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| ⚫ | = Andrew D. Huberman, Ph.D.<!-- EDIT BELOW THIS LINE --> = | ||
| RGCs are incredibly important neurons: if they fail to properly connect to and communicate with the brain, serious visual defects can occur. If RGCs degenerate, as they do in diseases such as glaucoma, patients go blind, even if the rest of the eye and brain are healthy and normal. Thus, understanding how RGCs wire up and transmit visual information to the brain and how to repair damaged RGC connections is extremely important for basic science and medicine.<br /> | RGCs are incredibly important neurons: if they fail to properly connect to and communicate with the brain, serious visual defects can occur. If RGCs degenerate, as they do in diseases such as glaucoma, patients go blind, even if the rest of the eye and brain are healthy and normal. Thus, understanding how RGCs wire up and transmit visual information to the brain and how to repair damaged RGC connections is extremely important for basic science and medicine.<br /> | ||
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| Pew Biomedical Scholar <br /> | <br /> | ||
| Glaucoma Research Foundation Catalyst for a Cure Team Member | |||
| == Editorial Board Member of: == | == Editorial Board Member of: == | ||
| The Journal of Neuroscience (Official Journal of the Society for Neuroscience)<br /> | The Journal of Neuroscience (Official Journal of the Society for Neuroscience)<br /> | ||
| Current Biology (Cell Press/Elsevier)<br /> | ] (Cell Press/Elsevier)<br /> | ||
| The Journal of Comparative Neurology (Wiley)<br /> | ] (Wiley)<br /> | ||
| Current Opinion in Neurobiology (Elsevier)<br /> | ] (Elsevier)<br /> | ||
| Cell Reports (Cell Press/Elsevier) | ] (Cell Press/Elsevier) | ||
Revision as of 21:06, 8 August 2016
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Andrew D. Huberman, Ph.D.
RGCs are incredibly important neurons: if they fail to properly connect to and communicate with the brain, serious visual defects can occur. If RGCs degenerate, as they do in diseases such as glaucoma, patients go blind, even if the rest of the eye and brain are healthy and normal. Thus, understanding how RGCs wire up and transmit visual information to the brain and how to repair damaged RGC connections is extremely important for basic science and medicine.
Our lab incorporates a wide variety of techniques and approaches to understanding visual circuits including anatomy, genetics, molecular biology, virology, electrophysiology, and behavior. Each person in the lab works on a different aspect of visual circuit function, development or disease. We are a highly interactive and collaborative group: we actively exchange technologies and ideas with one another, with other labs at UCSD, and with labs around the US and abroad.
Honors and Awards:
Glaucoma Research Foundation Catalyst for a Cure Team Member
Editorial Board Member of:
The Journal of Neuroscience (Official Journal of the Society for Neuroscience)
Current Biology (Cell Press/Elsevier)
The Journal of Comparative Neurology (Wiley)
Current Opinion in Neurobiology (Elsevier)
Cell Reports (Cell Press/Elsevier)