First trimester human umbilical cord perivascular cells (FTM HUCPVCs) secrete key angiogenic factors and significantly improve the development of both rat aortic tissue-derived and bone marrow EPC-derived endothelial networks, in a cell type dependent manner
Iqbal, F, Wyse, B, Sangaralingam, M, Gauthier-Fisher, A, Szaraz, P, Librach, C
Published in Cytotherapy (Oxford, England) (01.05.2018)
Published in Cytotherapy (Oxford, England) (01.05.2018)
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Journal Article
Co-administration of first trimester umbilical cord-derived perivascular cells (FTM HUCPVCs) with endothelial progenitor cells (EPCs) leads to enhanced angiogenesis, both in vitro and in vivo, compared to either cell type alone
Iqbal, F, Szaraz, P, Wu, J, Gauthier-Fisher, A, Li, R, Librach, C
Published in Cytotherapy (Oxford, England) (01.05.2017)
Published in Cytotherapy (Oxford, England) (01.05.2017)
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Journal Article
Blood brain barrier integrity and edema formation after moderate traumatic brain injury is improved with human umbilical cord perivascular cell therapy
Barretto, T, Park, E, Liu, E, Gauthier-Fisher, A, Gallagher, D, Librach, C, Baker, A
Published in Cytotherapy (Oxford, England) (01.05.2017)
Published in Cytotherapy (Oxford, England) (01.05.2017)
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Journal Article
Human umbilical cord-derived perivascular cells (PVCS) differentiate into haploid germ cell- and sertoli-like cells in vitro and promote regeneration in a mouse MEHP-induced testis injury model
Shlush, E, Maghen, L, Kenigsberg, S, Moskovtsev, S, Gauthier-Fisher, A, Librach, C
Published in Fertility and sterility (01.09.2013)
Published in Fertility and sterility (01.09.2013)
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209 - Mesenchymal Stem/Stromal Cells: FIRST TRIMESTER HUMAN UMBILICAL CORD PERIVASCULAR CELLS (HUCPVC) MODULATE THE KYNURENINE PATHWAY AND GLUTAMATE NEUROTRANSMISSION IN AN LPS-INDUCED MOUSE MODEL OF NEUROINFLAMMATION AND DEPRESSION
Siddiqui, F., Gallagher, D., Shuster-Hyman, H., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2023)
Published in Cytotherapy (Oxford, England) (01.05.2023)
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Journal Article
Mesenchymal Stem/Stromal Cells: FIRST TRIMESTER HUMAN UMBILICAL CORD PERIVASCULAR CELLS (HUCPVC) MODULATE THE KYNURENINE PATHWAY AND GLUTAMATE NEUROTRANSMISSION IN AN LPS-INDUCED MOUSE MODEL OF NEUROINFLAMMATION AND DEPRESSION
Siddiqui, F., Gallagher, D., Shuster-Hyman, H., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2023)
Published in Cytotherapy (Oxford, England) (01.05.2023)
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Journal Article
P-801 Human umbilical cord perivascular cells (HUCPVC) reduce ovarian fibrosis and improve pregnancy rates in a mouse model of natural ovarian aging
Dviri, M, Lopez, L, Madjunkov, M, Marom Haham, L, Kuperman, A, Khan, H, Mander, P, Gallagher, D, Gauthier-Fisher, A, Librach, C
Published in Human reproduction (Oxford) (22.06.2023)
Published in Human reproduction (Oxford) (22.06.2023)
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Journal Article
Mesenchymal Stem/Stromal Cells: FIRST TRIMESTER HUMAN UMBILICAL CORD PERIVASCULAR CELLS (HUCPVC) MODULATE THE KYNURENINE PATHWAY AND GLUTAMATE NEUROTRANSMISSION IN AN LPS-INDUCED MOUSE MODEL OF NEUROINFLAMMATION AND DEPRESSION
Siddiqui, F., Gallagher, D., Shuster-Hyman, H., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2022)
Published in Cytotherapy (Oxford, England) (01.05.2022)
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Journal Article
Mesenchymal Stem/Stromal Cells: INTRAVENOUS HUMAN UMBILICAL CORD PERIVASCULAR CELL TREATMENT IN A MOUSE MODEL OF NATURAL AGING RESULTS IN THE UPREGULATION OF ANTI-AGING MARKERS AND DOWNREGULATION OF INFLAMMAGING MARKERS IN LUNG TISSUE
Mukherjee, S., Zahavi, E., Austin, K., Murali, S., Noman, A., Lopez, L., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2023)
Published in Cytotherapy (Oxford, England) (01.05.2023)
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Journal Article
181 - Mesenchymal Stem/Stromal Cells: INTRAVENOUS HUMAN UMBILICAL CORD PERIVASCULAR CELL TREATMENT IN A MOUSE MODEL OF NATURAL AGING RESULTS IN THE UPREGULATION OF ANTI-AGING MARKERS AND DOWNREGULATION OF INFLAMMAGING MARKERS IN LUNG TISSUE
Mukherjee, S., Zahavi, E., Austin, K., Murali, S., Noman, A., Lopez, L., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2023)
Published in Cytotherapy (Oxford, England) (01.05.2023)
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Journal Article
HUMAN UMBILICAL CORD PERIVASCULAR CELLS (HUCPVC) HAVE ANTI-AGING EFFECTS IN A MOUSE MODEL OF NATURAL AGING, IN OVARIAN AND LUNG TISSUE
Lopez, L., Gauthier-Fisher, A., Madjunkov, M., Dviri, M., Mander, P., Gallagher, D., Haham, L. Marom, Kuperman, A., Noman, A., Mukherjee, S., Librach, C.
Published in Cytotherapy (Oxford, England) (01.06.2024)
Published in Cytotherapy (Oxford, England) (01.06.2024)
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Journal Article
Intravenously infused first trimester human umbilical cord perivascular cells interact with innate immune cells and mediate a systemic reduction in inflammatory mediators in a murine model of acute systemic inflammation
Shuster-Hyman, H., Siddiqui, F., Gallagher, D., Gauthier- Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2021)
Published in Cytotherapy (Oxford, England) (01.05.2021)
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Journal Article
Mesenchymal Stem/Stromal Cells: HUMAN UMBILICAL CORD PERIVASCULAR CELLS (HUCPVC) REDUCE OVARIAN FIBROSIS AND IMPROVE PREGNANCY RATE IN A MOUSE MODEL OF NATURAL OVARIAN AGING
Lopez, L., Dviri, M., Madjunkov, M., Haham, L. Marom, Kuperman, A., Mander, P., Gallagher, D., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2022)
Published in Cytotherapy (Oxford, England) (01.05.2022)
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Journal Article
Systemically administered human umbilical cord perivascular cells (HUCPVC) prevent tumor growth in a human melanoma tumor-bearing mouse model
Lopez, L., Shuster Hyman, H., Gasner, A., Khan, H., Marco, E., Mouazz, S., Kauffman, A., Gallagher, D., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2021)
Published in Cytotherapy (Oxford, England) (01.05.2021)
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Journal Article
Mesenchymal Stem/Stromal Cells: HUMAN UMBILICAL CORD PERIVASCULAR CELLS PREVENT TUMOR GROWTH IN A MELANOMA TUMOR-BEARING MOUSE MODEL
Lopez, L., Marco, E., Shuster-Hyman, H., Khan, H., Gasner, A., Uzelac, A., Wyse, B., Mander, P., shankar, M., Fish, J., Gorodensky, A., Mouazz, S., Kauffman, A., Gallagher, D., Gauthier-Fisher, A., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2022)
Published in Cytotherapy (Oxford, England) (01.05.2022)
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Journal Article
105 - First trimester human umbilical cord perivascular cells (FTM HUCPVCs) secrete key angiogenic factors and significantly improve the development of both rat aortic tissue-derived and bone marrow EPC-derived endothelial networks, in a cell type dependent manner
Iqbal, F., Wyse, B., Sangaralingam, M., Gauthier-Fisher, A., Szaraz, P., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2018)
Published in Cytotherapy (Oxford, England) (01.05.2018)
Get full text
Journal Article
240 - Co-administration of first trimester umbilical cord-derived perivascular cells (FTM HUCPVCs) with endothelial progenitor cells (EPCs) leads to enhanced angiogenesis, both in vitro and in vivo, compared to either cell type alone
Iqbal, F., Szaraz, P., Wu, J., Gauthier-Fisher, A., Li, R., Librach, C.
Published in Cytotherapy (Oxford, England) (01.05.2017)
Published in Cytotherapy (Oxford, England) (01.05.2017)
Get full text
Journal Article
291 - Blood brain barrier integrity and edema formation after moderate traumatic brain injury is improved with human umbilical cord perivascular cell therapy
Barretto, T., Park, E., Liu, E., Gauthier-Fisher, A., Gallagher, D., Librach, C., Baker, A.
Published in Cytotherapy (Oxford, England) (01.05.2017)
Published in Cytotherapy (Oxford, England) (01.05.2017)
Get full text
Journal Article