T
Tatiana Wolfe
Assistant Professor
faculty
Psychiatry, College of Medicine
7 h-index
27 pubs
498 cited
Research Areas
Biography and Research Information
OverviewAI-generated summary
Tatiana Wolfe is an Assistant Professor in the Department of Psychiatry at the University of Arkansas for Medical Sciences. Her research investigates the neural underpinnings of cognitive processes and neurological conditions. Recent work has explored the relationship between white matter integrity and cognitive flexibility in aging populations, as well as the functional links between myelination and information processing speed in multiple sclerosis. Wolfe has also published on the use of advanced imaging techniques, such as 18F-sodium fluoride PET imaging, for quantifying skeletal muscle perfusion in peripheral artery disease. Her work includes developing and utilizing animal models to study spinal cord injury, with a focus on transplantable neural networks and kyphoplasty techniques. Collaborators at the University of Arkansas for Medical Sciences include Clint Kilts, Maegan Calvert, A.C.W. Pike, and Laura B. Dunn.
Metrics
- h-index: 7
- Publications: 27
- Citations: 498
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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Enhancing Rectal Cancer Radiosensitivity and Gut Protection through Methionine Restriction (2025)
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511 Functional link between myelination integrity in the connectome of the cingulum bundle and information processing speed in RRMS (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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A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury (2024)
Collaboration Network
Top Collaborators
Clint Kilts
6 shared publications
In database
- White matter macrostructure simultaneously predicts perceived rejection and cognitive inflexibility in late life
- Cingulum network myelination structure by SHIFT MRI characterizes higher order cognitive function in multiple sclerosis
- Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain
- 511 Functional link between myelination integrity in the connectome of the cingulum bundle and information processing speed in RRMS
- Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain
Showing 5 of 6 shared publications
A.C.W. Pike
University of Arkansas for Medical Sciences
4 shared publications
In database
- 423 Innovation in MS Patient Care: Linking Cognitive Health and Myelin Integrity
- Cingulum network myelination structure by SHIFT MRI characterizes higher order cognitive function in multiple sclerosis
- 511 Functional link between myelination integrity in the connectome of the cingulum bundle and information processing speed in RRMS
- 511 Functional link between myelination integrity in the connectome of the cingulum bundle and information processing speed in RRMS
Maegan Calvert
4 shared publications
In database
- Population-level age effects on the white matter structure subserving cognitive flexibility in the human brain
- 511 Functional link between myelination integrity in the connectome of the cingulum bundle and information processing speed in RRMS
- Population-Level Age Effects on the White Matter Structure Subserving Cognitive Flexibility in the Human Brain
- NeuroAge
A. M. Gassel
3 shared publications
In database
- 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
Lee Isaac
3 shared publications
In database
- 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
Philip J. Horner
Houston Methodist (US)
2 shared publications
- Transplantable human motor networks as a neuron-directed strategy for spinal cord injury
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
Sean M. Barber
2 shared publications
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
- 404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury
Alexander G. Steele
2 shared publications
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
- 404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury
Kristopher A. Hoffman
2 shared publications
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
- 404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury
Matthew Hogan
2 shared publications
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
- 404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury
Allison Frazier
2 shared publications
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
- 404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury
Xiufeng Tang
2 shared publications
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
- 404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury
Dimitry G. Sayenko
2 shared publications
- A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
- 404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury
Carlos Ernesto Garrido Salmón
2 shared publications
- White matter macrostructure simultaneously predicts perceived rejection and cognitive inflexibility in late life
- Cingulum network myelination structure by SHIFT MRI characterizes higher order cognitive function in multiple sclerosis
G. Andrew James
2 shared publications
- White matter macrostructure simultaneously predicts perceived rejection and cognitive inflexibility in late life
- Cingulum network myelination structure by SHIFT MRI characterizes higher order cognitive function in multiple sclerosis
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