Luciano C. Greig, MD, PhD

Assistant Professor

 

Retinal Development and Regeneration

The Greig lab investigates genetic regulation of cell identity acquisition in the retina to inform development of stem cell therapies for currently irreversible causes of vision loss. The retina is a complex brain structure comprised of over 50 neuron types that are tasked with detecting light and processing this raw input to begin extracting visual information. We are interested in understanding how gene regulatory networks direct neural progenitors to generate these diverse classes and subtypes of retinal neurons, and how these neurons assemble into functional neural circuits. Our second goal is to formulate therapeutic strategies to repair retinal pathology by applying these basic developmental biology insights. In particular, we aim to reprogram Müller glia into replacement retinal ganglion cells or photoreceptors. As an additional area of interest, we focus on technology development, with a particular emphasis on genetic analysis and manipulation in mice. Currently, we are developing new methods for 1) mosaic analysis to facilitate phenotypic analysis of gene function at the cellular level and for 2) tracking cells during identity reprogramming experiments to detect instances of cell fusion, material transfer, or aberrant promoter activity.

 

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Research Areas:

Diabetic Retinopathy, Macular Degeneration, Myopia, Retina or Retinal Diseases, Stem Cell Research, Visual System Development, Retina Regeneration
 
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Jonathan Li, M.D.

Assistant Professor

 

Prevention and Treatment of Myopia and its Complications

Dr. Jonathan Li is a comprehensive ophthalmologist subspecializing in the field of myopia, focusing on childhood myopia control as well as refractive and cataract surgery. He is the first international ophthalmologist who has completed the Myopia fellowship at Singapore National Eye Centre, which is located in the current global epicenter of myopia. 
 
His research focuses on clinical risk stratification and imaging to identify myopes most at risk of progression and/or myopic complications, evaluation of novel treatments for myopia in children, and validating myopia research and AI algorithms in a heterogenous North American population. 

 

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Research Areas:

Myopia
 
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Dan Schwartz, MD

Professor

 

Devices and Technologies that Address Unmet Needs in Ophthalmology

Dr. Schwartz, Professor of Ophthalmology and Director of the Retina service, is a vitreoretinal surgeon whose research has focused on the development devices and technologies that address unmet needs in ophthalmology. In collaboration with Caltech, he co-invented and helped develop a light-adjustable intraocular lens material that can be used to calibrate residual refractive error after cataract surgery (FDA approvedin 2017) He also co-invented and helped develop OCT angiography as a non-invasive and superior alternative to fluorescein angiography. Current work includes the development of light adjustable materials that can be used to modify scleral biomechanics so as to retard myopia development. Dr. Schwartz has mentored many medical students, residents, and fellows, and has provided research mentorship to over 18 postdoctoral fellows.

 

To Learn More:

https://profiles.ucsf.edu/dan.schwartz


 

Research Areas:

Retina or Retinal Diseases, Macular Degeneration, Myopia
 
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