Tasneem Zahir scite author profile

Retinal progenitor cells (RPCs) are multipotent central nervous system precursors that give rise to all of the cell types of the retina during development. Several groups have reported that mammalian RPCs can be isolated and expanded in culture and can differentiate into retinal neurons upon grafting to the mature, diseased eye. However, cell delivery and survival remain formidable obstacles to application of RPCs in a clinical setting. Because biodegradable polymer/progenitor constructs have been shown to be capable of tissue generation in other compartments, we evaluated the survival, migration, and differentiation of RPCs delivered on PLLA/PLGA polymer substrates to the mouse subretinal space and compared these results to conventional injections of RPCs. Polymer composite grafts resulted in a near 10-fold increase in the number of surviving cells after 4 weeks, with a 16-fold increase in cell delivery. Grafted RPCs migrated into the host retina and expressed the mature markers neurofilament-200, glial fibrillary acidic protein, protein kinase C-α, recoverin, and rhodopsin. We conclude that biodegradable polymer/progenitor cell composite grafts provide an effective means of increasing progenitor cell survival and overall yield when transplanting to sites within the central nervous system such as the retina. Stem Cells 2005;23:1579-1588

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Repair of the injured spinal cord by transplantation of neural stem cells in a hyaluronan-based hydrogel

Mothe

et al. 2013

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Transplanted adult spinal cord–derived neural stem/progenitor cells promote early functional recovery after rat spinal cord injury

et al. 2008

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Tasneem Zahir

Biodegradable Polymer Composite Grafts Promote the Survival and Differentiation of Retinal Progenitor Cells

Repair of the injured spinal cord by transplantation of neural stem cells in a hyaluronan-based hydrogel

Transplanted adult spinal cord–derived neural stem/progenitor cells promote early functional recovery after rat spinal cord injury

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