Lee Isaac
Assistant Professor
faculty
College of Medicine Administration
Research Areas
Biography and Research Information
OverviewAI-generated summary
Dr. Lee Isaac's research focuses on geriatric neuropsychology, with scholarly interests in diagnostic specificity in dementia, the prediction of amyloid-related imaging abnormalities (ARIA), and the relationship between neuropsychiatric symptoms and white matter integrity in aging brains. He holds several leadership positions within the University of Arkansas for Medical Sciences' College of Medicine, including director of the Neuropsychology Service and co-director of the Behavioral Neurology Clinic. Dr. Isaac is also involved in the training of fellows and interns in neuropsychology. His recent publications investigate dementia risk factor knowledge in rural older adults, age-related effects on white matter structure related to cognitive flexibility, and the use of embedded measures to distinguish cognitive impairment severity in older adults. His work includes retrospective studies and examines populations across the adult lifespan.
Research Overview
Dr. Lee Isaac is a geriatric neuropsychologist in the Department of Psychiatry. He holds several director roles, including director of the Neuropsychology Service, co-director of the Behavioral Neurology Clinic, and Associate Director of the Psychiatry Resident Academic Track. Dr. Isaac is also involved in training as a part of the Neuropsychology APPCN fellowship and internship at UAMS, and his current scholarly interests include diagnostic specificity in dementia, prediction of ARIA, and the relationship between neuropsychiatric symptoms and white matter integrity.
Metrics
- h-index: 1
- Publications: 8
- Citations: 18
Selected Publications
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Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain (2026)
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Judgement of Line Orientation error analysis distinguishes between severity of cognitive impairment in older adults (2025)
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Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain (2024)
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60 Are all Embedded Measures Created Equal? A look at Embedded PVTs in Major Neurocognitive Disorder (2023)
Collaboration Network
Top Collaborators
- Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain
- Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain
- NeuroAge
- Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain
- Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain
- NeuroAge
- Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain
- Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain
- NeuroAge
- Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain
- Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain
- NeuroAge
- 60 Are all Embedded Measures Created Equal? A look at Embedded PVTs in Major Neurocognitive Disorder
- Judgement of Line Orientation error analysis distinguishes between severity of cognitive impairment in older adults
- 60 Are all Embedded Measures Created Equal? A look at Embedded PVTs in Major Neurocognitive Disorder
- Judgement of Line Orientation error analysis distinguishes between severity of cognitive impairment in older adults
- 60 Are all Embedded Measures Created Equal? A look at Embedded PVTs in Major Neurocognitive Disorder
- Judgement of Line Orientation error analysis distinguishes between severity of cognitive impairment in older adults
- Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain
- Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain
- Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Supplementary Materials for: Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Supplementary Materials for: Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Supplementary Materials for: Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Supplementary Materials for: Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- Supplementary Materials for: Improving Dementia Risk Factor Knowledge in Rural Older Adults Through a Single, Community-Based Psychoeducational Session
- 60 Are all Embedded Measures Created Equal? A look at Embedded PVTs in Major Neurocognitive Disorder
- 60 Are all Embedded Measures Created Equal? A look at Embedded PVTs in Major Neurocognitive Disorder
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