The Aging Brain
Neurodegenerative Diseases from Differing Perspectives
The Make-Up Of Neurodegenerative Diseases
UCLA neuroscientists are studying neurodegenerative diseases from many different perspectives, from understanding the atomic structure of abnormal toxic proteins that accumulate in the brains of patients with a spectrum of neurodegenerative diseases to determining how the loss of function of some genes in other patients leads to disease.
Important Contributions
Many UCLA scientists have made important contributions to understanding how the brain ages, here are a few. Ultimately the goal of these studies is to use rationale approaches based on a deep understanding of these diseases to develop affective therapeutic approaches.
![Ming Guo, MD, PhD is a research scientist studying neurodegenerative diseases](/sites/g/files/oketem456/files/styles/3_2_960x640/public/media/images/Ming-Guo-MD-PhD-Research-Scientist-Studying-Neurodegenerative-Diseases.png.webp?itok=MkyCKnAZ)
![S. Thomas Carmichael is a neurologist and neuroscientist](/sites/g/files/oketem456/files/styles/3_2_960x640/public/media/images/S.%20Thomas%20Carmichael%2C%20MD%2C%20PhD%20-%20Medical%20School.png.webp?itok=Z2uKHXki)
![David S. Eisenberg, PhD Neuroscientist studying neurodegenerative diseases](/sites/g/files/oketem456/files/styles/3_2_960x640/public/media/images/David-S-Eisenberg-PhD-Neuroscientist-Studying-Neurodegenerative-Diseases.png.webp?itok=r4iHKuNN)
![X. William Yang, MD, PhD - Medical School neuroscientist studying neurodegenerative diseases](/sites/g/files/oketem456/files/styles/3_2_960x640/public/media/images/X-William-Yang-MD-PhD-Neuroscientist-Studying-Neurodegenerative-Diseases.png.webp?itok=b1tvWuUD)
![Spotlight Samantha Butler, PhD](/sites/g/files/oketem456/files/styles/full_width_1376px/public/media/images/Spotlight1_0.PNG.webp?itok=nSIcqhcj)
Dr. Ming Guo is a neurologist, who treats patients, and research scientist studying how neurodegenerative diseases like Parkinson’s disease disrupt normal brain function and ultimately destroy neurons. This has enormous consequences for individuals, families and our society.
![Spotlight Ben Novitch, MMSc, PhD](/sites/g/files/oketem456/files/styles/full_width_1376px/public/media/images/Spotlight2.PNG.webp?itok=gp1PKpjT)
Dr. Carmichael and his colleagues have shown that the brain can be repaired — and brain function can be recovered — after a stroke in animals. The discovery could have important implications for treating a mind-robbing condition known as a white matter stroke, a major cause of dementia.
![Spotloght Linda Ming-Huei Liau, MD, PhD, MBA](/sites/g/files/oketem456/files/styles/full_width_1376px/public/media/images/Spotlight3.PNG.webp?itok=mgv1AfuG)
A hallmark of many neurodegenerative diseases, including Parkinson’s and Alzheimer’s, is the abnormal aggregation of proteins into fibrils called amyloids. Dr. David Eisenberg, has been trying to visualize and determine structure of these amyloids.
![Spotlight Ye Zhang, PhD](/sites/g/files/oketem456/files/styles/full_width_1376px/public/media/images/Spotlight4.PNG.webp?itok=XzvWaR-E)
UCLA Neuroscientist X. William Yang, MD, PhD, merges human genetic findings and clinical observations from patients with cutting-edge genetic tools to study a variety of brain disorders, including Huntington’s, Parkinson’s, and Alzheimer’s diseases.