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Videosurgery and Other Miniinvasive Techniques
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Original paper

Laparoscopic interventions in children on peritoneal dialysis

Maria Szczepańska
,
Wojciech Korlacki
,
Krystyna Szprynger
,
Andrzej Grabowski
,
Elżbieta Trembecka-Dubel

Videosurgery and other miniinvasive techniques 2010; 5 (4): 152-157
Online publish date: 2010/12/20
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Introduction

Peritoneal dialysis is the method of choice in chronic dialysis treatment in children worldwide. The benefits of this method are multiple, including simplicity, low costs, better blood pressure control, fewer dietary restrictions, increased patients’ independence, decreased transfusions, and no need for anticoagulation [1]. The disadvantages of PD are peritonitis, exit site infections, tunnel infections, hernias, dialysis fluid leakage, catheter mechanical obstruction with outflow complication and catheter dislodgement, and external cuff extrusion [2, 3]. Complications remain a significant cause of morbidity and periodic or permanent treatment failure despite the constant advances in catheter design and dialysis technique improvement. They also carry the risk for the patient to switch the method of treatment to haemodialysis.

Laparoscopy is currently used for catheter insertion and fixation in patients on peritoneal dialysis (PD) [4-7]. Good intraoperative visualization of the peritoneal cavity directly allows better evaluation and treatment of intra-abdominal pathology, sometimes early before the start of PD. Also cosmetic outcome plays an important role. For the better comfort of patients during laparoscopic surgery general anaesthesia is applied as insufflated carbon dioxide has an irritating influence on the peritoneal membrane. Laparoscopy is less invasive than laparotomy, and enables immediate postoperative PD continuation [8] and early enteral feeding application. Traditional conservative attempts to save the catheter with mechanical outflow obstruction are in most cases unsuccessful. The revolution in laparoscopic techniques has led to the development of various new methods to salvage the catheter [9-12].

Laparoscopic interventions in abdominal diseases or during complications in patients on PD, especially in children, have seldom been presented.

Aim

The aim of the current study was to analyse retrospectively our experience with laparoscopic interventions in children on PD.

Material and methods

Twenty-three children with renal failure on PD were treated by laparoscopic surgery from 1999 to 2008. They were operated on in the Clinic of Paediatric Surgery and remained in maintenance control at the Dialysis Division of the Clinic of Paediatrics in Zabrze, Medical University of Silesia in Katowice. Laparoscopic surgery is the method of choice in our centre in the management of children requiring surgical intervention. However, simple insertion and evacuation of a Tenckhoff catheter in the case of PD treatment termination is routinely performed by classical surgery. During the evaluation period only 1 child on PD with complications had open surgery due to the absence of a laparoscopic team. The study group included 15 girls and 8 boys, aged 3 months – 18 years, mean 10.2 ±5.3 years. The mean duration of dialysis to the point of surgical intervention was 489 ±711 days (0 to 3220 days). The total number of patients on chronic PD treated in our centre was 93, on acute PD – 101 children.

The catheters were previously inserted by open surgery by the same team of surgeons. After catheter implantation children were treated in the dialysis unit and followed by a paediatric nephrologist. Automated peritoneal dialysis was applied with different treatment schedules, appropriate for particular patients’ needs. In the evaluated group PD as the acute treatment was implemented in 3 patients (13%), PD as the maintenance procedure in 20 pa­tients (87%).

The causes of renal failure in evaluated children included: chronic pyelonephritis – 9, chronic glomerulonephritis – 5, haemolytic-uraemic syndrome – 4, interstitial nephritis – 2, polycystic kidney disease – 1, familial nephronophtisis – 1, amyloidosis – 1.

In 12 children straight Tenckhoff catheter, in 7 chil­dren self-positioning catheter, in 2 Swan-neck coil catheters were used. Two boys had a presternal catheter due to bilateral ureterocutaneostomy and Prune belly syndrome respectively. All catheters were double-cuff. The entry side was paramedian in 20 children, median in 3 children.

Thirty various laparoscopic procedures were performed in total. One boy was operated on 4 times, 2 boys and 2 girls twice each. The boy with the highest frequency of laparoscopic interventions had a presternal catheter which recurrently migrated.

Children were qualified for surgery after careful evaluation by a surgeon and paediatric nephrologist. In each case a surgeon experienced in laparoscopic technique performed the operation. The operation started after complete drainage of the peritoneal cavity. Pneumoperitoneum was installed by a Veress needle or via the dialysis catheter (if not occluded) with intra-abdominal pressure of 8-12 mmHg according to the patient’s age. Videoscopic monitoring was performed via the 5 mm or 10 mm port inserted near the umbilicus. Subsequently the number and the area of placement of operative ports were stated, knowing the pathology and required surgery. Most often two operative 5 mm ports were applied. After the operation the peritoneal cavity was deflated and carbon dioxide removed, ports were evacuated and sutures created.

Performed procedures included: diagnostic (explorative) laparoscopy, laparoscopic replacement of the catheter and laparoscopic recanalisation of the occluded catheter (adhesiolysis, omentectomy, omental wrap releasing, omentopexy). The laparoscopic procedures lasted 50 min on average. Postoperative pain was controlled by intravenous analgesics.

Statistical analysis was performed using Statistica 8.0 PL (StatSoft, Inc 2008). Catheter survival was evaluated using Kaplan-Meier life table survival analysis. One-way ANOVA was applied to estimate the significance of differences between adequacy indices and permeability before and after surgery. The significance level was defined as P < 0.05.

Results

The percentage of operations in relation to the duration of PD before surgery is shown in Figure 1. Fifty percent of interventions were early (less than 5 months) after initial catheter insertion.

The causes of laparoscopy included: drainage problems in 16 cases (53.3%), symptoms of ileus in 6 (20%), peritonitis resistant to pharmacothe­rapy in 6 (20%), haemoperitoneum in 1 (3.3%), and scheduled laparoscopic Toupet fundoplication in 1 (3.3%).

In 29 cases laparoscopy with reduced invasive procedures was completed. In one girl the attempt of laparoscopy could not be continued due to massive intraperitoneal adhesions – the catheter was removed and haemodialysis applied. During surgery 5 cathe­ters were removed. Four of them were replaced.

In 16 cases of catheter malfunction, omental wrap releasing, recanalization and/or reposition was done, including omentectomy in 9 cases (Figure 2). In 6 cases of acute abdomen symptoms, 3 adhesiolysis procedures in bowel obstruction, 2 appendectomies, and in 1 case laparoscopic reduction of intussusception were done. In 5 cases of prolonged peritonitis diagnostic laparoscopy with peritoneal biopsy was performed. There were no intraoperative complications.

The most serious complications after laparoscopy were: respiratory failure (3 cases – 10%), dialysate leakage (3 cases – 10%), haemoperitoneum (1 case – 3.3% ), and serious metabolic disorders (2 cases – 6.7%). All above-mentioned complications were present in children with BMI lower than 21 kg/m2. Other complications included fever, transient eosinophilic peritonitis and hypervolaemia. Figure 3 shows complications during laparoscopic surgery in relation to the previous dialysis duration.

After surgery PD was continued in 19 children. Fluid exchanges were started a few hours after surgery. In children on acute PD in 2 children renal function recovered and 1 child died.

Catheter survival rate was 261 ±297 days. Six catheters were subsequently removed during transplantation in another centre, and 5 were still used at the end of study observation in November 2008. Three children died from causes not related to catheter malfunction. One child was transferred to haemodialysis due to ultrafiltration failure. Kaplan-Meier analysis results of catheter survival are shown in Figure 4.

In patients on maintenance PD analysis of membrane function and dialysis adequacy was done in comparison to peritoneal function before and after surgery.

Before surgery the mean value of KT/V was 2.58 ±0.57 and the mean value of creatinine clearance was 67.06 ±24.67 l/week/1.73 m2. After surgery the mean value of KT/V was 2.65 ±1.02 and the mean value of creatinine clearance was 65.51 ±32.34 l/week/1.73 m2.

There was no difference in KT/V and creatinine clearance between the values before and after surgery (KT/V p = 0.8070, creatinine clearance p = 0.8722).

Figure 5 shows the comparison of peritoneal permeability evaluated by PET test. No difference in peritoneal permeability before and after laparoscopic intervention was detected (p = 0.5201).

Discussion

The laparoscopic attempt of correction of malfunctioning PD catheters by laparoscopy was done for the first time by Wilson and Swartz [13]. The next step was the placement of Tenckhoff PD catheters in the 1980s [14]. Application of this technique in PD patients, especially children, requires a surgeon experienced in laparoscopy to minimize the complications during the operation and in the postoperative period [12, 15].

Nowadays laparoscopy is moving toward microinvasiveness. Operations in children could be performed with less trauma and better end results even in more complicated procedures [16, 17]. Instruments have been made smaller and thinner, which creates the possibility of small incisions [18, 19]. Minimally invasive laparoscopic technique carries lower risk of dialysate leakage, as well [11]. In our series this problem (leakage from the catheter site) was present in 10% of children, which is a favourable result.

Direct intraoperative view into the failed catheter allows for better recognition of the underlying disorder and for application of the proper manoeuvre to restore its function in mechanical outflow obstruction [20]. Laparoscopy can also be applied in PD children with poor clinical condition because of its safety properties. In our group 50% of interventions were in the first 5 months after the initial catheter implantation, 1 in a small newborn requiring intensive care support. Additionally, complications after laparoscopic surgery were present in all children dialysed for less than 10 days.

Laparoscopy is also useful in the case of presternal catheters, when reposition with a stiff wire without surgery is impossible. The described boy with such a catheter had 4 laparoscopic interventions because of permanent catheter migration. He was successfully transplanted at the end with this same catheter functioning for 2.25 years.

As the main cause of catheter malfunction is omental wrap, we try to perform partial omentectomy as a routine procedure at the time of catheter insertion in chronic PD patients. However, in 30% of cases subsequent omental wrap releasing (Figure 2) and omentectomy was necessary.

We showed that catheter salvage by this method is of great benefit for children. One year after the surgery more than 55% of catheters were still functioning in our patients and the 2-year survival was around 48%. Laparoscopy also preserved proper function of the peritoneum. In all children continuing PD adequacy measured by creatinine clearance and KT/V after the intervention was the same as before the laparoscopy. Similarly, peritoneal permeability evaluated by PET test showed no decline after the surgery.

In summary, laparoscopic technique is highly effective for management of various surgical problems in children on PD especially related to catheter malfunction. It is an excellent option for surgical interventions in the maintenance PD group, causing only minimal abdominal wall and peritoneum injury, which enables restarting of PD shortly after the surgery. Laparoscopic surgery has no influence on peritoneal permeability or adequacy of PD treatment.

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Copyright: © 2010 Fundacja Videochirurgii This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License (http://creativecommons.org/licenses/by-nc-sa/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material, provided the original work is properly cited and states its license.
  
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