Patients with either post-cholecystectomy bile leak or benign biliary stricture are recruited for endoscopic insertion of a biodegradable biliary stent. A follow-up of 12 months with repeated serum samples and magnetic resonance imaging is scheduled. The primary end points are feasibility of endoscopic insertion with the novel implantation device and stricture or leak resolution as well as clinical treatment success.
Benign biliary strictures (BBS) and post-cholecystectomy bile leaks have traditionally been treated endoscopically with plastic stents. In BBS, promising results of covered self-expanding metal stent use have been recently published. However, in both BBS and post-cholecystectomy bile leak the need of stent therapy is temporary and endoscopic stent exchange or removal is unavoidable. These two groups of patients may be the ones that would most obviously benefit from biodegradable (BD) biliary stents. Studies of BD stents on animal models have shown excellent long term patency and safety both in biliary and pancreatic duct as well better outcome compared to plastic stents after post-cholecystectomy bile leak in an animal study. Until recently, non-operative insertion of BD polydioxanone stent in human biliary tract has been possible only via percutaneous route. With the novel implantation device, the BD stents (braided, self-expanding polydioxanone stent, 8 x 40-60mm, Ella, Czech republic) may be used endoscopically during endoscopic retrograde cholangio-pancreatography (ERCP). The hypothesis is that larger diameter and radial expansion strength provide at least similar treatment success as the current method of endoscopic insertion of plastic or covered self-expanding metal stents in bile leak and BBS, respectively. However, later stent exchange or removal is not necessary with BD stents.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
14
Endoscopic insertion of biodegradable biliary stent
Tampere University Hospital, Dept. of Gastroenterology and Alimentary Tract Surgery
Tampere, Finland
Clinical treatment success of stricture or leakage, treatment failure rate measured by change in treatment protocol or unplanned interventions, radiologic stricture diameter in MRI, radiologic stent degradation in MRI
Stent patency, unplanned admissions and interventions, signs of cholangitis during treatment assessed by repeated liver function tests, magnetic resonance imaging and interview. Change in stent diameter and gradual radiologic dissappearance due to degradation assessed by repeated MRI and liver function tests, stricture resolution assessed by repeated MRI and radiologic measurement of stricture width as well as liver function tests, leakage resolution assessed by disappearance of biliary fluid collection in MRI and liver function tests
Time frame: The follow-up of 12 months after stent implantation
ERCP complications, late adverse events during stent therapy
endoscopic retrograde cholangio-pancreatography (ERCP) and stent implantation related complications graded mild-moderate-severe according to Cotton et al 1991, unplanned admissions and incidence of late adverse events such as acute cholangitis until up to 12 months of follow-up assessed by repeated MRI, phone interview, blood samples and review of patient records at each follow-up contact.
Time frame: 30 days from stent implantation, late adverse events up to 12 months
Technical success of stent insertion
To assess the usefulness and safety of a novel endoscopic implantation device measured by success rate of stent implantation and evaluation possible intra-procedural technical challenges during ERCP
Time frame: intraoperative
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