Introduction
The treatment of benign gallbladder disease has changed substantially in the past decade, but this represents only a snapshot in the evolutionary history of the management of this organ. What began as a problem managed exclusively by open cholecystectomy (CCY) transitioned into a race toward minimally invasive approaches in the 1980s, with advances from gastroenterology, surgery, and radiology.
The opening strides were made in 1980 with the first description of percutaneous cholecystostomy (PC) by Dr. R.W. Radder.1 Shortly thereafter, in 1984, Dr. Richard Kozarek first reported the feasibility of selective cystic duct cannulation during endoscopic retrograde cholangiopancreatography (ERCP).2 Subsequent stenting for the treatment of acute cholecystitis (endoscopic transpapillary gallbladder drainage, ET-GBD) was then reported by Tamada et. al. in 1991.3 Not to be outdone, the first laparoscopic cholecystectomy (LC) was completed by Dr. Med Erich Mühe of Germany in 1985.4 More recently, with the expansion of interventional endoscopic ultrasound (EUS), the first transmural EUS-guided gallbladder drainage (EUS-GBD) was described by Dr. Baron and Dr. Topazian in 2007.5
The subsequent advent of lumen apposing metal stents (LAMS) has cemented EUS-GBD in the toolbox of treatment for benign gallbladder disease. Results of a recent prospective multicenter trial, with a Food and Drug Administration–approved protocol and investigational device exemption, have been published, opening the door for the expansion of FDA approved indications for this device.6
Benign gallbladder disease encompasses both polyps (benign and premalignant) and cholecystitis (acute/chronic, calculous/acalculous), in addition to others. The four management techniques (LC, PC, ET-GBD, and EUS-GBD) have filled integral niches in the management of these patients. Even gallbladder polyps have not been able to escape the reach of endoscopic approaches with the recent description of LAMS-assisted polypectomy as part of a gallbladder preserving strategy.7,8 While EUS-GBD also has been used for biliary decompression in the presence of a patent cystic duct and absence of cholecystitis,
Techniques & Tips
ET-GBD
- During ERCP, after successful cannulation of the bile duct, attempted wire cannulation of the cystic duct is performed.
A cholangiogram, which clearly delineates the insertion of the cystic duct into the main bile duct, can enhance cannulation success. Rotatable fluoroscopy can facilitate identification.
- After anatomy is clear, wire access is often best achieved using a sphincterotome or stone retrieval (occlusion) balloon.
The balloon, once inflated, can be pulled downward to establish traction on the main bile duct, which can straighten the approach.
- After superficial wire engagement into the cystic duct, the accessory used can be slowly advanced into the cystic duct to stabilize the catheter and then navigate the valves of Heister to reach the gallbladder lumen.
Use of a sphincterotome, which directs toward the patient’s right (most often direction of cystic duct takeoff), is helpful. Angled guidewires are preferable. We often use a 0.035-inch, 260-cm angled hydrophilic wire (GLIDEWIRE; Terumo, Somerset, NJ) to overcome this challenging portion of ET-GBD.
If despite the above maneuvers the guidewire has failed to enter the cystic duct, cholangioscopy can be used to identify the orifice and/or stabilize deep wire cannulation. This is often cumbersome, time consuming, does not always produce success, and requires additional expertise.
- If a stone is encountered that cannot be extracted or traversed by a guidewire, cholangioscopy with electrohydraulic lithotripsy can be pursued.
- After the guidewire has entered the gallbladder, a 5 French or 7 French plastic double pigtail stent is placed. Typical lengths are 9-15 cm.
Some authors prefer to use two side-by-side plastic stents.12 This has been shown retrospectively to enhance the long term clinical success of ET-GBD but with additional technical difficulty.
- This stent can remain in place indefinitely and need not be exchanged, though it should be removed just prior to CCY if pursued. Alternatively, the surgeon can be alerted to its presence and, if comfortable, it can be removed intraoperatively.
EUS-GBD
- Use of fluoroscopy is optional but can enhance technical success in selected situations.
- Conversion, or internalization, of PC is reasonable and can enhance patient quality of life.13
- If the gallbladder wall is not in close apposition to the duodenal (or gastric) wall, consider measuring the distance.
We preferentially use 10-mm diameter by 10-mm saddle length LAMS for EUS-GBD, unless the above distance warrants use of a 15-mm by 15-mm LAMS (AXIOS, Boston Scientific, Marlborough, MA). If the distance is greater than 15 mm, consider searching for an alternative site, using a traditional biliary fully covered self-expandable metal stent (FCSEMS) for longer length, or converting to ET-GBD. Smaller diameter (8 mm) with an 8-mm saddle length can be used as well. The optimal diameter is unknown and also dependent on whether transluminal endoscopic diagnosis or therapy is a consideration.
- If there is difficulty locating the gallbladder, it may be decompressed or small (particularly if PC or a partial CCY has already been performed).
If a cholecystostomy tube is in place, instillation of sterile water via the tube can sometimes improve the target for LAMS placement, though caution should be made to not over-distend the gallbladder. ERCP with placement of a nasobiliary tube into the gallbladder can also serve this purpose and has been previously described.14
The gallbladder can be punctured with a 19-gauge FNA needle to instill sterile water and distend the gallbladder with the added benefit of being able to pass a guidewire, which may enhance procedural safety in difficult cases. However, success of this technique is contingent on fluid remaining within the gallbladder and not transiting out via the cystic duct. Expedient exchange of the FNA needle for the LAMS device may be necessary.
- Attempt to confirm location within the duodenum prior to puncture, as gastric origins can pose unique ramifications (i.e. potential for partial gastric outlet obstruction, obstruction of LAMS with food debris, etc.).
It can be easy to mistake an unintentional pre-pyloric position for a position within the duodenum since the working channel is behind (proximal to) the echoprobe.
- Turning off Doppler flow prior to advancement of the cautery enhanced LAMS can reduce obscurement of views on entry into the gallbladder. Lack of certainty about entry or misdeployment after presumed entry herald the most challenging aspect of EUS-GBD.
Utilization of a previously placed guidewire or advancement of one preloaded into the LAMS can aid in both enhancing confidence in location and assist with salvage maneuvers, if needed.
- After successful deployment of the LAMS we routinely place a double pigtail plastic stent through it (typically 7 French by 4 cm) to maintain patency. This may also prevent bleeding from the LAMS flange abrading the wall of either lumen.
- We routinely exchange the LAMS for two double pigtail plastic stents (typically 7 French by 4 cm) 4 weeks after initial placement especially when there is a more than modest residual stone burden (data in press). These plastic stents can remain in place indefinitely.
This exchange can be deferred if the patient is not expected to survive until the one-year anniversary of LAMS deployment. After one year the LAMS plastic covering may degrade and pose additional problems.15
LAMS Misdeployment Salvage Tips
- Salvage techniques can vary from simple to complex.
- If a wire is in place, it can be used to balloon or catheter dilate the tract and place a FCSEMS traversing the gallbladder and duodenal/gastric lumens. A similar approach can be used if the LAMS deployed on only one side (gallbladder or duodenum/stomach) and the other flange is within the peritoneum.
- The most challenging scenario to salvage is if the LAMS is misdeployed or becomes dislodged and no wire is present. This is why the use of a guidewire, even if preloaded into the LAMS and placement is freehand, is essential for EUS-GBD. A potential technique is to balloon dilate the duodenal/gastric defect and drive the endoscope into the peritoneum to reconnect that lumen to the gallbladder defect or LAMS, depending on the site of misdeployment. Doing so requires a high degree of commitment and skill and should not be done casually.
- If uncertainty remains or if misdeployment has occurred and salvage attempts have failed, consider closure of the duodenal/gastric defect and conversion to ET-GBD.
This may both treat the initial procedural indication and assist with what is essentially a large bile leak, which might also require percutaneous therapy for non-surgical management.
- For endoscopists with limited experience at salvage techniques, it is reasonable for the threshold for conversion to be low, assuming experience with and confidence in ET-GBD is high.
- If salvage is successful but ambiguity remains, consider obtaining a cholangiogram via the LAMS to confirm positioning and absence of leak.