Our experience suggests that adult BTS guidelines are not applicable to children with large PSP. Needle aspiration is ineffective. We advocate early referral to a Paediatric Thoracic Service. We suggest early chest CT scan to identify ELC, for counselling regarding contralateral asymptomatic ELC and to rule out secondary pathological conditions causing pneumothorax. In rare instance if bulla is visible on presenting chest X-ray, thoracoscopy could be offered as primary option.
SLT is an effective surgical strategy to meet the demands in a combined adult and pediatric transplant center. Good outcomes can be achieved with a standardized technique.
Introduction Management of posttraumatic bile leak has evolved over time in our unit, from endoscopic retrograde cholangiopancreatography (ERCP) stenting to intraperitoneal drainage (IPD) alone as first-line treatment for intraperitoneal bile leak.
Materials and Methods Retrospective review of liver trauma patients from 2002 to 2017. Demographics, time and mode of diagnosis of bile leak, management, and outcome were analyzed of the box plot.
Results In 118 patients, there were 28 traumatic bile leaks. Eighteen were free intraperitoneal and 10 were localized bilomas. The median time of diagnosis was 6 days following injury. The modes of diagnosis were preemptive hepatobiliary scintigraphy (18), computed tomography (CT) or ultrasound (7), and laparotomy (3). Free intraperitoneal biliary leak management included 11 IPD alone, 3 IPD plus ERCP, 2 IPD plus transcystic biliary stent (TBS), 1 operative cholangiogram, and 1 no intervention. Median time of IPD duration was 7 days (4–95) in IPD alone versus 14 days (6–40) in IPD + ERCP/TBS (p = 0.3). Median inpatient length of stay was 13 days (8–44) in IPD alone versus 12 days (8–22) in IPD + ERCP/TBS (p = 0.4).
Conclusion Placement of IPD alone, as first-line treatment, is safe and effective in the management of intraperitoneal bile leaks, avoiding the costs and potential complications of ERCP.
Background
Biliary complications can result in a significant morbidity for split liver graft recipients. Biliary drainage for segment 1 and 4 is highly variable and could be the source of bile leaks. Use of a bench cholangiogram (BCH) can accurately define the segmental biliary system and identify any significant biliary radicles that need retention or repair during bench preparation of split grafts. This study evaluates the clinical relevance of routine BCH in split liver transplantation (SLT).
Methods
Retrospective review of 100 BCH images performed during ex situ deceased donor SLT between January 2009 and January 2015. The radiographs were reviewed by two surgeons and the biliary anatomy was compared using Huang and Reichert classification.
Results
100 BCH images were reviewed. Variant anatomy was frequently identified in the intrahepatic bile duct system, the number and drainage patterns of segment 1&4 duct was diverse. BCH results guided the line of parenchymal transection to obtain a single segment 2&3 duct in 15 cases. A surgical intervention in the form of suture ligation of significant segment 1 or 4 duct at bench preparation was performed in 6 cases. BCH images guided surgical control of post‐operative bile leak in 3 patients.
Conclusion
Bench cholangiogram is a useful tool to guide liver parenchymal transection and potentially reduce the incidence of biliary complications.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.