How Should Biliary Stones be Managed?

Minimally invasive therapy is currently invaluable for the treatment of biliary stones. Clinicians should be familiar with the various endoscopic modalities that have been evolving. I reviewed the treatment of biliary stones from the common practice to pioneering procedures, and here I also briefly summarize the results of many related studies. Lithotripsy involves procedures that fragment large stones, and they can be roughly classified into two groups: intracorporeal modalities and extracorporeal shock-wave lithotripsy (ESWL). Intracorporeal modalities are further divided into mechanical lithotripsy (ML), electrohydraulic lithotripsy, and laser lithotripsy. ESWL can break stones by focusing high-pressure shock-wave energy at a designated target point. Balloon dilation after minimal endoscopic sphincterotomy (EST) is effective for retrieving large biliary stones without the use of ML. Peroral cholangioscopy provides direct visualization of the bile duct and permits diagnostic procedures or therapeutic interventions. Biliary stenting below an impacted stone is sometimes worth considering as an alternative treatment in elderly patients. This article focuses on specialized issues such as lithotripsy rather than simple EST with stone removal in order to provide important information on state-of-the-art procedures.

Clinical role of frequency-doubled double-pulsed yttrium aluminum garnet laser technology for removing difficult bile duct stones (with videos)

BACKGROUND

Very few clinical trials have reported on the success rate of frequency-doubled double-pulse yttrium aluminum garnet (YAG) laser (FREDDY) technology for removal of difficult bile duct stones.

OBJECTIVE

Our purpose was to evaluate the role of FREDDY technology for removing difficult bile duct stones.

DESIGN

Nonrandomized, retrospective study.

SETTING

Academic medical center.

PATIENTS

Fifty-two patients with difficult bile duct stones were treated via the transpapillary route by using a FREDDY system. The inclusion criteria were impacted or large common bile duct stones (>15 mm, mean 23.5 mm, range 15-35 mm, mean number of stones 1.7, range 1-4). Laser lithotripsy was performed with cholangioscopy guidance in 7 patients and fluoroscopic guidance alone in 45 patients.

MAIN OUTCOME MEASUREMENTS

The success rate of complete stone removal and the complication rate related to the procedure.

RESULTS

Of the 52 patients treated via the transpapillary route, complete stone removal was achieved in 48 patients (92.3%). The complete removal of stones required a mean of 1.4 (range 1-2) endoscopic sessions. The rate of complications related to laser lithotripsy was 23.0% (acute pancreatitis, 3 cases; transient hemobilia, 8 cases; acute cholangitis, 1 case).

LIMITATIONS

Nonrandomized, retrospective design.

CONCLUSION

Laser lithotripsy by using the FREDDY system seems safe and effective and allows "blind" fragmentation of bile duct stones under fluoroscopic guidance only.