Karunesh Ganguly MD
Assistant Professor, Neurology, UCSF School of Medicine
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505 Parnassus AveBox 0114 M798San Francisco, CA 94143
Phone+1 415-476-1489
Fax+1 415-750-2185
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Education & Training
University of California (San Francisco)Residency, Neurology, 2008- University of California (San Francisco)Internship, Internal Medicine, 2004 - 2005
University of California San Diego School of MedicineClass of 2004
Certifications & Licensure
CA State Medical License 2006 - 2025
American Board of Psychiatry and Neurology Neurology
Publications & Presentations
PubMed
- A streaming brain-to-voice neuroprosthesis to restore naturalistic communication.Kaylo T Littlejohn, Cheol Jun Cho, Jessie R Liu, Alexander B Silva, Bohan Yu
Nature Neuroscience. 2025-04-01 - Sampling representational plasticity of simple imagined movements across days enables long-term neuroprosthetic control.Nikhilesh Natraj, Sarah Seko, Reza Abiri, Runfeng Miao, Hongyi Yan
Cell. 2025-03-06 - Ensemble reactivations during brief rest drive fast learning of sequences.Sandon Griffin, Preeya Khanna, Hoseok Choi, Katherina Thiesen, Lisa Novik
Nature. 2025-02-01
Journal Articles
- Low-Frequency Cortical Activity Is a Neuromodulatory Target That Tracks Recovery After StrokeKarunesh Ganguly, Dhakshin S Ramanathan, Raymond A Swanson, Nature
Press Mentions
Spinal Cord Stimulator Restores Parkinson Patient’s GaitNovember 16th, 2023- NS/ Researchers Crack Mystery Underpinning Brain Cancer VulnerabilityJanuary 4th, 2023
- Brain Stimulation for Stroke Recovery, Brain Implants for Speech Among Conference TalksNovember 10th, 2022
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Grant Support
- Long-term reliable neuroprosthetic control of a robotic arm and hand using electrocorticography.UNIVERSITY OF CALIFORNIA, SAN FRANCISCO2024–2029
- Long-term reliable neuroprosthetic control of a robotic arm and hand using electrocorticography.UNIVERSITY OF CALIFORNIA, SAN FRANCISCO2024–2029
- Long-term reliable neuroprosthetic control of a robotic arm and hand using electrocorticography.UNIVERSITY OF CALIFORNIA, SAN FRANCISCO2024–2029
- Neurophysiological Basis for Enhancing Motor Recovery After StrokeVETERANS AFFAIRS MED CTR SAN FRANCISCO2015–2028
- Neurophysiological Basis for Enhancing Motor Recovery After StrokeVETERANS AFFAIRS MED CTR SAN FRANCISCO2015–2028
- Neurophysiological Basis for Enhancing Motor Recovery After StrokeVETERANS AFFAIRS MED CTR SAN FRANCISCO2015–2028
- Neurophysiological Basis for Enhancing Motor Recovery After StrokeVETERANS AFFAIRS MED CTR SAN FRANCISCO2015–2028
- Neurophysiological Basis for Enhancing Motor Recovery After StrokeVETERANS AFFAIRS MED CTR SAN FRANCISCO2015–2028
- Neurophysiological Basis for Enhancing Motor Recovery After StrokeVETERANS AFFAIRS MED CTR SAN FRANCISCO2015–2028
- Neurophysiological Basis for Enhancing Motor Recovery After StrokeVETERANS AFFAIRS MED CTR SAN FRANCISCO2015–2028
- Role of coordinated multi-area reactivations during transitions between automatic and flexible behaviors.UNIVERSITY OF CALIFORNIA, SAN FRANCISCO2023–2026
- Modulating Low-Frequency Cortical Population Dynamics to Augment Motor Function After StrokeUNIVERSITY OF CALIFORNIA, SAN FRANCISCO2020–2025
- Optimizing oscillatory epidural electrical stimulation to selectively increase task-related population dynamics in motor areasUNIVERSITY OF CALIFORNIA, SAN FRANCISCO2020–2025
- Modulating Low-Frequency Cortical Population Dynamics to Augment Motor Function After StrokeUNIVERSITY OF CALIFORNIA, SAN FRANCISCO2020–2025
- Optimizing oscillatory epidural electrical stimulation to selectively increase task-related population dynamics in motor areasUNIVERSITY OF CALIFORNIA, SAN FRANCISCO2020–2025
- Optimizing oscillatory epidural electrical stimulation to selectively increase task-related population dynamics in motor areasUNIVERSITY OF CALIFORNIA, SAN FRANCISCO2020–2025
Professional Memberships
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