The present invention relates to a method of cultivating an epithelial stem/progenitor cell population of the amniotic membrane of umbilical cord, the epithelial stem/progenitor cell population having the capacity to differentiate in multiple cell types.

The present invention relates to a method of cultivating an epithelial stem/progenitor cell population of the amniotic membrane of umbilical cord, the epithelial stem/progenitor cell population having the capacity to differentiate in multiple cell types.

The present invention relates to a reliable method for producing amniotic-like epithelial cells, using a new methodology. The invention also relates to a composition and the use of said composition comprising amniotic-like epithelial cells or a preparation derived therefrom. Said cells may have particular utility in regenerative medicine, research and/or cosmetic preparations.

The present invention relates to a reliable method for producing amniotic-like epithelial cells, using a new methodology. The invention also relates to a composition and the use of said composition comprising amniotic-like epithelial cells or a preparation derived therefrom. Said cells may have particular utility in regenerative medicine, research and/or cosmetic preparations.

Presented is an airway organ bioreactor apparatus, and methods of use thereof, as well as bioartificial airway organs produced using the methods, and methods of treating subjects using the bioartificial airway organs. The bioreactor comprises: an organ chamber: an ingres line connecting the organ chamber and a reservoir system and comprising an arterial line, a venous line and a tracheal line; an egress line connecting the chamber and the reservoir system, pumps in ingress and egress lines; a controller to control fluid exchange; a chamber pressure sensor connected to the organ chamber.

Presented is an airway organ bioreactor apparatus, and methods of use thereof, as well as bioartificial airway organs produced using the methods, and methods of treating subjects using the bioartificial airway organs. The bioreactor comprises: an organ chamber: an ingres line connecting the organ chamber and a reservoir system and comprising an arterial line, a venous line and a tracheal line; an egress line connecting the chamber and the reservoir system, pumps in ingress and egress lines; a controller to control fluid exchange; a chamber pressure sensor connected to the organ chamber.

Systems, instruments, methods, and compositions are described involving removing a portion of the epidermis within a donor site on a subject, and harvesting dermal plugs within the donor site. An injectable filler is formed by mincing the dermal plugs. The injectable filler is configured for injecting into a recipient site on the subject.

Systems, instruments, methods, and compositions are described involving removing a portion of the epidermis within a donor site on a subject, and harvesting dermal plugs within the donor site. An injectable filler is formed by mincing the dermal plugs. The injectable filler is configured for injecting into a recipient site on the subject.

Disclosed herein are designer extracellular vesicles (EVs) functionalized with glutamate receptors (e.g., mGluR4 and mGluR8), which can selectively target injured regions of the CNS experiencing excitotoxicity. mGluR4 and mGluR8-decorated EVs preferentially anchor into injured areas of the CNS with a marked increase in extracellular glutamate associated with profuse neuroand excitotoxicity. Therefore, glutamate receptor decoration can lead to enhanced homing in glutamate-rich areas of the CNS.

Disclosed herein are designer extracellular vesicles (EVs) functionalized with glutamate receptors (e.g., mGluR4 and mGluR8), which can selectively target injured regions of the CNS experiencing excitotoxicity. mGluR4 and mGluR8-decorated EVs preferentially anchor into injured areas of the CNS with a marked increase in extracellular glutamate associated with profuse neuroand excitotoxicity. Therefore, glutamate receptor decoration can lead to enhanced homing in glutamate-rich areas of the CNS.