Holmium laser lithotripsy of a complicated biliary calculus

Percutaneous treatment of complex biliary stone disease using endourological technique and literature review

Most biliary stone diseases need to be treated surgically. However, in special cases that traditional biliary tract endoscopic access is not allowed, a multidisciplinary approach using hybrid technique with urologic instrumental constitute a treatment option. We report a case of a patient with complex intrahepatic stones who previously underwent unsuccessful conventional approaches, and who symptoms resolved after treatment with hybrid technique using an endourologic technology. We conducted an extensive literature review until October 2012 of manuscripts indexed in PubMed on the treatment of complex gallstones with hybrid technique. The multidisciplinary approach with hybrid technique using endourologic instrumental represents a safe and effective treatment option for patients with complex biliary stone who cannot conduct treatment with conventional methods.

Percutaneous transhepatic lithotripsy with the holmium: YAG laser for the treatment of refractory biliary lithiasis

Fourteen patients who failed at least 1 endoscopic retrograde cholangiopancreatograpy attempt underwent Holmium laser biliary lithotripsy between 2003 and 2007. Ten had prior biliary surgeries, 7 harbored multiple stones, and 6 had common bile duct strictures. Mean age at surgery was 63.6 years (50 to 80 y), biggest stone burden 30 mm, mean operative time 58.4 minutes (24 to 105), and stone free rate 85.7%. One patient had postoperative bleeding from the choledochostomy tube that eventually resolved spontaneously and 3 patients had postoperative cholangitis managed conservatively. Neither conversions to open surgery nor mortality was recorded. Two patients were diagnosed with cholangiocarcinoma missed by previous endoscopic retrograde cholangiopancreatograpy. After a mean follow-up of 18.9 months (2 to 43) no de novo strictures were recorded. Percutaneous choledochoscopy with holmium laser lithotripsy is a safe and effective minimally invasive technique to treat complex biliary stone disease and may preclude high-risk open biliary tract surgery.

The use of holmium laser technology for the treatment of refractory common bile duct stones, with a short review of the relevant literature

BACKGROUND

The treatment of common bile duct (CBD) stones can vary in complexity and many methods exist to fragment them before removal. Although holmium laser is frequently used in urological surgery, it is rarely used to achieve this aim.

METHODS

The holmium laser was passed along a fiber introduced via a flexible scope through the cystic duct at the time of laparoscopic cholecystectomy. This energy modality was used to fragment the stones to a size that allowed easy removal.

RESULTS

The authors have used this technique once so far and achieved complete clearance of the CBD with no mucosal damage.

CONCLUSION

Holmium laser provides an alternative and realistic treatment option for difficult CBD stones.

Holmium: YAG laser lithotripsy for gallstones. A preliminary report

BACKGROUND

Most retained gallstones can be extracted at the time of operative exploration or endoscopic retrograde cholangiopancreatography (ERCP). Infrequently, impaction or associated anatomic abnormalities may prevent their clearance. We assessed the efficacy of the holmium:YAG laser in managing retained biliary calculi that had proven refractory to the usual methods of extraction.

METHODS

Two patients with calculi impacted in the intrapancreatic common bile duct and one patient with residual stones in a nonfunctional gallbladder were treated with holmium:YAG laser lithotripsy. Two of these patients were treated under conscious sedation, and one received a general endotracheal anesthetic. Laser energy was delivered by a 272-mm optical fiber inserted through a 7-Fr fiberoptic endoscope. The ablative effects were monitored continuously via videoscopic.

RESULTS

All of the stones were cleared successfully in a single therapeutic setting. In one patient, fragments of the impacted intraductal stone were extracted with an endoscopic wire basket. In the other two patients, stone debris was completely cleared with saline irrigation. No complications developed, and all patients remained free of recurrence during a 6-month follow-up period.

CONCLUSIONS

The holmium:YAG laser is a multidisciplinary instrument that is safe and effective in the fragmentation of both urinary and biliary calculi. Because it can be delivered through a small-caliber fiberoptic endoscope, it should be particularly useful to laparoscopic surgeons who manage complicated biliary tract disease.

A review of technical and clinical aspects of biliary laser lithotripsy

OBJECTIVE

This paper reviews the current use of laser techniques for the treatment of biliary stones.

BACKGROUND DATA

Biliary stones may pose a special problem when access to them is limited, when previous attempts of removal have failed, or when a less invasive option than surgery is needed. The availability of various laser sources and the adaptation of the technology for safe use in the biliary system make the use of laser energy for stone fragmentation possible.

METHODS

Current literature is reviewed concerning the use of laser for biliary lithotripsy, including experimental data and experience with human series. Technology, indications, alternatives, and cumulative world experience are discussed.

CONCLUSIONS

Recent technical advances have made the use of laser energy for fragmentation of biliary calculi possible. It is a valid option for treatment of "difficult" stones, when other methods have failed or as a primary treatment in certain situations. The technical complexity and the high cost limit its use for specialized centers.