Expert Profile
Michael Yassa
Professor and Chancellor’s Fellow
Michael Yassa is interested in how learning and memory mechanisms are altered in aging and neuropsychiatric disease.
Areas of Expertise
- Neurobiology and Behavior
- Aging and Alzheimer's Disease
- Memory and Disease
- Memory
- Neuropsychiatric Disorders
Biography
Michael Yassa's laboratory is interested in how the brain learns and remembers information, and how learning and memory mechanisms are altered in aging and neuropsychiatric disease. The central questions in their research are:
What are the neural mechanisms that support learning and memory?
How are memory circuits and pathways altered in the course of aging, dementia, and neuropsychiatric disorders such as depression and anxiety?
How can we identify early preclinical biomarkers that can distinguish between normal and pathological neurocognitive changes so that we can better design diagnostic and therapeutic tools.
To address these questions, Yassa develops and refines cognitive assessment tools that specifically target memory processes and computations, such as pattern separation. Yassa's lab also develops, optimizes, and uses a host of advanced brain measurement techniques including high-resolution structural, functional, and diffusion MRI, PET, EEG, and intracranial recordings (ECoG) in patients, to explore the brain’s architecture at very fine levels of detail.
Yassa's lab combines these approaches with more traditional psychophysics including measurements of galvanic skin response (skin conductance), heart rate variability, and eye tracking. They are also working with collaborators to develop novel platforms for cellular resolution functional imaging in awake, behaving animals using novel MRI tracers. Finally, we are actively developing and testing several pharmacological and nonpharmacological cognitive enhancement interventions in older adults at risk for dementia, including studies of physical exercise.
Media
Media Appearances
Women are better than men at science job interviews
Nature, 10/9/2024
NIH seeks input on how structural racism affects brain research, health
The Transmitter, 4/17/2024
Shifting Toward Precision Care in Multiple Sclerosis Using Disease Activity Tests and Serum Biomarkers: Michael Y. Sy, MD, PhD
NeurologyLive, 10/24/2023
UCI Study Finds Fragrances Improve Memory
Orange County Business Journal, 9/5/2023
Simple fragrance release boosts memory in elders
Lab+Life Scientist, 8/23/2023
What pecans and fragrance add to health — and childhood adversity takes away
Deseret News, 8/3/2023
Exposure to Certain Fragrances During Sleep Dramatically Boosts Cognitive Function
ScienceAlert, 8/3/2023
Walking For Just 10 Minutes Improves Brain Performance
MSN Health, 8/24/2022
Beyond Brain Fog: What the Pandemic Has Done to Our Memory
Katie Couric Media, 8/1/2022
Doing This for Just 10 Minutes Daily Can Boost Your Memory, Study Says
Best Life, 4/15/2022
Articles
Associations between pattern separation and hippocampal subfield structure and function vary along the lifespan: A 7 T imaging study
Scientific Reports
1100 Self-Monitoring Of PVT Performance In Healthy Adults And Individuals With MDD
Sleep
Pattern Separation and Source Memory Engage Distinct Hippocampal and Neocortical Regions during Retrieval
Journal of Neuroscience
Down syndrome: Distribution of brain amyloid in mild cognitive impairment
Alzheimer's & Dementia: Diagnosis, Assessment & Disease Monitoring
Education
UC Irvine
PhD, Neurobiology and Behavior, 2010
The Johns Hopkins University
MA, Psychological and Brain Sciences, 2007
The Johns Hopkins University
BA, Neuroscience, 2002
Accomplishments
- Ossoff Scholars Award in Cognitive Disorders Research
- Roger W. Russell Scholar’s Award in the Neurobiology of Learning and Memory
- Carl W. Cotman Scholar’s Award in the Neurobiology of Neurological Disorders
- Fine Science Tools Travel Award in Neuroscience
Affiliations
- American Psychological Association
- Cognitive Neuroscience Society
- International Neuropsychological Society