Cholecystitis/Cholelithiasis Clinical Trial
Official title:
Near-infrared Incisionless Fluorescent Cholangiography With Low Dose of ICG
The objective of this clinical trial is to visualize the bile ducts by injecting a contrast
that is only visible with infrared light. For this, we administrate an intravenous low dose
of ICG before a cholecystectomy.
During the intervention the tissue will be exposed to infrared light to visualize the bile
ducts. This technique aims to increase safety in surgery to avoid damaging bile or vascular
structures during gallbladder interventions.
Laparoscopic cholecystectomy is one of the most commonly performed procedures in adult
surgery. A rare but serious complication of laparoscopic cholecystectomy is bile duct injury,
with a reported incidence of 0.3-1.5 %. Bile duct injury is often caused by misinterpretation
of the anatomical structures rather than by insufficient technical skills. Generally, bile
duct injury leads to bile leakage, causing abdominal sepsis. It can also lead to obstruction,
with obstructive jaundice, eventually potentially leading to a need for liver transplantation
in the worst case. Late recognition is common in bile duct injuries, resulting in significant
morbidity and mortality, a lower quality of life and extra costs. A recent expert consensus
report identified establishment of the critical view of safety as the single most important
factor for overall safety during laparoscopic cholecystectomy. However, evidence suggests
that surgeons may actually achieve this view far less often than they believe.
Numerous intraoperative visualization techniques and technologies have been developed to
enhance the safety of laparoscopic cholecystectomy. There are mainly two intraoperative
imaging techniques to consider: first, the historical X-ray-based intraoperative
cholangiography, and secondly the emerging fluorescence-based intraoperative near-infrared
cholangiography. Large retrospective and prospective studies have looked at the benefit of
routine intraoperative radiographic cholangiography for detection of common bile duct stones
and to identify or prevent bile duct injury. Whether this procedure should be performed
routinely is still an active subject of debate as systematic reviews are inconclusive;
however, several of the larger retrospective studies observed a decrease in frequency and
severity of bile duct injury when intraoperative cholangiography is performed. Limiting
factors for performing radiographic laparoscopic cholangiography include: it requires
specific expertise in the technique and its interpretation; it involves the use of ionizing
radiation; it is time-consuming; and it creates a risk for bile leakage and duct injury
itself, since puncturing and cannulation of the cystic duct is required. These limitations
justify the quest for alternative, less complicated techniques to visualize biliary anatomy
during cholecystectomy. Fluorescence-based intraoperative near-infrared cholangiography
during laparoscopic cholecystectomy has been introduced by Ishizawa et al. in recent years as
a non-invasive, radiation-free, low-cost alternative for realtime visualization of the
biliary anatomy. This technique requires near-infrared laparoscopic imaging systems, as well
as the intravenous injection of a fluorophore, i.e., indocyanine green, which is eliminated
through the biliary tree. Following exposure to the near-infrared fluorescenc light source,
indocyanine green becomes fluorescent and highlights relevant biliary structures. Since the
pioneer studies, a large number of trials have been conducted and several protocols are
currently underway, in order to establish the clinical efficacy of near-infrared
cholangiography. A recent systematic review of clinical studies on near-infrared
cholangiography has reported high visualization rates of biliary structures, as a surrogate
marker of clinical efficacy, before dissection of Calot's triangle. However, one of the most
significant drawbacks of near-infrared cholangiography following systemic indocyanine green
injection lies in the very high background signal due to the rapid accumulation of
indocyanine green in the liver, which can impair the visualization of the biliary structures.
The keys to avoiding this inconvenience are the dose of indocyanin green and the time of
administration before the surgical procedure. So far, studies used a dose of indocyanin green
above 2,5mg. To avoid this effect at these doses, the authors administer the contrast many
minutes or even hours before starting the surgical procedure.
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