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Showing 1 - 20 results of 10,883 for search '(( brain ((((greater disease) OR (step decrease))) OR (a decrease)) ) OR ( fold greater disease ))', query time: 0.85s Refine Results
  1. 1
    Task variability/correlations decrease independently of mean task activity removal step in fMRI data.

    Task variability/correlations decrease independently of mean task activity removal step in fMRI data. by Takuya Ito (57473)

    Published 2020
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  2. 2
    Generation of cerebral organoids and prion disease pathology.

    Generation of cerebral organoids and prion disease pathology. by Simote T. Foliaki (11548933)

    Published 2023
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  3. 3
    Table_4_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx

    Table_4_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx by Christina L. Bloomfield (8495196)

    Published 2024
    “…Multi-parameter flow cytometry confirmed that retinal microglia expressed 3.2-fold greater H2-Db and 263.3-fold more H2-Kb than brain microglia. …”
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  4. 4
    Table_2_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx

    Table_2_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx by Christina L. Bloomfield (8495196)

    Published 2024
    “…Multi-parameter flow cytometry confirmed that retinal microglia expressed 3.2-fold greater H2-Db and 263.3-fold more H2-Kb than brain microglia. …”
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  5. 5
    Table_3_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx

    Table_3_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx by Christina L. Bloomfield (8495196)

    Published 2024
    “…Multi-parameter flow cytometry confirmed that retinal microglia expressed 3.2-fold greater H2-Db and 263.3-fold more H2-Kb than brain microglia. …”
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  6. 6
    Table_1_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx

    Table_1_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.xlsx by Christina L. Bloomfield (8495196)

    Published 2024
    “…Multi-parameter flow cytometry confirmed that retinal microglia expressed 3.2-fold greater H2-Db and 263.3-fold more H2-Kb than brain microglia. …”
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  7. 7
    DataSheet_1_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.docx

    DataSheet_1_Retinal microglia express more MHC class I and promote greater T-cell-driven inflammation than brain microglia.docx by Christina L. Bloomfield (8495196)

    Published 2024
    “…Multi-parameter flow cytometry confirmed that retinal microglia expressed 3.2-fold greater H2-Db and 263.3-fold more H2-Kb than brain microglia. …”
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  8. 8
    Distribution of miRs with a greater than two fold-change.

    Distribution of miRs with a greater than two fold-change. by Stephanie L. Samani (17896610)

    Published 2024
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  9. 9
    The Healthy Brain 9 (HB9).

    The Healthy Brain 9 (HB9). by James E. Galvin (7404539)

    Published 2025
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  10. 10
    Schematic of the multi-Step model.

    Schematic of the multi-Step model. by Anshul Saini (11320669)

    Published 2021
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  11. 11
    Depletion of Opa1 and Marf does not cause increase in the cleaved Caspase 3 levels and apoptosis in the brain.

    Depletion of Opa1 and Marf does not cause increase in the cleaved Caspase 3 levels and apoptosis in the brain. by Dnyanesh Dubal (12085942)

    Published 2022
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  12. 12
    Cell population dynamics for the multi-step model.

    Cell population dynamics for the multi-step model. by Anshul Saini (11320669)

    Published 2021
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  13. 13
    Brain uptake rate of [<sup>14</sup>C]sucrose in the whole brain and individual brain regions.

    Brain uptake rate of [<sup>14</sup>C]sucrose in the whole brain and individual brain regions. by Takuro Iwao (14636741)

    Published 2023
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  14. 14
    Table_1_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf

    Table_1_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf by Aline Freyssin (11912204)

    Published 2022
    “…Furthermore, a significant decrease in brain uptake of the TSPO PET tracer [<sup>18</sup>F]DPA-714 was observed with viniferin compared to resveratrol. …”
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  15. 15
    Image_1_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf

    Image_1_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf by Aline Freyssin (11912204)

    Published 2022
    “…Furthermore, a significant decrease in brain uptake of the TSPO PET tracer [<sup>18</sup>F]DPA-714 was observed with viniferin compared to resveratrol. …”
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  16. 16
    Image_3_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf

    Image_3_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf by Aline Freyssin (11912204)

    Published 2022
    “…Furthermore, a significant decrease in brain uptake of the TSPO PET tracer [<sup>18</sup>F]DPA-714 was observed with viniferin compared to resveratrol. …”
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  17. 17
    Image_2_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf

    Image_2_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf by Aline Freyssin (11912204)

    Published 2022
    “…Furthermore, a significant decrease in brain uptake of the TSPO PET tracer [<sup>18</sup>F]DPA-714 was observed with viniferin compared to resveratrol. …”
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  18. 18
    Table_2_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf

    Table_2_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf by Aline Freyssin (11912204)

    Published 2022
    “…Furthermore, a significant decrease in brain uptake of the TSPO PET tracer [<sup>18</sup>F]DPA-714 was observed with viniferin compared to resveratrol. …”
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  19. 19
    Image_4_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf

    Image_4_Trans ε-Viniferin Decreases Amyloid Deposits With Greater Efficiency Than Resveratrol in an Alzheimer’s Mouse Model.pdf by Aline Freyssin (11912204)

    Published 2022
    “…Furthermore, a significant decrease in brain uptake of the TSPO PET tracer [<sup>18</sup>F]DPA-714 was observed with viniferin compared to resveratrol. …”
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  20. 20
    Brain surgeries transiently decrease the singing rate.

    Brain surgeries transiently decrease the singing rate. by Homare Yamahachi (363988)

    Published 2020
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