的腹膜透析导管固定方法在腹透置管术中的应用

目的 观察改良的腹膜透析(peritoneal dialysis,PD)导管固定方法在PD置管术中的应用.方法 收集2014年6月至2019年6月在扬州大学医学院附属泰兴市人民医院肾脏内科确诊为终末期肾病并选择PD治疗的大于18岁的患者,随机分为常规手术组与改良腹壁固定组,随访6个月,比较两组患者手术用时,术后导管漂管...     

Acute peritoneal dialysis in neonates: comparison of two types of peritoneal access

 A total of 23 sessions of peritoneal dialysis (PD) were given to 20 neonates with acute renal failure. Intravenous cannula (Biovalve 14G Vygon) was used for PD access in 13 procedures and guide wire-inserted femoral vein catheter (Medcomp-pediatric) in 10 procedures. Intraperitoneal bleed was seen in 1 procedure each in both groups. Dialysate leak and catheter blockade were more common with intravenous cannula [3 (23.1%), 8 (61.5%)] than guide wire-inserted femoral vein catheter [1 (10%), 4 (40%), P-NS]. Due to repeated catheter blockade, 5 (38.4%) PD sessions could not be completed with intravenous cannula and had to be prematurely closed; this complication was not seen with guide wire-inserted femoral vein catheter (P<0.05). Percentage reduction of serum creatinine per PD session was significantly higher in neonates being dialyzed with guide wire-inserted femoral vein catheter (51.7%±8.5%) than those dialyzed with intravenous cannula (38.3%±5.2%). Incidence of peritonitis was not significantly different [2 (15.4%) vs. 1 (10%)]. To conclude, for an effective PD in neonates, guide wire-inserted femoral vein catheter is safe and is associated with fewer access-related problems. Received: 23 February 1998 / Revised: 1 July 1998 / Accepted: 14 August 1998     

One-dose cefuroxime i.v. and i.p. reduces microbial growth in PD patients after catheter insertion

Background. When a peritoneal dialysis catheter is inserted intra-abdominally in a patient starting peritoneal dialysis (PD) there is always a risk for postoperative wound infection and peritonitis. At our centre, PD is started immediately after the dialysis catheter is inserted. This may increase the postoperative risk for peritonitis and wound infection. The aim of this prospective, randomized, study was to evaluate whether the incidence of microbial growth postoperatively (within 10 days) after catheter insertion could be reduced by prophylactic antibiotic therapy. Subjects and methods. During a period of 27 months, 38 patients, who consecutively entered the PD programme, (11 women and 27 men, mean age 57 years) were included in the study. Eighteen patients were given cefuroxime 1.5 g i.v. preoperatively and 350 mg i.p. in the first dialysis bag (containing 1 litre fluid) as prophylaxis. Twenty patients were not given prophylactic antibiotics (control group). All catheter insertions were performed in an operating theatre by the same surgeons using the same technique. Results. In the test group, none of the patients showed microbial growth in the dialysis fluid during the post-operative period, while in the control group six of 20 patients (30%) suffered from such growth (P=0.021) Conclusions. Prophylactic treatment by cefuroxime i.v. pre- an i.p. perioperatively may reduce the risk for microbial growth and peritonitis after insertion of a Tenckhoff catheter.     

Peritoneal dialysis underutilization: the impact of an interventional nephrology peritoneal dialysis access program

Peritoneal dialysis (PD) is an underutilized form of renal replacement therapy. Recent data have emphasized that only 12% of end-stage renal disease (ESRD) patients are initiated on this form of therapy in the United States. Patients requiring PD have most often been referred to general surgeons for catheter placement. This has incurred additional delays in starting treatment and loss of decision-making control by the referring nephrologist. To address this issue, we developed and incorporated our own PD access placement program into the preexisting chronic kidney disease (CKD) education program. To date, 46 patients have undergone 71 procedures. These included 51 (72%) PD catheter insertions, 14 (20%) removals, and 6 (8%) repositioning procedures for poor drainage. PD catheter insertion was performed peritoneoscopically under local anesthesia and a Fogarty catheter was used to reposition a migrated catheter. All of the procedures were performed by nephrologists in a dedicated interventional nephrology (IN) laboratory. All six repositioning procedures failed to restore optimal drainage. Five of these patients had the catheter removed and a new catheter placed during the same procedure. Of these five patients, one had recurrence of poor drainage and opted for hemodialysis (HD). The sixth patient declined reinsertion and chose HD. Of the remaining seven removal procedures, three were due to fungal peritonitis, one due to bowel perforation, one due to severe depression, one due to transplant, and one catheter was removed at the request of the primary physician in a terminally ill patient. Eight of the 51 catheter insertions were during the initial admission of a catastrophic dialysis start. Two of these patients started acute PD and avoided catheter placement for HD. Thirty-seven of 46 patients have a functional PD catheter with a follow-up of 8.6 +/- 0.8 (mean +/- SE) months. During an 18-month period our PD population has increased from 43 to 80 patients. We conclude that a dedicated PD access placement program coupled with a CKD education program can have a dramatic impact on patient choice and PD growth.     

Peritonitis in children on peritoneal dialysis in Cape Town, South Africa: epidemiology and risks

Peritonitis is a frequent complication of peritoneal dialysis (PD) in children as well in adults. Data on PD and peritonitis in pediatric patients are very scarce in developing countries. A retrospective cohort study was performed between 2000 and 2008 with the aim to evaluate PD treatment and peritonitis epidemiology in pediatric patients in South Africa and identify risk factors for peritonitis. Baseline characteristics and potential risk factors of peritonitis were recorded, including housing, socio-economic circumstances, distance to PD center, type of PD, mode of catheter placement, race, presence of gastrostomy tube, weight, and height. Outcome indices for peritonitis were peritonitis rate, time to first peritonitis, and number of peritonitis-free patients. The patient cohort comprised 67 patients who were on PD for a total of 544 months. The total number of peritonitis episodes was 129. Median peritonitis rate was one episode every 4.3 patient months (2.8 episodes/patient-year, range 0–21.2). Median time to first infection was 2.03 months (range 0.1–21.5 months), and 28.4% of patients remained free from peritonitis. Patients with good housing and good socio-economic circumstances had a significantly lower peritonitis rate and a longer time to first peritonitis episode. Peritonitis rate was high in this cohort, compared to numbers reported for the developed world; the characteristics of causative organisms are comparable. The most important risk factors for the development of peritonitis were poor housing and poor socio-economic circumstances. More intensive counseling may be beneficial, but improvement of general socio-economic circumstances will have the greatest influence on PD success.     

Biliary complications following adult right lobe ex vivo split liver transplantation.

Biliary complications are common following split liver transplantation (SLT). We analyzed the incidence, treatment, and outcome of biliary complications following adult right lobe ex vivo SLT performed between November 1992 and January 2005. There were 72 patients, of which 70 were analyzed. Early postoperative deaths resulted in 2 being excluded from the analysis. There were 44 males (median age, 48 yr; range, 19-70 yr). Biliary reconstruction was by duct-to-duct (DD) anastomosis in 52 (74%) and Roux-en-Y hepaticojejunostomy (RYHJ) in 18 (26%) patients. Until mid-2001, no T-tube was used for DD anastomosis (DD/non-T-tube) in 26 (37%) patients; subsequent to this, DD over a T-tube (DD/T-tube) was performed in 26 (37%) patients. Eighteen (26%) biliary complications occurred in 16 patients. Two anastomotic leaks of RYHJ were associated with hepatic artery thrombosis. The most frequent biliary complication was parenchymal radical leak from the transected liver surface (11%; 8/70), with anastomotic leaks in 6% (4/70) and strictures in 4% (3/70). There were also 2 cases of biliary leaks from T-tube exit site following T-tube removal, and 1 leak from the donor cystic duct stump. DD anastomosis without a T-tube was associated with a higher rate of cut surface and anastomotic biliary leaks (7/26), compared to the DD/T-tube group (1/26; P = 0.05). Six patients (9%) died following biliary complications, including 3 due to cut surface leaks in the DD/non-T-tube group and 2 cases with fatal biliary peritonitis following T-tube removal. A patient in the RYHJ group died due to biliary sepsis associated with hepatic artery thrombosis. In conclusion, biliary complications following right lobe ex vivo SLT are associated with significant morbidity and mortality. Our results suggest that T-tube biliary drainage of DD anastomosis may reduce parenchymal cut surface and biliary anastomotic leaks. However, bile leak following T-tube removal could lead to potentially fatal biliary peritonitis, which should always be anticipated and treated promptly.     

Idiopathic eosinophilic peritonitis in continuous ambulatory peritoneal dialysis: experience with percutaneous catheter placement

BACKGROUND: Peritoneal fluid eosinophilia (PFE), which is classically associated with idiopathic eosinophilic peritonitis (EP), has been known as a common event in patients on continuous ambulatory peritoneal dialysis (CAPD). However, our recent retrospective study of CAPD patients following percutaneous catheter placement showed that PFE occurred rarely. The aim of this prospective study was to clarify the incidence and characteristics of idiopathic EP and PFE in patients on CAPD following percutaneous catheter placement. METHODS: Forty-eight patients on CAPD following percutanous catheter placement were recruited for the present study. Peritoneal dialysis was initiated immediately after catheter insertion without break-in period. A cytological study of dialysate was performed on days 1, 2, 3, 4, 5, 6, 7, 14 and 30 after initiation of CAPD, and then monthly for 6 months. In addition, a cytological study was performed also when a patient revealed abdominal pain or cloudy peritoneal effluent. RESULTS: PFE developed in three (6.3%) patients during the study period. The incidence of idiopathic EP and PFE without any clinical findings suggestive of PD-related peritonitis was 2.1% and 4.2% respectively. All cases of PFE, including idiopathic EP, developed on a mean of 13 day following initiation of CAPD and resolved spontaneously after a mean of 7 days. There was no significant difference in IgE levels or the occurrence of peripheral blood eosinophilia between patients with PFE and those without. CONCLUSION: Idiopathic EP is infrequent among patients on CAPD following percutaneous catheter placement, but should be differentiated from infectious PD-related peritonitis.