Regenerative Biology of the Eye, Softcover reprint of the original 1st ed. 2014
Stem Cell Biology and Regenerative Medicine Series

1 Understanding Retina Development Can Inform Future Regenerative Therapies.- 2 Mitochondria in retinal neurodegeneration and stem cell models.- 3 The regenerative potential of the vertebrate retina – lessons from the zebrafish.- 4 Stem Cells and Regeneration in the Xenopus Retina.- 5 Advances in Pluripotent and Adult Stem Cells for Eye Research.- 6 Stem cell strategies for optic nerve protection.- 7 Stem cell strategies for diseases of the outer retina.- 8 Potential of Müller cells and stem/progenitor cells to regenerate retinal tissue.- 9 Stem cells and the ocular lens: implications for cataract research and therapy.- 10 Trabecular Meshwork Stem Cells.- 11 Stem Cells of the Human Corneoscleral Niche.- 12 Advances on optic nerve regeneration and therapeutic strategies.- 13 Bionic Eyes: Vision Restoration through Electronic or Photovoltaic Stimulation.- 14 Stem Cell-Derived RPE Transplantation for Age-Related Macular Degeneration: Experimental Studies to Improve Transplant Survival and Differentiation.- 15 Seeing The Full Picture: The Hidden Cost Of The Stem Cell And Regenerative Medicine Revolution.

Dr. Alice Pébay, Ph.D., is the principal investigator of the Neuroregeneration Unit at the Centre for Eye Research Australia, and a Senior Research Fellow in the Department of Ophthalmology at the University of Melbourne. She holds a Ph.D. in neuroscience and has extensive expertise in cell biology, having published more than 40 peer reviewed articles and chapters in the field of stem cell biology and lysophospholipid biology. Dr Pébay's current research focuses on the mechanisms that enable human pluripotent stem cells to maintain their pluripotency and allow them to differentiate towards specific retinal lineages. Dr Pébay also has comprehensive experience in neurotrauma research and a strong interest in the cellular mechanisms involved in the genetic disease, Friedreich Ataxia.