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300 Medical PlazaSuite B200Los Angeles, CA 90095
Phone+1 310-794-1195
Dr. Golshani is on Doximity
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Education & Training
UCLA-VA Greater Los AngelesInternship, Internal Medicine, 2002 - 2003
University of California, Irvine, School of MedicineClass of 2002
Certifications & Licensure
CA State Medical License 2003 - 2027
American Board of Psychiatry and Neurology Neurology
Publications & Presentations
PubMed
- Behavioral timescale synaptic plasticity in the hippocampus creates non-spatial representations during learning and is modulated by entorhinal inputs.Conor C Dorian, Jiannis Taxidis, Ahmet Arac, Peyman Golshani
Biorxiv. 2025-04-01 - 3 citationsA fast and responsive voltage indicator with enhanced sensitivity for unitary synaptic events.Yukun A Hao, Sungmoo Lee, Richard H Roth, Silvia Natale, Laura Gomez
Neuron. 2024-11-20 - 1 citationsMiniXL: An open-source, large field-of-view epifluorescence miniature microscope for mice capable of single-cell resolution and multi-brain region imaging.Pingping Zhao, Changliang Guo, Mian Xie, Liangyi Chen, Peyman Golshani
Biorxiv. 2024-08-19
Press Mentions
Correlated Signatures of Social Behavior in Cerebellum and Anterior Cingulate CortexFebruary 18th, 2024
Grant Support
- Unstable nucleus accumbens social representations in models of social behavioral dysfunction.UNIVERSITY OF CALIFORNIA LOS ANGELES2023–2028
- Open-source miniaturized two-photon microscopes for large field-of-view and volumetric imagingUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Open-source miniaturized two-photon microscopes for large field-of-view and volumetric imagingUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Open-source miniaturized two-photon microscopes for large field-of-view and volumetric imagingUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Open-source miniaturized two-photon microscopes for large field-of-view and volumetric imagingUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Open-source miniaturized two-photon microscopes for large field-of-view and volumetric imagingUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Closed-Loop Systems for Large Scale Spatiotemporal Imaging and Actuation of Neural Activity in Freely Behaving AnimalsUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2026
- Kilohertz volumetric imaging of neuronal action potentials in awake behaving miceUNIVERSITY OF CALIFORNIA LOS ANGELES2022–2025
- Multiplexing working memory and timing: Encoding retrospective and prospective information in transient neural trajectories.UNIVERSITY OF CALIFORNIA LOS ANGELES2020–2025
- Multiplexing working memory and timing: Encoding retrospective and prospective information in transient neural trajectories.UNIVERSITY OF CALIFORNIA LOS ANGELES2020–2025
- Multiplexing working memory and timing: Encoding retrospective and prospective information in transient neural trajectories.UNIVERSITY OF CALIFORNIA LOS ANGELES2020–2025
- Multiplexing working memory and timing: Encoding retrospective and prospective information in transient neural trajectories.UNIVERSITY OF CALIFORNIA LOS ANGELES2020–2025
- Multiplexing working memory and timing: Encoding retrospective and prospective information in transient neural trajectories.UNIVERSITY OF CALIFORNIA LOS ANGELES2020–2025
- Multiplexing working memory and timing: Encoding retrospective and prospective information in transient neural trajectories.UNIVERSITY OF CALIFORNIA LOS ANGELES2020–2025
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
- CMA: Network plasticity in acquired epileptogenesisVA GREATER LOS ANGELES HEALTHCARE SYSTEM2021–2024
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