Your search keyword '"Safarikia S"' showing total 14 results

1. SAT-161 - Obeticholic acid, a FXR agonist, inhibits the cancerogenic potential of primary human cholangiocarcinoma (CCA) cells cultures

Author

Matteo, S.D., Nevi, L., Constantini, D., Colantonio, M., Giulitti, F., Napoletano, C., Safarikia, S., Manzi, E., Rose, A.M.D., Melandro, F., Bragazzi, M., Berloco, P.B., Giuliante, F., Carpino, G., Cardinale, V., Gaudio, E., and Alvaro, D.

Published

2018

2. THU-002 - Different micro-environtmental factors induce proliferation, epithelial-mesenchymal transition (EMT) and senescence of primary cultures of human biliary tree stem/progenitor cells (hBTSCs), recapitulating the pathological features typical of human cholangiopathies

Author

Costantini, D., Carpino, G., Cardinale, V., Overi, D., Nevi, L., Di Matteo, S., Safarikia, S., Melandro, F., Berloco, P.B., Gaudio, E., and Alvaro, D.

Published

2018

3. PS-102 - Development of self-renewing 3D organoid culture from human fetal biliary tree stem cells (hBTSCs) as a potential system for regenerative medicine and disease modelling

Author

Safarikia, S., Cardinale, V., Carpino, G., Costantini, D., DI Matteo, S., Nevi, L., Bosco, D., Gaudio, E., and Alvaro, D.

Published

2018

4. Specific human cholangiocarcinoma (CCA) subpopulations of cancer stem cells (CSCs) express DoubleCortin-Like Kinase 1 (DCLK1) and DCLK1 inhibition induces anti-cancer effects.

Author

Nevi, L., Di Matteo, S., Carpino, G., Cardinale, V., Zizzari, I., Ambrosino, V., Costantini, D., Safarikia, S., Manzi, E., Derose, A.M., Melandro, F., Bragazzi, M.C., Grazi, G., Berloco, P.B., Giuliante, F., Gaudio, E., and Alvaro, D.

Published

2018

5. The cancerogenic potential of primary human Cholangioracinoma cells is inhibited by Obeticholic Acid, a Farnesoid X Receptor (FXR) agonist.

Author

Di Matteo, S., Nevi, L., Costantini, D., Colantonio, M., Giulitti, F., Napoletano, C., Safarikia, S., Manzi, E., Derose, A.M., Melandro, F., Bragazzi, M.C., Grazi, G., Berloco, P.B., Giuliante, F., Carpino, G., Cardinale, V., Gaudio, E., and Alvaro, D.

Published

2018

6. Human duodenal submucosal glands contain stem cells with potential for liver and pancreatic regenerative medicine.

Author

Carpino, G., Cardinale, V., Safarikia, S., Overi, D., Costantini, D., Lu, W.-Yu, Riccioni, O., Nevi, L., Zhang, W., Melandro, F., Zizzarri, I., Nuti, M., Moretti, M., Maroder, M., Berloco, P.B., Forbes, S.J., Reid, L.M., Gaudio, E., and Alvaro, D.

Published

2019

7. OC.04.1 GENERATION OF 3D ORGANOIDS OF HUMAN FETAL BILIARY TREE STEM CELLS (HBTSCS) AS INNOVATIVE TOOL FOR THE REGENERATIVE MEDICINE OF LIVER AND PANCREAS.

Author

Safarikia, S., Cardinale, V., Costantini, D., Di Matteo, S., Nevi, L., Carpino, G., Bosco, D., and Alvaro, D.

Published

2018

8. OC.08.2 THE FXR AGONIST, OBETICHOLIC ACID, INHIBITS THE CANCEROGENIC POTENTIAL OF PRIMARY HUMAN CHOLANGIOCARCINOMA CELLS: A STUDY ON PRIMARY HUMAN CELL CULTURES.

Author

Di Matteo, S., Nevi, L., Costantini, D., Colantonio, M., Giulitti, F., Napoletano, C., Safarikia, S., Manzi, E., Derose, A.M., Meandro, F., Bragazzi, M.C., Grazi, G., Berloco, P.B., Giuliante, F., Carpino, G., Cardinale, V., Gaudio, E., and Alvaro, D.

Published

2018

9. OC.08.1 DOUBLECORTIN-LIKE KINASE 1 (DCLK1) IS A MARKER OF SPECIFIC SUBPOPULATIONS OF CANCER STEM CELLS (CSCS) IN HUMAN CHOLANGIOCARCINOMA (CCA) AND ITS INHIBITION EXERTS ANTI-CANCER EFFECTS.

Author

Nevi, L., Di Matteo, S., Carpino, G., Cardinale, V., Ambrosino, V., Costantini, D., Safarikia, S., Manzi, E., De Rosa, A.M., Melandro, F., Bragazzi, M.C., Grazi, G., Berloco, P.B., Giuliante, F., Gaudio, E., and Alvaro, D.

Published

2018

10. P.04.6 PRIMARY HUMAN BILIARY TREE STEM/PROGENITOR CELLS (HBTSCS) EXPOSED TO MICROENVIRONMENTAL FACTORS SHOWED PROLIFERATION, EPITHELIAL-MESENCHYMAL TRANSITION (EMT) AND SENESCENCE, RECAPITULATING THE PATHOLOGICAL FEATURES TYPICAL OF HUMAN CHOLANGIOPATHIES

Author

Costantini, D., Cardinale, V., Carpino, G., Nevi, L., Di Matteo, S., Safarikia, S., Melandro, F., Berloco, P.B., Gaudio, E., and Alvaro, D.

Published

2018

11. The exposure of primary cultures of human biliary tree stem/progenitor cells (hBTSCs) to different micro-environmental factors induces proliferation, epithelial-mesenchymal transition (EMT) and senescence, which are typical pathological features of...

Author

Costantini, D., Cardinale, V., Carpino, G., Nevi, L., Di Matteo, S., Safarikia, S., Melandro, F., Berloco, P., Gaudio, E., and Alvaro, D.

Published

2018

12. Establishment of expanding 3D-organoids cultures from human fetal biliary tree stem cells (hBTSCs) as a potential tool for regenerative medicine and disease modeling.

Author

Safarikia, S., Cardinale, V., Carpino, G., Costantini, D., Di Matteo, S., Nevi, L., Bosco, D., Gaudio, E., and Alvaro, D.

Published

2018

13. P.10.2: Hyaluronic Acid Improves the Engraftment Efficiency of Human Biliary Tree Stem/Progenitor Cells (HBTSCS).

Author

Nevi, L., Cardinale, V., Carpino, G., Costantini, D., Di Matteo, S., Safarikia, S., Melandro, F., Berloco, P.B., Reid, L., Gaudio, E., and Alvaro, D.

Published

2017

14. Microgravity maintains stemness and enhance glycolytic metabolism in human hepatic and biliary tree stem/progenitor cells.

Author

Costantini, D., Cardinale, V., Casadei, L., Carpino, G., Nevi, L., Di Matteo, S., Lustri, A.M., Safarikia, S., Melandro, F., Berloco, P., Manetti, C., and Alvaro, D.

Published

2017