Effective Laparoscopic Catheter Insertion Technique for Peritoneal Dialysis Using Specially Designed Trocar : 22 Years Multi-Center Retrospective Study of 804 Patients

Introduction: Literature reveals several peritoneal dialysis laparoscopic catheter insertion techniques developed to improve long-term results for treatment chronic kidney failure with the technic of peritoneal dialysis. The purpose of the study is evaluation of developed and recommended minimally invasive laparoscopic technic for chronic peritoneal dialysis catheter placement using specially constructed trocar. Materials and Methods: Retrospective study included 804 patients in 10 departments of surgery. Surgical and non surgical complications related to PD catheter placement were analysed: bleeding, dialysate leak, early SSI, peritonitis, catheter tip migration, catheter obstruction, omental wrapping and visceral perforations. Available software (Microsoft® Excel for Windows 10, MedCalc, Mariakerke, Belgium) was used for statistical analysis (presented as percentages, mean ± SD or median). ConHow to cite this paper: Čala, Z., Soldo, I., Perko, Z., Knežević, N., Kocman, I., Alfier, V., Gudelj, M., Koprek, A., Kordić, M., Matošević, E., Senečić-Čala, I., Kraljević, J. and Pintar, T. (2018) Effective Laparoscopic Catheter Insertion Technique for Peritoneal Dialysis Using Specially Designed Trocar: 22 Years Multi-Center Retrospective Study of 804 Patients. Surgical Science, 9, 135-147. https://doi.org/10.4236/ss.2018.94015 Received: December 29, 2017 Accepted: April 17, 2018 Published: April 20, 2018


Introduction
Peritoneal dialysis (PD) is an established alternative to hemodialysis for renal replacement therapy in patients with the end-stage renal disease.One of the most important prerequisites for successful peritoneal dialysis is a well-functioning catheter that permits consistent dialysis solution bidirectional flow.However, complications of the PD catheter insertion such as bleeding, dialysate leakage and malfunction, exit-site infections, peritonitis and pain may require removal of the catheter and loss of PD as dialysis modality.Literature data are positive to PD catheter irregular insertion technique being highly related to the incidence of surgical and also non-surgical complications [1] [2] [3].
Currently, several surgical techniques and modifications have been described and used for the PD catheter placement.Each method offers benefits per se, but open surgical and laparoscopic techniques are preferred in terms of safety, catheter survival and reported complications [4] [5] [6] [7] [8].Also highly important, minimally invasive laparoscopic approach, allows direct visualization and precise catheter positioning; advanced laparoscopic surgical technics, also named additional maintaining procedures including partial omentectomy, adhesiolysis, biopsies and diagnosis and/or treatment of accompanying surgical pathologies during the same operation are mandatory in the circumstances of presented pathologies.Therefore, the number of laparoscopic peritoneal catheter placement procedures is rising around the world, as well as in Croatia, and neighboring countries [9] [10] [11] [12].Global burden of chronic kidney disease continues to increase and consequently also the need for renal replacement therapy, clearly presented in the last literature.Due to quality hospital and outpatient medical care service outcomes of patients treated with peritoneal dialysis are better comparable to those with hemodialysis.Further growth or trends in peritoneal dialysis use is also the reflection to patient's needs, being more avtoregulative, independent and furthermore allows ordinary daily activities.
Laparoscopic PD catheters implantations using conventional laparoscopic equipment started in 1993 at the University Hospital Sveti Duh, Department of Surgery, Zagreb, Croatia.However, using the standard laparoscopic instruments, Z. Čala  relatively high incidence of PD catheter insertion technic complications or technical failures was observed.To reduce the incidence of PD failure due to catheter placement technic based on personal data we developed several modifications of the trocar for PD catheter insertion and surgical approach in order to overcome limitations of available instruments [13].Technically improved trocar combined to catheter placement surgical procedure conceived in 1994 is still in use today.
In the last 22 years, this trocar has been distributed to surgeons and urologists in Croatia, Slovenia and Bosnia and Herzegovina with good results regarding functional and technical aspects of catheter placement [4] [14] [15] and also to promote minimally invasive surgical approach in the view to promote PD as treatment modality.The purpose of this retrospective study is to describe and evaluate designed laparoscopic technique, the trocar developed and investigate the outcomes.The trocar, dedicated for the catheter implantation, was inserted through 12 mm incision, on the right or left side, lateral to the umbilicus (Figure 1(a)); the exact position of incision corresponded to the high and boy weight to the patient, patient dexterity and planned home circumstances or position for PD procedure.The reusable trocar has two essential parts, the outer (sleeve) and the inner part (trocar).The outer part is a cannula, that consists of a proximal longer and wider part (15 cm long, 8 mm in internal diameter) that penetrates through the abdominal wall extra peritoneally and a distal shorter and narrow portion (3 cm long, 5 mm in internal diameter) inserted intraperitoneally.The outer cannula can be longitudinally divided into two symmetric halves (Figure 1(b)).The inner part is the trocar that, as well, consists of a longer (7.5 mm in Skin incisions were sutured with resorbable skin interrupted sutures.

Methods and Patients
Peritoneal dialysis was generally postponed for at least 2 weeks after the PD catheter insertion to allow complete wound healing, except in cases when the urgent PD was mandatory.
Statistical analysis.Intraoperative and early postoperative results of PD catheter implantation technic were retrospectively analyzed using patients' medical records transformed into electronic database.Follow-up time was defined as from the day of laparoscopic placement of PD catheter to day 30 postoperatively.
Data analysis was performed by employing Microsoft® Excel for Windows 10 and commercially available software (MedCalc, Mariakerke, Belgium) and is presented as percentages, mean ± SD or median.

Results
A patients and treated combined with intravenous and intraperitoneal antibiotics.In 5 refractory cases catheter was removed due to persistent positive dialysate swab and systemic infection.Analysis revailed positive cultures to Escherichia coli and Klebsiella pneumoniae; intraoperatively no acsites or signs of peritonitis were observed in all patients and also no liver pathology or vascular grafts present.In all patients skin insertion site (SSI) was negative.Dialysate fluid leakage occurred in 23 (2.8%) in the first 30 days after the catheter insertion and treated with low volume PD or temporary transfer to hemodialysis for a few weeks (average 4 to 6).There were two (0.2%) visceral perforations during catheter implantation.In one patient, the gastric perforation with Veress needle required open surgical approach and the second case was small intestinal perforation after intestinal loop adhesiolysis with consequent development of diffuse peritonitis three days after.The patient suffered from several comorbidities and despite timely surgical and intensive therapy, overall clinical deterioration progressed to death.Peritoneal dialysis catheter malfunction occurred in 5.6% of patients.Failure was due to catheter tip migration in 2.2%, blood clot or fibrin plug obstruction in 2.6%, and omental wrapping in 0.7%.It was treated by non-operative measures such as flushing and thrombolytics which have been proven effective.Catheter malfunction due to catheter tip migration or constipation was treated with fluoroscopic wire manipulation.Patients with malfunctioning peritoneal dialysis catheters due to omental wrapping underwent laparoscopic exploration and restoration of omentum and catheter tip.Seven patients suffered abdominal pain after infusion of dialysate fluid, however the pain resolved with time and there was no need for repositioning or Z. Čala

Discussion
Peritoneal dialysis is a treatment modality used worldwide for the treatment of end-stage renal disease.The PD catheter function and the incidence of the catheter-related complications strongly depend on the technique of implantation.
However, in the past few decades, the controversy persists about the best insertion technique.Considering all the advantages of minimally invasive approach, laparoscopic PD catheter is the most frequently used method today and needed to become the preferred approach [10] [11] [12] [13] due to short time of full PD establishment, low rate of early complications, patients independence, working ability and also better cosmetic effect.Due to available data, expanded use of laparoscopic implantation of PD catheters is due to its advantages regarding better visualization of the peritoneal cavity and more precise positioning of the catheter when compared to other implantation modalities [14].However, publications report many shortcomings of the standard laparoscopic equipment when used for PD catheter implantation with different described laparoscopic techniques for the PD catheter placement [15] [16].
The distinctive feature of described developed method is the usage of standard laparoscopic equipment with the addition of dedicated reusable trocar for catheter placement requests only minimal additional cost.Statistical data presents a low rate of technical failures and complications when compared to similar studies [17] [18] [19].Moreover, this multi-center experience is simply and completely reproducible [13].
Our data strongly support the conclusion based on statistical data that laparoscopic peritoneal catheter implantation using our specially constructed reusable trocar is a safe, short lasting, efficient and feasible alternative to other laparoscopic techniques in the management of the patients requiring peritoneal dialysis.Visualisation of abdominal cavity, prompt hemostasis, catether tip and internal insertion point inspectation are important to reduce also the full restoration of PD and quality of life.In addition, laparoscopy is useful for the diagnosis and treatment of other pathologies, also highly important in the clinical circumstances of previously no clinical signs presented.We can conclude also, that laparoscopic cholecystectomy, nephrectomy, hernia repair and cardiac operations can be successfully performed in the same general anesthesia [20] [21].
In our series, combined operations concomitant with PD catheter placement were also performed.Seventy patients had an inguinal or an umbilical hernia and underwent hernia repair before, simultaneously or after the PD catheter insertion.Inguinal hernias were treated using the open Lichtenstein procedure or endoscopic total extraperitoneal procedure (TEP) that is preferred technique for hernia repair in PD patients due to preserved peritoneal integrity [21] Twenty laparoscopic cholecystectomies were performed for cholelithiasis in asymptomatic patients.In patients with acute cholecystitis and candidates for laparoscopic PD insertion laparoscopic cholecystectomy was performed and after a disease free interval of three weeks the procedure finalised.Four endoscopic nephrectomies and one cardiac operation were also performed and no additional surgical and non surgical complication observed related to concomitant procedures.
Third and important observation to our study is that laparoscopic method is particularly useful in patients with previous abdominal operations.In this setting, adhesiolysis is safely performed to prevent nor catheter malfunction to unssufficient PD due to reduced exposure to parietal and visceral peritoneum in the case of multiple adhesions.Importantly, the situation allows peritoneal dialysis also in patients who would otherwise require hemodialysis, as we did in 27 cases.The primary causes of catheter dysfunction, as reported in review publications and PD guidelines, are compartmentalization from adhesions, catheter tip migration and omental wrapping or entrapment [22].Our technique of laparoscopic PD catheter placement directly addresses these issues by allowing long rectus sheath tunneling along with adhesiolysis and omentopexy [23] [24].
However, only adhesions that may obstruct catheter function should be treated.
Adhesions in the upper part of the abdomen usually do not interfere with dialysate drainage and therefore does not mandate surgical management.Moreover, unnecessary adhesiolysis may increase the risk of postoperative bleeding [25] and intestinal trauma.
Although several publications recommend routine omentectomy or omentopexy, we found that unnecessary.These procedures may prolong operation, and could result in complications such as postoperative bleeding, catheter obstruction, and internal herniation [24] [25].Omentopexy should be done selectively in patients having extremely long omentum to reduce the incidence of omental wrapping and dialysat compartmenisation.In our study, the omentopexy was performed in three cases with the additional two cases of catheter suture fixation.
Special care should be taken to avoid visceral injuries during coagulation and manipulation with the instruments.Damage to the small or large bowel may not be visible during the operation with clinical and laboratory findings presentation up to 3 -6 days later.Although, this complication is rare (0% -2%) clinical situation after laparoscopic PD catheter insertion, we reported two visceral perforations in our study.The gastric perforation was due to the Veress needle insertion and the small bowel injury occurred during adhesiolysis in low BMI patient after massive weight loss and abdominal wall distension.Recent studies also propose, that the use of peritoneal dialysis may offer advantages in patients with the intra-abdominal foreign body, such as vascular grafts, due to better hemodynamic control and avoidance of anticoagulation, also supported by our study.In our

Conclusion
The presented technique of laparoscopic PD catheter insertion with a specially constructed reusable trocar is simple to use and requires no additional training.
It requires standard laparoscopic equipment besides specially constructed reusable trocar that itself poses only minimal additional cost.The procedure is also compliant with consensus guidelines for best-demonstrated practices in peritoneal access placement including long rectus sheath tunnel in craniocaudal oblique direction, toward the pelvis, with preperitoneal deep cuff.It offers excellent visualization of all procedure steps which is especially important for precise control of the peritoneal surface during the trocar insertion and positioning and besides gives optimal cosmetic effect.Therefore, this laparoscopic procedure for PD catheter insertion is a safe and effective procedure with low risks of morbidity and mortality.However, optimal long-term catheter function and PD depends on the effective multi-disciplinary program, ongoing re-examination and cooperation between nephrologists and surgeons.

1 ) 2 )
Patients.Retrospective analysis of 804 patients with the end-stage renal disease that underwent laparoscopic PD catheter placement using specially designed trocar from September 1993 to January 2016 in eight Departments of Surgery and two Departments of Urology in Croatia, Slovenia and Bosnia and Herzegovina is presented.All operations were performed by experienced laparoscopic surgeons, previously well educated in the technic of PD catheter placement and the use of trocar.Departments with less than 25 laparoscopic insertions have not been included in this study.Postoperative follow up was performed by same surgeon and data collection.Surgical procedure.Preoperative multimodal patient preparation included physical examination and education by the surgeon, nephrologist and PD nurse started a few days before surgical procedure.Preoperatively surgical procedure planning started with catheter path marking, the catheter insertion and exit site, and the cuffs position.Detailed preoperative diagnostic pull was used to exclude the presence of other abdominal pathologies to plan concurrent surgery if indicated.Routine prophylactic antibiotic use, based cefazolin or vancomycin schema was administered half an hour prior to start the procedure performed under general anesthesia.The patient was placed in the supine position; in simultaneous laparoscopic operation for other pathologies indicated, the patient was temporarily positioned for the operation and then repositioned to standard supine for the PD catheter insertion at the end of the procedure.Standard laparoscopic equipment was used along with specially designed trocar dedicated for PD catheter insertion.12 mmHg pneumoperitoneum was obtained by CO 2 insufflation using the Veress needle or the Hasson trocar; 5 or 10 mm trocar was inserted through the same supraumbilical incision and 5 or 10 mm, 30˚ or 0˚ laparoscope was inserted for surgical exploration to peritoneal cavity.Lysis of interfering adhesions was performed, if needed.The additional 5 mm trocar was positioned in the left mid-clavicular line in the left or right lower abdominal Z. Čala et al.DOI: 10.4236/ss.2018.94015138 Surgical Science quadrant, due to predicted position and atraumatic grasper or other working instruments were introduced through same trocar.

Figure 1 .
Figure 1.Trocar for laparoscopic peritoneal dialysis catheter placement (Čala & Medaž).(a) The trocar consists of the two essential parts.The inner part consists of a longer (7.5 mm in diameter) guide and a shorter outer part of consists with the pyramid-sharpened tip extending from the distal opening of the cannula (5 mm in diameter); (b) The outer cannula of the trocar longitudinally divided in the two symmetric halves.The outside part is a metal cannula, with a narrow portion that is introduced intra-abdominaly with short portion, inside diametter of peritoneal catether and slightly dilatates the catether path; and a larger portion that penetrates into the abdominal wall.
preparation.The trocar ensured the minimal size of the peritoneal defect at the insertion site, long rectus sheath tunnel and the deep cuff placed preperitoneally, inside the rectus sheath all above the positive consequences of dilatation approach of abdominal wall structures with minimal trauma and improved conformance to wall structures to implemented catheter.Importantly, peritoneal defect has close the same the catheter diameter that allows also rapid peritonisation and reduces leak.Using dedicated reusable trocar for laparoscopic catheter implantation keeps the catheter oriented toward the pelvis and importantly reduces the number of catheter tip migration due to prolonged rectus muscle sheat.Therefore, the need for suture fixation of the catheter is eliminated and to well described technical unnecessary procedure that is highly supported with the literature data that suture fixation of the catheter may cause an internal hernia or formation of adhesion[9] [17].Anthropometric parameters of the patients were evaluated only in few centers included in the study and importantly, mostly in the limited period and those represent a limitation of the study and interpretation.Metabolic and nutritional adaptations in patients with CKD with clinical presentation of skeletal muscle mass and function deterioration importantly contribute to surgical risk factors calculation.In limited number of patients data obtained with BIA showed important correlation between duration of CKD and time of catheter placement, elevated PA (phase angle), reduced lean body mass, surgical and non-surgical postoperative complications and efficient PD establishment.Besides that, not uniform dietary counseling was used in all centers that also represents the limitation in interpretation of the results.The age of CKD patient was not the purpose of observation but also represents an important variable in risk factor stratification.Risk factor calculation due to oxidative stress in CKD might be interpreted with PA and preoperative BIA measurement results interpretation and correction of PA with treatment modalities might represent an efficient approach to reduce surgical risks.Limited data are positive for the influence of increased PA and the need of catheter removal in our study, but as the number of patients is low no evidence based conclusion might be possible.Otherwise, in multimodal patient preparation for surgery, also in patients with ESRD, anthro-Z.Čala et al.DOI: 10.4236/ss.2018.94015146 Surgical Science pometric, BIA and metabolic data represent an important working field to reduce surgical and non surgical risk factors reduction.
et al.

Table 1 .
Concomitant surgical procedures performed before, during and after laparoscopic peritoneal dialysis catheter (LPDC) insertion.
24tal of 804 patients underwent laparoscopic PD catheter placement; the number of the procedures per surgeon ranged between 27 and 216.Intraoperative and 30 days postoperative course were analyzed.Patients' ages ranged between 18 and 69 years, with a median age of 52 years.Mean operative time (skin to skin) was 32 minutes (range, 15 -72 minutes).Previous abdominal operations were not a contraindication for laparoscopic PD catheter implantation.In patients with prior abdominal surgery the open technique trocar placement was used for the access to the peritoneal cavity.No complications associated with the additional operations were recorded.Laparoscopic PD catheter implantation was performed in four patients with a vascular graft implanted more than 4 months before surgery.Advanced laparoscopic abdominal operations were performed before the PD catheter implantation in 140 (17%) patients (Table1).Before the catheter implantation, 21 (2.6%) inguinal and 4 (0.4%) umbilical hernias were repaired and concomitant hernia repair was performed for twelve (1.4%) inguinal and two (0.2%) umbilical hernias among that Lichtenstein procedure in 7 cases, while endoscopic total extraperitoneal procedure (TEP) in 5 cases.Two umbilical hernias were repaired using the open procedure, after removal the trocar and used for access to abdominal cavity.The peritoneum was closed in a water-tight manner in all cases.After the general anesthesia.Detailed hemostasis was mandatory and checked after dialysate liqiud test.The abdominal drain was left in place for24hours in patients with concomitant abdominal operations.Adhesiolysis was necessary before the Z. Čala et al.DOI: 10.4236/ss.2018.94015141 Surgical Science catheter insertion in 31 (3.8%) patients, 26 (84%) had prior abdominal surgery and partial omentectomy performed in 6 (0.7%) and omentopexy in 3 (0.3%) cases.Catheter suture fixation was performed twice (0.2%).The incidence of major surgical complications is listed in Table 2.No intraoperative deaths were recorded.Bleeding complications occurred in 46 (5.7%) patients.Inferior epigastric vessels injury resulted in abdominal wall bleeding in 1% at the time of catheter implantation and in 1.7% of patients after the procedure.Wound revision, ligation, and electrocoagulation was performed in the case of bleeding; abdomial bleeding after PD catheter implantation occurred in 21 (2.6%) cases, among that laparoscopic revision and hemostasis in 10 cases and the remaining stopped spontaneously with no need to blood transfusions.and Streptococcus pyogenes.Slight skin edema was present day 1 postoperative in all 3 patients and other local infection signs absent up to day 4 postoperatively.No identification of skin microbiota was performed prior catheter placement.Peritonitis occurred in early postoperative period (30 days) in 35 (4.3%) Z. Čala et al.DOI: 10.4236/ss.2018.94015142 Surgical Science

Table 2 .
Complications of peritoneal dialysis catheter insertion.
et al.In all of these cases, a catheter with straight tip was used.