Reconstruction of the mouse extrahepatic biliary tree using primary human extrahepatic cholangiocyte organoids

Reconstruction of the mouse extrahepatic biliary tree using primary human extrahepatic cholangiocyte organoids

Treatment of common bile duct disorders such as biliary atresia or ischaemic strictures is limited to liver transplantation or hepatojejunostomy due to the lack of suitable tissue for surgical reconstruction. Here, we report a novel method for the isolation and propagation of human cholangiocytes fr...

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Main Authors: Sampaziotis, Fotios, Justin, Alexander W., Tysoe, Olivia C., Sawiak, Stephen, Godfrey, Edmund M., Upponi, Sara S., Gieseck, Richard L., de Brito, Miguel Cardoso, Berntsen, Natalie Lie, Gómez-Vázquez, María J., Ortmann, Daniel, Yiangou, Loukia, Ross, Alexander, Bargehr, Johannes, Bertero, Alessandro, Zonneveld, Mariëlle C.F., Pedersen, Marianne T., Pawlowski, Matthias, Valestrand, Laura, Madrigal, Pedro, Georgakopoulos, Nikitas, Pirmadjid, Negar, Skeldon, Gregor M., Casey, John, Shu, Wenmiao, Materek, Paulina M., Snijders, Kirsten, Brown, Stephanie, Rimland, Casey A., Simonic, Ingrid, Davies, Susan E., Jensen, Kim B., Zilbauer, Matthias, Gelson, William T.H., Alexander, Graeme J., Sinha, Sanjay, Hannan, Nicholas R.F., Wynn, Thomas A., Karlsen, Tom H., Melum, Espen, Markaki, Athina E., Saeb-Parsy, Kourosh, Vallier, Ludovic
Format: Article
Published: Nature Publishing Group 2017
Subjects:
Cholangiocytes
Bile duct
Bio-engineering
Tissue engineering
Organoids
Regenerative medicine
Cell-based therapy
Biliary atresia
PGA scaffold
Collagen scaffold
Densified collagen
Online Access:https://eprints.nottingham.ac.uk/43956/

Internet

https://eprints.nottingham.ac.uk/43956/

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