Single trocar laparoscopically assisted placement of central nervous system-peritoneal shunts

BACKGROUND: Lumbar peritoneal and ventriculoperitoneal shunts are widely used for the treatment of hydrocephalus. In the past, the abdominal portion of these procedures required laparotomy. With the advent of minimally invasive techniques, laparoscopically assisted placement of the distal catheter has been tried. MATERIALS AND METHODS: We performed 10 shunt procedures (3 lumbar peritoneal, 6 ventriculoperitoneal, and 1 meningomyelocele-peritoneal) in 10 patients (mean age 56; age range, 30-78 years). Four patients had undergone previous open shunt placement that failed. The abdominal portion of the procedure was performed using a 5-mm trocar and a 10Fr introducer for camera and catheter insertion. In 3 cases, an additional 5-mm port was necessary for lysis of adhesions. These access punctures did not require fascial closure and caused minimal pain and limitation. RESULTS: No intra- or postoperative complications were encountered in this small patient group. At a median follow-up of 50 months (range, 3-56 months) all patients had functioning shunts. CONCLUSION: Single trocar laparoscopically assisted placement of central nervous system-peritoneal shunts is safe and simple, and should be considered the procedure of choice. This technique is also suitable for repositioning migrated catheters and other catheter-tip manipulations.     

Laparoscopically guided distal ventriculoperitoneal shunt placement

In standard techniques for performing ventriculoperitoneal shunts, the peritoneal catheter is threaded more or less blindly into the peritoneal cavity. Using laparoscopic techniques allows accurate peritoneal placement, without a large incision, even in replacement procedures and in patients with previous abdominal operations. We performed 28 laparoscopically guided ventriculoperitoneal shunt placements and shunt revisions in 24 patients with hydrocephalus (aged 6-80 years). Sixteen of 24 patients (67%) had previous abdominal surgery. Laparoscopic shunt placement was successful in all patients. Mean operative time was 63 +/- 34.9 minutes (range 15-150 minutes). In 2 patients, broken and disconnected distal parts of previously inserted shunts were removed from the abdomen. One shunt was removed following infection and other one was revised due to shunt malfunction. Three patients required revision of the cranial part of the shunt. Laparoscopically guided distal ventriculoperitoneal shunt placement provides definite patient benefits: it allows shunt placement under direct vision, associated with reduced trauma to the abdominal wall, and avoids a consequent risk of intra-abdominal adhesions.     

Laparoscopically assisted ventriculoperitoneal shunt placement using 2-mm instrumentationrid=""id=""Presented in poster format at the annual meeting of the Society of American Gastrointestinal Endoscopic Surgeons (SAGES), San Antonio, Texas, USA, 24–27 March 1999

Background: Laparoscopy has potential benefit in the placement of ventriculoperitoneal shunts. In patients who have undergone multiple shunt revisions or other abdominal operations, laparoscopy may be particularly beneficial when finding of a suitable area in which to place the shunt is a concern. The purpose of this study was to evaluate the safety and effectiveness of laparoscopically assisted ventriculoperitoneal shunt placement, with an emphasis on using 2-mm instrumentation. Methods: Laparoscopically assisted ventriculoperitoneal shunt placement using 2-mm instrumentation was performed in eight adult hydrocephalus patients from August 1996 to September 1998. All eight patients had undergone 1 to 18 prior shunt revisions. The procedures were performed with two 2-mm trocars. The instrumentation consisted of a 2-mm laparoscope, a 2-mm grasper, and 2-mm scissors. All shunts were placed in an area free of adhesions and checked for flow under direct vision. Four of the patients required a lysis of adhesions to create a space adequate for catheter placement. Results: All of the procedures were successful, with no operative complications. The operative times ranged from 29 to 99 min, (mean, 63 min). The blood loss in all of the procedures was minimal. At this writing, none of the patients have required subsequent distal shunt revisions. No conversions to larger instruments or an open procedure were required. Conclusions: Laparoscopically assisted ventriculoperitoneal shunt placement using 2-mm instrumentation is safe and effective, offering several advantages over the open procedure. This procedure is ideal for the use of 2-mm instruments. Received: 19 March 1999/Accepted: 23 June 1999/Online publication: 10 April 2000     

Case report of migration of 2 ventriculoperitoneal shunt catheters to the scrotum: Use of an inguinal incision for retrieval,diagnostic laparoscopy and hernia repair

BackgroudVentriculoperitoneal shunts are commonly used in the treatment of hydrocephalus, and catheter migration to various body sites has been reported. Pediatric and general surgeons are asked on occasion to assist with intraabdominal access for these shunts, particularly when there may be extensive adhesions or other complicating factors.MethodsWe describe a case in which an old shunt catheter was never removed from the abdomen, and it migrated through an inguinal hernia into the scrotum. The catheter became entangled and fibrosed to the testicle. A second and more recent shunt catheter was also in the scrotum. A single incision in the inguinal region was used to remove both shunt catheters, repair the inguinal hernia and perform diagnostic laparoscopy to assist in placing a new ventriculoperitoneal shunt.ResultsPrompt surgical removal is recommended for catheters remaining in the abdomen after ventriculoperitoneal shunt malfunction. These catheters may cause injury to the testicle, or possibly other intraabdominal organs. General or pediatric surgical consultation should be obtained for lost catheters or inguinal hernias.ConclusionIn the case of an inguinal hernia containing a fractured shunt catheter, the hernia sac can be used to remove the catheter, repair the hernia and gain laparoscopic access to the abdomen to assist with shunt placement.     

Laparoscopic-assisted lumboperitoneal shunt: a simplified technique.

OBJECTIVES: Lumboperitoneal shunt has been advocated as a better alternative to ventriculoperitoneal shunt in communicating hydrocephalus. To minimize the morbidity of subcutaneous tunneling or an open abdominal wound, we developed a simplified technique for laparoscopy-assisted placement of lumboperitoneal shunts. METHODS: Patients deemed candidates for lumboperitoneal shunts underwent laparoscopy-assisted lumboperitoneal shunt placement. Using a Tuohy needle, the neurosurgeon obtains access to the lumbar subthecal space. Simultaneously, the laparoscopist obtains access to the peritoneal cavity with two 5-mm ports for the take down of the descending colon, clearing the way for the passage of the shunt passer from the back into the peritoneal cavity. RESULTS: Over the last 5 years, 45 patients have undergone laparoscopy-assisted lumboperitoneal shunt placement. Patients have been followed with neuropsychiatric examinations, imaging studies, and repeated neurological examinations. No complications related to the laparoscopy have occurred. Neurosurgical complications included postural headaches caused by overdrainage in 4 patients requiring laparoscopic modification of the shunt slit and in 1 patient with acquired Arnold-Chiari I malformation. CONCLUSION: Laparoscopy-assisted lumboperitoneal shunt offers many advantages over percutaneous ventriculoperitoneal or laparoscopic transabdominal lumboperitoneal shunts. The procedure can be performed in less than 30 minutes by any practicing laparoscopist.     

A retrospective analysis of laparoscopically assisted ventriculoperitoneal shunts

Background: During the last two years, laparoscopy has been utilized to facilitate the rapid, safe and direct placement of the abdominal component of ventriculoperitoneal shunts. This study was undertaken to review the feasibility, benefits, technique, and clinical application of laparoscopically assisted ventriculoperitoneal (LAVP) shunt placement. Methods: A retrospective analysis of the records of six patients who underwent LAVP shunt placement was undertaken. The sex, age, technique, indication for surgery, comorbid conditions, complications operative time, results, and mortality were noted. Results: All patients underwent successful shunt placement. This included placement in the face of previous abdominal surgery, including a percutaneous gastrostomy. The one major complication, hemothorax, was not associated with the laparoscopic portion of the procedure. Conclusions: Using basic laparoscopic skills and nonspecialized equipment, laparoscopic assistance in ventriculoperitoneal shunt placement offers easy, direct placement of the intraabdominal portion of the catheter in most situations and provides definite patient benefits.Presented at the annual meeting of the Society of American Gastrointestinal Endoscopic Surgeons (SAGES), Orlando, Florida, USA, 11–14 March 1995     

Comparison of revision rates following endoscopically versus nonendoscopically placed ventricular shunt catheters

BACKGROUND: Endoscopic placement of ventriculoperitoneal (VP) shunt catheters in pediatric patients has been increasingly used in an attempt to minimize the unacceptably high rates of revision. Although this procedure carries an increased expense, there is currently no evidence to support an improved long-term outcome. This paper compares the rates of revision following ventricular catheter placement for shunted hydrocephalus with and without the use of endoscopy. METHODS: We retrospectively reviewed the records of all pediatric patients who had undergone shunt placement for hydrocephalus between April 1992 and February 1998. All shunts placed before March 1995 were performed without the endoscope; all subsequent shunts were placed endoscopically. The independent effect of endoscopic versus nonendoscopic shunt placement on subsequent shunt failure was analyzed via multivariate proportional hazards regression model. Multiple logistic regression analyses were used to determine the independent effect of endoscopic placement on subsequent etiology of failure (infection, proximal obstruction, distal malfunction) in the 511 failing shunts. RESULTS: There were 447 pediatric patients who underwent a total of 965 shunt placements or revisions. Six hundred and five (63%) catheters were placed with the use of the endoscope. Three hundred and sixty (37.3%) were placed without the use of the endoscope. Neuroendoscopy did not independently affect the risk of subsequent shunt failure [Hazard Ratio (95% Confidence Interval) = 1.08 (0.84-1.41)]. Endoscopic placement independently decreased the odds [Odds Ratio (95% Confidence Interval) = 0.56 (0.32-0.93)] of proximal obstruction, increased the odds of distal malfunction [1.52 (1.02-2.72)], and was not associated with infection [1.42 (0.78-2.61)]. CONCLUSIONS: Endoscopic assisted ventricular catheter placement decreased the odds of proximal obstruction but failed to improve overall shunt survival in this 6 year experience.     

A laparoscopic approach to ventriculoperitoneal shunt placement in adults

Background: Ventriculoperitoneal shunts have been used for the treatment of hydrocephalus for years. In the past, the abdominal portion of this technique has required mini-laparotomy. We present a series of 10 consecutive patients in which ventriculoperitoneal (VP) shunts were placed with laparoscopic assistance. Materials and methods: At Lankenau Medical Center for July 1996 to January 1998, 10 patients (aged 22–81) with normopressure hydrocephalus underwent laparoscopic VP shunt placement. The neurologic portion of the procedure is begun simultaneously with the abdominal procedure. After pneumoperitoneum is established using a miniport disposable 2-mm introducer at the umbilicus, a 2-mm camera is introduced into the peritoneal cavity through the same port. A needle is introduced into the peritoneal cavity under direct visualization. Once the catheter is placed ventricularly, it is tunneled subcutaneously to the abdomen. Using the Seldinger technique, the VP catheter is introduced under direct visualization through a sheath into the peritoneal cavity toward the pelvis. Positioning and function are also confirmed under direct visualization. Results: All patients tolerated this procedure well, and there were no complications. The benefits of this procedure include direct visualization of catheter placement and smaller incisions than necessary for an open procedure. Conclusion: We recommend laparoscopic-assisted placement of the VP shunt in normopressure hydrocephalus patients as a good alternative to the open technique. Received: 30 June 1998/Accepted: 25 November 1998     

Laparoscopic fundoplication in children with previous abdominal surgery

BACKGROUND/PURPOSE: In our institution, many children requiring antireflux surgery for gastroesophageal reflux have had previous abdominal surgery, usually gastrostomy tube or ventriculoperitoneal (VP) shunt placement. The authors review their laparoscopic Nissen fundoplication (LNF) experience in children with previous abdominal surgery assessing surgical outcome. METHODS: A total of 82 consecutive LNFs performed at our institution between January 1996 and September 1998 were reviewed. Follow-up ranged from 1 month to 32 months (average, 8.9 months). LNF was performed without dividing short gastric vessels (Rosetti modification) through a standard 5-port technique. RESULTS: A total of 26 of 82 patients (31.7%) had previous abdominal surgery and were divided into 2 groups: gastrostomy (n = 17) and VP shunt (n = 11) with 2 crossovers. A total of 14 of 17 (82.3%) in the gastrostomy group had percutaneous endoscopic gastrostomy (PEG) placement versus 3 of 17 (17.6%) by open technique (open). Four patients in the VP group had multiple surgeries (range, 1 to 10, average, 2.3). LNF was completed in 25 of 26 (96.2%). One operation was converted to an open procedure because of severe adhesions. In 13 of 17 (76.5%) the previous gastrostomy was not taken down. In 4 of 17 (23.5%), the gastrostomy was taken down to complete the procedure: 2 of 3 (66.7%) of the open group versus 2 of 14 (14.3%) of the PEG group. All 11 (100%) of the VP group had successful LNF. Two of 11 (18.2%) had shunt dysfunction at 2 months (shunt infection) and 4 months (clogged distal shunt), respectively. There have been no cases of recurrent reflux, and all gastrostomies and VP shunts were functional at the time of this report. CONCLUSIONS: Previous abdominal surgery is common in children with gastroesophageal reflux disease requiring an antireflux procedure. The authors conclude from these preliminary results that laparoscopic Nissen fundoplication can be performed safely with minimal morbidity and excellent functional results in children with gastrostomies or ventriculoperitoneal shunts.     

Cerebrospinal fluid shunt placement for pseudotumor cerebri-associated intractable headache: predictors of treatment response and an analysis of long-term outcomes

OBJECT: Cerebrospinal fluid (CSF) shunts effectively reverse symptoms of pseudotumor cerebri postoperatively, but long-term outcome has not been investigated. Lumboperitoneal (LP) shunts are the mainstay of CSF shunts for pseudotumor cerebri; however, image-guided stereotaxy and neuroendoscopy now allow effective placement of a ventricular catheter without causing ventriculomegaly in these cases. To date it remains unknown if CSF shunts provide long-term relief from pseudotumor cerebri and whether a ventricular shunt is better than an LP shunt. The authors investigated these possibilities. METHODS: The authors reviewed the records of all shunt placement procedures that were performed for intractable headache due to pseudotumor cerebri at one institution between 1973 and 2003. Using proportional hazards regression analysis, predictors of treatment failure (continued headache despite a properly functioning shunt) were assessed, and shunt revision and complication rates were compared between LP and ventricular (ventriculoperitoneal [VP] or ventriculoatrial [VAT]) shunts. Forty-two patients underwent 115 shunt placement procedures: 79 in which an LP shunt was used and 36 in which a VP or VAT shunt was used. Forty patients (95%) experienced a significant improvement in their headaches immediately after the shunt was inserted. Severe headache recurred despite a properly functioning shunt in eight (19%) and 20 (48%) patients by 12 and 36 months, respectively, after the initial shunt placement surgery. Seventeen patients without papilledema and 19 patients in whom preoperative symptoms had occurred for longer than 2 years experienced recurrent headache, making patients with papilledema or long-term symptoms fivefold (relative risk [RR] 5.2, 95% confidence interval [CI] 1.5-17.8; p < 0.01) or 2.5-fold (RR 2.51, 95% CI 1.01-9.39; p = 0.05) more likely to experience headache recurrence, respectively. In contrast to VP or VAT shunts, LP shunts were associated with a 2.5-fold increased risk of shunt revision (RR 2.5, 95% CI 1.5-4.3; p < 0.001) due to a threefold increased risk of shunt obstruction (RR 3, 95% CI 1.5-5.7; p < 0.005), but there were similar risks between the two types of shunts for overdrainage (RR 2.3, 95% CI 0.8-7.9; p = 0.22), distal catheter migration (RR 2.1, 95% CI 0.3-19.3; p = 0.55), and shunt infection (RR 1.3, 95% CI 0.3-13.2; p = 0.75). CONCLUSIONS: Based on their 30-year experience in the treatment of these patients, the authors found that CSF shunts were extremely effective in the acute treatment of pseudotumor cerebri-associated intractable headache, providing long-term relief in the majority of patients. Lack of papilledema and long-standing symptoms were risk factors for treatment failure. The use of ventricular shunts for pseudotumor cerebri was associated with a lower risk of shunt obstruction and revision than the use of LP shunts. Using ventricular shunts in patients with papilledema or symptoms lasting less than 2 years should be considered for those with pseudotumor cerebri-associated intractable headache.     

Cholecystectomy in patients with prior ventriculoperitoneal shunts

Background

There is little published evidence regarding intraoperative and postoperative complications in patients with ventriculoperitoneal shunts who undergo cholecystectomy.

Methods

Nationwide Department of Veterans Affairs databases were searched to identify patients with International Classification of Diseases, 9th revision, Clinical Modification codes for a VP shunt who later had a cholecystectomy during fiscal years 1994 to 2003. Charts on these patients were obtained and reviewed.

Results

Twenty-three patients were deemed evaluable. Of these, 8 had laparoscopic converted to open cholecystectomies. All conversions were owing to dense adhesions. There were 2 cases of postoperative shunt infection that required shunt removal and replacement.

Conclusions

The rate of conversion from laparoscopic to open cholecystectomy was 57% in this study, significantly higher than the reported rate of conversion for patients without shunts in Department of Veterans Affairs Medical Centers (5%). Cholecystectomy in adult patients with a preexisting ventriculoperitoneal shunt appears to result in a shunt infection rate similar to that reported after shunt insertion or revision.     

Frameless stereotactic ventricular shunt placement for idiopathic intracranial hypertension

INTRODUCTION: Cerebrospinal fluid (CSF) shunting effectively reverses symptoms of idiopathic intracranial hypertension (IIH). Lumboperitoneal (LP) shunts have traditionally been used in patients with IIH due to a frequently undersized ventricular system. However, the advent of image-guided stereotaxis has enabled effective ventricular catheter placement in patients with IIH. We describe the first large series of frameless stereotactic ventriculoperitoneal (VP) shunting for patients with slit ventricles and IIH. METHODS: We describe the frameless stereotactic VP shunting technique for IIH in 32 procedures. Outcomes following shunt placement, time to shunt failure, and etiology of shunt failure are reported. RESULTS: A total of 21 patients underwent 32 ventricular shunting procedures (20 VP, 10 ventriculoatrial, 2 ventriculopleural). One hundred percent of shunts were successfully placed into slit ventricles, all requiring only one pass of the catheter under stereotactic guidance to achieve the desired location and CSF flow. There were no procedure-related complications and each ventricular catheter showed rapid egress of CSF. All (100%) patients experienced significant improvement of headache immediately after shunting. Ten percent of ventricular shunts failed at 3 months after insertion, 20% failed by 6 months, 50% failed by 12 months, and 60% failed by 24 months. Shunt revision was due to distal obstruction in 67%, overdrainage in 20%, and distal catheter migration or CSF leak in 6.5%. There were no shunt revisions due to proximal catheter obstruction or shunt infection. CONCLUSIONS: In our experience treating patients with IIH, frameless stereotactic ventricular CSF shunts were extremely effective at treating IIH-associated intractable headache, and continued to provide relief in nearly half of patients 2 years after shunting without many of the shunt-related complications that are seen with LP shunts. Placing ventricular shunts using image-guided stereotaxis in patients with IIH despite the absence of ventriculomegaly is an effective, safe treatment option.     

Ventriculoperitoneal shunt externalization during laparoscopic prostatectomy

Ventriculoperitoneal shunt placement is the standard treatment for patients with hydrocephalus or increased cerebrospinal fluid pressure. Many patients with ventriculoperitoneal shunts require subsequent surgery. Increasingly, this surgery is performed laparoscopically. We describe externalizing the ventriculoperitoneal shunt outside the abdomen in a patient undergoing extraperitoneal laparoscopic radical prostatectomy.     

Percutaneous endoscopic gastrostomy in patients with ventriculoperitoneal shunts

BACKGROUND: Percutaneous endoscopic gastrostomy (PEG) may be required in neurosurgical patients with a persistently depressed neurological status or severe lower cranial nerve palsies. Such patients may have a coexisting hydrocephalus requiring cerebrospinal fluid (CSF) diversion. Despite the risk of infection resulting from exposure to oropharyngeal flora by the pull-through PEG technique and the secondary pneumoperitoneum seen in one-third of patients, simultaneous peritoneal placement of CSF shunt catheters with PEG is the current practice. The aim of the study was to determine the frequency of CSF diversionary procedures in neurosurgical patients undergoing PEG insertion and the occurrence of infective complications in patients with simultaneous placement of a PEG and a ventriculoperitoneal (VP) shunt. METHODS: This was a retrospective review of all neurosurgical patients undergoing PEG. The presence of hydrocephalus, mode of CSF diversion and the development of subsequent infection in those having coexistent distal peritoneal catheter placement and PEG were determined. RESULTS: PEGs were placed in 42 neurosurgical patients (9.3 per cent of all PEGs inserted), of whom 21 had a coexisting hydrocephalus. Eight of 16 shunts with distal catheter placement in the peritoneal cavity developed infection requiring revision. Infections occurred with greater frequency in patients with a tracheostomy. There were no shunt infections requiring revision in a second group of 21 patients who had a coexisting shunt and tracheostomy without PEG. CONCLUSION: Simultaneous placement of a PEG and a VP shunt should be avoided in the acute phase of a patient's hospital admission.     

Laparoscopic surgery in children with ventriculoperitoneal shunts

BACKGROUND/PURPOSE: Children with ventriculoperitoneal shunts may require laparoscopic surgery. The authors aimed to determine if this group of children are at greater risk for complications or technical problems. METHODS: Children with ventriculoperitoneal shunts who underwent laparoscopic surgery between 1995 and 1998 were reviewed. In addition, the subset of children undergoing laparoscopic fundoplication were compared with the group of children without shunts who- had the same operation during the same period. RESULTS: Ten children with ventriculoperitoneal shunts underwent laparoscopic surgery. Three had complications, none of which were caused by the shunt. None had any evidence of shunt dysfunction related to the laparoscopic procedure. The 6 children with shunts who underwent laparoscopic fundoplication were compared with 17 similar children without shunts who underwent the same operation during the same period. There were no differences between the groups with respect to operating time, conversion to an open approach, or complications. CONCLUSION: Laparoscopic surgery can be performed safely and effectively in children with ventriculoperitoneal shunts.     

Laparoscopic management of distal ventriculoperitoneal shunt complications

BACKGROUND: The traditional management of hydrocephalus still is the placement of ventriculoperitoneal (VP) shunts. However, the majority of patients require one or more revisions over their lifetime. Revisions may be required for infections, proximal site malfunction, or distal catheter complications. The authors present their experience with distal catheter complications managed laparoscopically. METHODS: Patients with recurrent symptoms of increased intracranial pressure or abdominal complaints were evaluated for shunt malfunction. Similar radiographic imaging was performed for all the patients, including computed tomography (CT) of the head and abdomen, shunt series, and/or ultrasound of the distal catheter. RESULTS: From April 2003 to July 2005, 13 patients with distal VP shunt complications were managed laparoscopically. On the basis of preoperative cerebrospinal fluid (CSF) cultures, all the patients were determined not to have an infection. Radiographic imaging showed the patients to have distal catheter problems. Preoperatively, five abdominal CT scans, six shunt series, and four abdominal ultrasounds were obtained. All studies singly and positively identified the appropriate abdominal catheter defect except in three patients who required multiple sequential radiographic studies for final determination of the diagnosis. In four patients (30.8%), the distal catheter was found to be in the extraperitoneal space. Another four patients (30.8%) had intraabdominal CSF pseudocysts. Five patients (38.4%) had issues with the position of the intraabdominal catheter: four of them subdiaphragmatic and one on the dome of the bladder. Laparoscopic repositioning was successful for all 13 patients. CONCLUSION: Regardless of the patient's presenting symptoms, appropriate imaging studies should be obtained preoperatively in a sequential manner. Distal VP shunt complications can be safely and effectively managed laparoscopically. This approach allows the intraabdominal portion of the catheter to be assessed and problems to be managed, thereby salvaging the existing shunt and avoiding the potential morbidity associated with additional VP shunt placement.     

Laparoscopic management of ventriculoperitoneal and lumboperitoneal shunt complications.

BACKGROUND AND OBJECTIVES: Minimally invasive approaches for the initial placement of ventriculoperitoneal (VP) and lumboperitoneal (LP) shunts have been well described. A laparoscopic approach has multiple advantages over open techniques, including decreased morbidity, more rapid recovery, and ability to visually assess catheter function. However, few series have addressed the role of laparoscopy in the management of VP and LP shunt complications. METHODS: We present here the largest published series of laparoscopic treatment of VP and LP shunt complications in adults, by retrospectively reviewing all cases performed in a 1-year interval by a single surgeon. RESULTS: Ten patients presented with complications of previous shunting; all were managed laparoscopically. Eighty percent of these patients had a successful single laparoscopic intervention. One patient developed a cerebrospinal fluid leak from the lumbar wound, and 2 patients required additional laparoscopic shunt revisions. CONCLUSIONS: We conclude that laparoscopy has great utility in the assessment of shunt function. Laparoscopic techniques should be considered not only for placement of peritoneal catheters, but also for the management of distal shunt malfunction and diagnosis of abdominal pain in these patients.     

Frameless stereotactic placement of ventriculoperitoneal shunts in undersized ventricles: a simple modification to free-hand procedures

The aim of this report is to introduce a simple modification to the free-hand frameless stereotactic placement of ventriculoperitoneal shunts in undersized ventricles. In this technical note, we describe our experience with ventricular catheter placement in two children suffering from shunt dependent idiopathic intracranial hypertension using an image-guided instrument holder with a catheter guide. In both patients, the surgical procedure proved to be easy and accurate, with good initial clinical results. The use of an image-guided instrument holder is a modification to the free-hand frameless stereotactic placement of ventriculoperitoneal shunts in undersized ventricles.     

Removal of an intraperitoneal foreign body using a single port laparoscopic procedure

Background and Objectives:

To remove a foreign body from the peritoneal cavity in laparoscopic surgery, 2 or 3 ports are usually used. We have recently performed such a removal using a single 10-mm transumbilical port, a 0-degree laparoscope, a Farabeuf retractor, and a laparoscopic grasping forceps.

Methods:

Two patients with ventriculoperitoneal shunt catheter (V-P shunt) were admitted to our unit during the last year. They previously had a shunt catheter implanted for hydrocephalus of unknown cause. The complete migration of the ventriculoperitoneal shunt catheter into the peritoneal cavity was observed in these patients 12 and 7 years after the implantation. The laparoscopic removal of the migrated catheter was decided on. Its presence and location were confirmed by the use of a 0-degree laparoscope, through a 10-mm trocar port. The catheter was held and pulled out using a grasping forceps that was pushed in just beside the trocar port.

Conclusion:

The laparoscopic approach enables safe removal of a foreign body in the peritoneal cavity. The procedure can be performed using a single port.     

Peritoneal catheter placement into the suprahepatic space: a report of 2 cases with abdominal complications of ventriculoperitoneal shunts

Complications arising from the placement of ventriculoperitoneal shunts are common. These complications may be related to a number of causes and present with various symptoms. Of these, abdominal complications such as formation of intraperitoneal pseudocysts and abdominal abscesses possibly recur, but, alternative sites for placing the peritoneal catheter of ventriculoperitoneal shunts are limited. We present two cases of ventriculoperitoneal shunt malfunctioning due to repeated abdominal complications. The location of the peritoneal end of the shunt was successfully revised to the suprahepatic space in the peritoneal cavity. We describe the clinical course of these two cases in this report, along with a precise technique of placing the peritoneal end of the shunt into the suprahepatic space. In addition, we will discuss the validity of this space as an alternative site for the placement of the peritoneal end of the ventriculoperitoneal shunt.