Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...
Keirstead, H S Nistor, G Bernal, G Totoiu, M Cloutier, F Sharp, K Steward, O
Demyelination contributes to loss of function after spinal cord injury, and thus a potential therapeutic strategy involves replacing myelin- forming cells. Here, we show that transplantation of human embryonic stem cell ( hESC)- derived oligodendrocyte progenitor cells ( OPCs) into adult rat spinal cord injuries enhances remyelination and promotes ...