Methods of isolation, expansion and differentiation of fetal stem cells from chorionic villus, amniotic fluid, and placenta and therapeutic uses thereof
First Claim
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1. A composition enriched for isolated human fetal stem cells that are c-kit positive and at least one of SSEA3 positive and SSEA4 positive, wherein the isolated human fetal stem cells grow without a feeder layer and do not spontaneously differentiate in culture, and are isolated from a sample of chorionic villus of the human placenta.
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Abstract
The present invention is directed to pluripotent fetal stem cells derived from chorionic villus, amniotic fluid, and placenta and the methods for isolating, expanding and differentiating these cells, and their therapeutic uses such as manipulating the fetal stem cells by gene transfection and other means for therapeutic applications.
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8 Claims
- 1. A composition enriched for isolated human fetal stem cells that are c-kit positive and at least one of SSEA3 positive and SSEA4 positive, wherein the isolated human fetal stem cells grow without a feeder layer and do not spontaneously differentiate in culture, and are isolated from a sample of chorionic villus of the human placenta.
- 5. An isolated pluripotent human fetal stem cell, which is c-kit positive, and at least one of SSEA3 positive and SSEA4 positive, that grows without a feeder layer and does not spontaneously differentiate in culture, from a sample of chorionic villus of the human placenta.
- 6. An isolated pluripotent human fetal stem cell, which is c-kit positive, SSEA3 positive, and SSEA4 positive, that grows without a feeder layer and does not spontaneously differentiate in culture, from a sample of chorionic villus of the human placenta.
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