Chirag B Patel
Affiliations: | Stanford University School of Medicine, Palo Alto, CA, United States |
Area:
Neuro-oncology, molecular imaging, tumor treating fields (TTFields)Google:
"Chirag Patel"Mean distance: (not calculated yet)
Children
Sign in to add traineeEbru Akbas | research assistant | Stanford Medical School | |
Esra Aktepe | research assistant | Stanford Medical School | |
Rami Awwad | research assistant | Stanford Medical School | |
Aygul Dane | research assistant | Stanford Medical School | |
Aizhan Ibrayeva | research assistant | Stanford Medical School | |
Sajal Sanan | research assistant | Stanford Medical School | |
Sumeyye Tercan | research assistant | Stanford Medical School | |
Saud Alhusaini | post-doc | Stanford Medical School | |
Amber Ruiz | post-doc | Stanford Medical School | |
Adela Wu | post-doc | Stanford Medical School | |
Murat Baday | research scientist | Stanford Medical School | |
Kwang-Min Kim | research scientist | Stanford Medical School |
Collaborators
Sign in to add collaboratorHamed Arami | collaborator | Stanford Medical School | |
Corinne Beinat | collaborator | Stanford Medical School | |
Edwin Chang | collaborator | Stanford Medical School | |
Yoshua Esquenazi | collaborator | University of Texas Houston Medical School | |
Melanie Hayden | collaborator | Stanford Medical School (Neurotree) | |
Arutselvan Natarajan | collaborator | Stanford Medical School | |
Lawrence Recht | collaborator | Stanford Medical School (Neurotree) |
BETA: Related publications
See more...
Publications
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
Nguyen H, Schubert KE, Pohling C, et al. (2024) Impact of glioma peritumoral edema, tumor size, and tumor location on alternating electric fields (AEF) therapy in realistic 3D rat glioma models: a computational study. Physics in Medicine and Biology |
Wang DH, Fujita Y, Dono A, et al. (2024) The genomic alterations in glioblastoma influence the levels of CSF metabolites. Acta Neuropathologica Communications. 12: 13 |
Iv M, Naya L, Sanan S, et al. (2023) Tumor treating fields increases blood-brain barrier permeability and relative cerebral blood volume in patients with glioblastoma. The Neuroradiology Journal. 19714009231207083 |
Nguyen H, Schubert KE, Chang E, et al. (2023) Electric field distributions in realistic 3D rat head models during alternating electric field (AEF) therapy: a computational study. Physics in Medicine and Biology |
Wu A, Huang RJ, Colón GR, et al. (2022) Low rates of structured advance care planning documentation in electronic health records: results of a single-center observational study. Bmc Palliative Care. 21: 203 |
Pohling C, Nguyen H, Chang E, et al. (2022) Current status of the preclinical evaluation of alternating electric fields as a form of cancer therapy. Bioelectrochemistry (Amsterdam, Netherlands). 149: 108287 |
Ceran Y, Ergüder H, Ladner K, et al. (2022) TNTdetect.AI: A Deep Learning Model for Automated Detection and Counting of Tunneling Nanotubes in Microscopy Images. Cancers. 14 |
Sahan AZ, Baday M, Patel CB. (2022) Biomimetic Hydrogels in the Study of Cancer Mechanobiology: Overview, Biomedical Applications, and Future Perspectives. Gels (Basel, Switzerland). 8 |
Arami H, Kananian S, Khalifehzadeh L, et al. (2022) Remotely controlled near-infrared-triggered photothermal treatment of brain tumours in freely behaving mice using gold nanostars. Nature Nanotechnology |
Beinat C, Patel CB, Haywood T, et al. (2021) A Clinical PET Imaging Tracer ([F]DASA-23) to Monitor Pyruvate Kinase M2 Induced Glycolytic Reprogramming in Glioblastoma. Clinical Cancer Research : An Official Journal of the American Association For Cancer Research |