Randomized Controlled Trial Clinical Trial
Official title:
Laparoscopically Assisted Ventriculoperitoneal Shunt Placement: A Prospective, Randomized Two-arm Study
Ventriculoperitoneal shunting (VPS) was first described at the beginning of the 20th century
as a diversionary procedure in patients with a hydrocephalus. After the introduction of
silastic catheters in the 1970's this method became the treatment of choice for children and
adults with communicating hydrocephalus. The average patient necessitating VPS will undergo
at least two shunt revisions every three years, with some patients requiring more than
twenty revisions within the first year. Therefore, any technical improvement with a positive
impact on the revision rate not only benefits the patient through a reduction of the
surgical burden but may also have economic advantages.
Distal shunt failures - either due to improper placement or secondary dislocation of the
distal catheter out of the peritoneal cavity - have been reported in 10-30% of cases.
Catheter placement in obese patients and in patients with adhesions owing to previous
abdominal surgery remains challenging. Most neurosurgeons will carry out a mini-laparotomy
to allow for the placement of the distal catheter end within the peritoneal cavity, which
rarely requires the help of a general or visceral surgeon.
An alternative to laparotomy is the laparoscopic placement of the peritoneal catheter in
VPS. Retrospective series have since shown the safety of this procedure and suggested an
advantage of laparoscopic VPS in terms of operation duration, length of hospital stay and
the rate of distal (and thus potentially overall) shunt dysfunction.
The evidence concerning the effect of laparoscopic surgery for VPS placement is so far based
on non-randomized studies, in which a selection bias may have influenced the outcomes.
Background
Ventriculoperitoneal shunting (VPS) as diversionary procedure in patients with hydrocephalus
was first described in 1908. After the introduction of silastic catheters during the 1970s
this method has become the treatment of choice for children and adults with communicating
hydrocephalus. However, the average patient having had VPS will undergo 2.1 shunt revisions
every 3 years of life, with a wide range from no revisions during the first decade to up to
21 revisions within the first year. For this reason technical improvements impacting
positively on the revision rate and on the surgical burden are strongly needed.
In the standard VPS procedure the proximal part of the shunt is first placed in one of the
lateral ventricles. The distal part of the shunt is then tunneled subcutaneously from the
head to the abdomen, where 20-25 cm of the distal catheter and the tip are introduced in the
peritoneal cavity through a paraumbilical mini-laparotomy. The intraperitoneal placement of
the distal catheter is performed blindly, whereby the tip of the catheter is directed
caudally in direction of the pelvis in order to avoid kinking and potential strangulation of
the catheter. In this setting the functionality of the system can be estimated by feeling
the resistance to out- and inflow while manually pumping the reservoir near the valve at the
cranial level.
Distal shunt failure has been reported to occur in 10-30% of cases. Secondary dislocation of
the peritoneal catheter in the subcutaneous tissue or its improper placement in the
peritoneal cavity during the procedure both contribute to this high shunt failure rate.
Furthermore, blind catheter placement in obese patients and in patients with adhesions from
previous abdominal surgery can be a challenge and may lead to injuries of the
intra-abdominal organs.
In 1993, Bassauri et al reported on the laparoscopic placement of the peritoneal catheter in
VPS. Since then several, small retrospective series have shown good results in laparoscopic
VPS, both in terms of efficacy and safety, in adults and in children. Two larger series were
published recently. Schubert et al. reported a prospective study on 50 adult patients using
the laparoscopically assisted peritoneal shunt insertion. A retrospective cohort of 50
matched patients served as a control. They reported no intraoperative complications, a
longer operation time in the laparoscopic group (59 versus 49 minutes), 2 malfunctions (4%)
and 1 infection in the laparoscopic group (2%) and 6 malfunctions (12%) and 6 infections
(12%) in the historic cohort, the difference being statistically significant in favour of
the laparoscopic group. In the most recent and largest series published to date, Bani et al.
report on their experience with 151 patients, where the peritoneal catheter was implanted
using a laparoscopic technique. They also used a retrospective cohort of 50 non-laparoscopy
patients as a control. The operation time was slightly longer using the laparoscopic
technique (35-130 versus 30-120 minutes), the infection rate was 2% in both groups. They
describe no dislocation of the distal catheter in the abdominal wall and no malpositioning
of the distal catheter in the laparoscopic group and 4 such cases in the non-laparoscopy
group (8%).
In summary, these non-randomized trials suggest the safety of the procedure. The
laparoscopic technique offers at least theoretically some significant advantages over the
standard technique. The laparoscopic introduction of the peritoneal catheter allows for
intra-abdominal inspection, lyses of adhesions whenever necessary, confirmation of the
catheter position, and the visual assessment of cerebrospinal fluid (CSF) flow through the
catheter tip during the procedure. Due to the minimal trauma to the abdominal wall the
laparoscopic access also has the potential of reducing postoperative adhesions, wound
complications and the overall postoperative morbidity. Despite these theoretical advantages,
however, comparative, randomized data are lacking and ventriculoperitoneal shunting is still
performed through a minilaparotomy in the vast majority of neurosurgical centres. The
absence of scientific evidence favouring the laparoscopic technique, the lack of training of
neurosurgeons in laparoscopic techniques and the potential prolongation of the operating
time (and potentially a higher risk of infection) are probably the main reasons to explain
why the shift to the laparoscopic technique has not yet taken place. Also, theoretically,
the inflation of the peritoneal cavity for laparoscopy could potentially generate an acute
hydrocephalus (e.g. during a distal revision) due to the elimination of the pressure
gradient necessary to obtain flow of CSF into the peritoneal cavity.
These potential limitations warrant, in our view, a prospective, randomized, controlled
trial comparing the standard (minilaparotomy) technique. The demonstration of the
superiority of the laparoscopic technique in a prospective, randomized study has the
potential of changing the standard of care for patients with hydrocephalus needing shunting.
Methods
120 patients scheduled for VPS surgery were randomised for laparoscopic or open insertion of
the peritoneal catheter. The primary endpoint was the rate of overall shunt
complication/failure after 12 months. Secondary endpoints were distal shunt failure rate at
6 weeks, 6 months and 12 months, overall complication/failure at 6 weeks and 6 months,
duration of surgery and hospitalisation, and morbidity.
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Observational Model: Case-Only, Time Perspective: Prospective
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