Jasmine L. Mirdamadi
Neuroscience · Indiana University
Publications
35
Citations
387
Est. group size
—
Recurring co-author estimate
Active years
12
Publishing since 2015
Jasmine L. Mirdamadi studies how the brain controls balance and movement, especially the rapid cortical (brain-surface) responses that help people recover from being knocked off balance. Much of the work uses electroencephalography (EEG) and transcranial magnetic stimulation (TMS) to measure brain activity during balance and reaching tasks, and examines how these responses differ in people after stroke and in trained dancers. A recurring goal is to test whether these brain signals could serve as clinical markers of balance function.
Publication activity has been growing, rising from a few papers per year in the late 2010s to a steady output of around five per year in the most recent years.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Cortical response to balance perturbation is more sensitive in modern dancers than nondancers during biomechanically similar balance recovery
Journal of Neurophysiology · 2026
- A primary central source determines perturbation-evoked N1 amplitudes in younger adults
Journal of Neurophysiology · 2026
- A Primary Central Source Determines Perturbation-Evoked N1 Amplitudes but not Latencies in Younger Adults
bioRxiv (Cold Spring Harbor Laboratory) · 2026
- Excellent test-retest reliability of perturbation-evoked cortical responses supports feasibility of the balance N1 as a clinical biomarker
Journal of Neurophysiology · 2025
- The cortical vestibular system: insights from electroencephalography
Current Opinion in Neurology · 2025
- Cortical response to balance perturbation is more sensitive in modern dancers than nondancers during biomechanically similar balance recovery
bioRxiv (Cold Spring Harbor Laboratory) · 2025
- Slower reactive stepping kinematics are associated with lower clinical balance function and delayed cortical evoked responses under challenging balance conditions after stroke
medRxiv · 2025
- Precise cortical contributions to sensorimotor feedback control during reactive balance
PLoS Computational Biology · 2024
- Distinct Cortical Correlates of Perception and Motor Function in Balance Control
Journal of Neuroscience · 2024
- Delayed Cortical Responses During Reactive Balance After Stroke Associated With Slower Kinetics and Clinical Balance Dysfunction
Neurorehabilitation and neural repair · 2024
- Test-retest reliability of perturbation-evoked cortical activity reflects stable individual differences in reactive balance control
bioRxiv (Cold Spring Harbor Laboratory) · 2024
- State-dependent interhemispheric inhibition reveals individual differences in motor behavior in chronic stroke
Clinical Neurophysiology · 2023
- Precise cortical contributions to feedback sensorimotor control during reactive balance
bioRxiv (Cold Spring Harbor Laboratory) · 2023
- Indexing interhemispheric inhibition in stroke - are we measuring the same thing?
Brain stimulation · 2023
- Distinct cortical correlates of perception and motor function in balance control
bioRxiv (Cold Spring Harbor Laboratory) · 2023
- bioRxiv (Cold Spring Harbor Laboratory)×8
- Journal of Neurophysiology×6
- Journal of Neuroscience×2
- Neuroscience×2
- Frontiers in Human Neuroscience×2
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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