Sharp recanalization of CBD occlusion in patient with second orthotropic liver transplant with cocoon syndrome.

Biliary complications after orthotopic liver transplant (OLT) remain one of the primary causes of morbidity and mortality in liver transplant recipients with an approximate incidence between 5% and 32%. Given the limited supply of hepatic grafts, one of the most feared outcomes as a result of biliary complications is acute and or chronic graft failure. Biliary complications include leaks, biliary stasis, and stone formation, sphincter of Oddi dysfunction, recurrence of biliary disease (primary sclerosing cholangitis and primary biliary cirrhosis), and biliary strictures/obstruction. Overwhelmingly, the most common complication in hepatic transplantation is biliary stricture formation accounting for more than 50%. Currently, the mainstay of therapy as it pertains to biliary strictures/obstruction includes endoscopic retrograde cholangiography-guided therapy, percutaneous transhepatic cholangiography-guided therapy, or surgical revision/retransplantation. We present a case of biliary obstruction in a patient with a second liver transplant complicated by Cocoon Syndrome managed via sharp recanalization of CBD occlusion and placement of an endoscopic biliary Viabil stent.

Dual-layer spectral CT virtual-non-contrast images aid in parathyroid adenoma analysis and radiation dose reduction: confirmation of findings from dual-energy CT.

4D-parathyroid CT scans have become a mainstay in the evaluation and pre-surgical planning for parathyroid adenomas. Most protocols typically rely on non-contrast images, prior to the arterial and delayed phases. Previous reports with dual-energy CT imaging have highlighted the utility of virtual non-contrast images to help reduce radiation dose while maintaining diagnostic accuracy. Herein, we report two cases of surgically proven parathyroid adenomas diagnosed with 4D-parathyroid CT scans performed on dual-layer spectral scanners, and in retrospect highlight the utility of virtual non-contrast images. To our knowledge, this report provides the first description of virtual non-contrast images from dual-layer spectral CT scanners that could aid in the diagnosis of parathyroid adenomas, confirming similar findings described with dual-energy CT scanners.