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Sanya Kotian

Showing results (1-10 of 5) with videos related to

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Stem Cell Research & Therapy|April 18, 2025
Extracellular vesicles from hiPSC-derived NSCs protect human neurons against Aβ-42 oligomers induced neurodegeneration, mitochondrial dysfunction and tau phosphorylationShama Rao, Leelavathi N Madhu, Roshni Sara Babu, et al.
Aging Cell|June 16, 2026
Human iPSC-NSC-Derived Extracellular Vesicles Can Alleviate Alzheimer's Disease-Linked Impairments in Mitochondria, mTOR Signaling, Autophagy, and Hippocampal NeurogenesisLeelavathi N Madhu, Sahithi Attaluri, Sanya Kotian, et al.
Alzheimer'S & Dementia : the Journal of the Alzheimer'S Association|December 25, 2025
Drug DevelopmentLeelavathi N Madhu, Yogish Somayaji, Sanya Kotian, et al.
Aging Cell|November 21, 2024
Residual microglia following short-term PLX5622 treatment in 5xFAD mice exhibit diminished NLRP3 inflammasome and mTOR signaling, and enhanced autophagyMaheedhar Kodali, Leelavathi N Madhu, Yogish Somayaji, et al.
Biorxiv : the Preprint Server for Biology|July 29, 2024
Residual Microglia Following Short-term PLX5622 Treatment in 5xFAD Mice Exhibit Diminished NLRP3 Inflammasome and mTOR Signaling, and Enhanced AutophagyMaheedhar Kodali, Leelavathi N Madhu, Yogish Somayaji, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Stem Cell Research & Therapy|April 18, 2025
Extracellular vesicles from hiPSC-derived NSCs protect human neurons against Aβ-42 oligomers induced neurodegeneration, mitochondrial dysfunction and tau phosphorylationShama Rao, Leelavathi N Madhu, Roshni Sara Babu, et al.
Aging Cell|June 16, 2026
Human iPSC-NSC-Derived Extracellular Vesicles Can Alleviate Alzheimer's Disease-Linked Impairments in Mitochondria, mTOR Signaling, Autophagy, and Hippocampal NeurogenesisLeelavathi N Madhu, Sahithi Attaluri, Sanya Kotian, et al.
Alzheimer'S & Dementia : the Journal of the Alzheimer'S Association|December 25, 2025
Drug DevelopmentLeelavathi N Madhu, Yogish Somayaji, Sanya Kotian, et al.
Aging Cell|November 21, 2024
Residual microglia following short-term PLX5622 treatment in 5xFAD mice exhibit diminished NLRP3 inflammasome and mTOR signaling, and enhanced autophagyMaheedhar Kodali, Leelavathi N Madhu, Yogish Somayaji, et al.
Biorxiv : the Preprint Server for Biology|July 29, 2024
Residual Microglia Following Short-term PLX5622 Treatment in 5xFAD Mice Exhibit Diminished NLRP3 Inflammasome and mTOR Signaling, and Enhanced AutophagyMaheedhar Kodali, Leelavathi N Madhu, Yogish Somayaji, et al.
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