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#freephd — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #freephd, aggregated by home.social.

  1. Free PhD:

    Give a mouse semaglutide, measure GLT-1 trafficking in corticostriatal astrocytes specifically, and show that the transporter redistribution is what causes the behavioral change

    Materials:

    (1) chronic semaglutide administration in a rodent model of compulsive behavior,
    (2) single-particle tracking or FRAP to measure GLT-1 surface mobility and cluster dynamics specifically in corticostriatal astrocytes
    (3) extracellular glutamate microdialysis in the same animals during behavioral challenge
    (4) astrocyte-specific GLT-1 conditional knockdown as a control arm to show the behavioral rescue depends on transporter redistribution and not a parallel pathway.

    #freephd #astrocytesareagirlsbestfriend #neurostuffandthings #neuroscience #accordingtohoyle

  2. Free PhD:

    Give a mouse semaglutide, measure GLT-1 trafficking in corticostriatal astrocytes specifically, and show that the transporter redistribution is what causes the behavioral change

    Materials:

    (1) chronic semaglutide administration in a rodent model of compulsive behavior,
    (2) single-particle tracking or FRAP to measure GLT-1 surface mobility and cluster dynamics specifically in corticostriatal astrocytes
    (3) extracellular glutamate microdialysis in the same animals during behavioral challenge
    (4) astrocyte-specific GLT-1 conditional knockdown as a control arm to show the behavioral rescue depends on transporter redistribution and not a parallel pathway.

    #freephd #astrocytesareagirlsbestfriend #neurostuffandthings #neuroscience #accordingtohoyle

  3. Free PhD:

    Give a mouse semaglutide, measure GLT-1 trafficking in corticostriatal astrocytes specifically, and show that the transporter redistribution is what causes the behavioral change

    Materials:

    (1) chronic semaglutide administration in a rodent model of compulsive behavior,
    (2) single-particle tracking or FRAP to measure GLT-1 surface mobility and cluster dynamics specifically in corticostriatal astrocytes
    (3) extracellular glutamate microdialysis in the same animals during behavioral challenge
    (4) astrocyte-specific GLT-1 conditional knockdown as a control arm to show the behavioral rescue depends on transporter redistribution and not a parallel pathway.

    #freephd #astrocytesareagirlsbestfriend #neurostuffandthings #neuroscience #accordingtohoyle

  4. Free PhD:

    Give a mouse semaglutide, measure GLT-1 trafficking in corticostriatal astrocytes specifically, and show that the transporter redistribution is what causes the behavioral change

    Materials:

    (1) chronic semaglutide administration in a rodent model of compulsive behavior,
    (2) single-particle tracking or FRAP to measure GLT-1 surface mobility and cluster dynamics specifically in corticostriatal astrocytes
    (3) extracellular glutamate microdialysis in the same animals during behavioral challenge
    (4) astrocyte-specific GLT-1 conditional knockdown as a control arm to show the behavioral rescue depends on transporter redistribution and not a parallel pathway.

    #freephd #astrocytesareagirlsbestfriend #neurostuffandthings #neuroscience #accordingtohoyle

  5. Free PhD:

    Give a mouse semaglutide, measure GLT-1 trafficking in corticostriatal astrocytes specifically, and show that the transporter redistribution is what causes the behavioral change

    Materials:

    (1) chronic semaglutide administration in a rodent model of compulsive behavior,
    (2) single-particle tracking or FRAP to measure GLT-1 surface mobility and cluster dynamics specifically in corticostriatal astrocytes
    (3) extracellular glutamate microdialysis in the same animals during behavioral challenge
    (4) astrocyte-specific GLT-1 conditional knockdown as a control arm to show the behavioral rescue depends on transporter redistribution and not a parallel pathway.

    #freephd #astrocytesareagirlsbestfriend #neurostuffandthings #neuroscience #accordingtohoyle

  6. """
    use known queueing math on a 3‑channel hex Jackson‑like network to calculate a symmetry‑breaking utilization, then identify that as the electroweak threshold and extract [m_H / v].
    """
    --- you, upon having uttered your thesis aloud as you typed it into WordPerfect as reveal codes is still utterly indecipherable to AI

    ===

    Bet:

    If you can take a hex, three‑channel, single‑server Jackson‑style network, derive a critical utilization and a “distance below criticality” parameter from known queueing theory, and that parameter comes out numerically comparable to [125/246], it’s a falsifiable quantitative link between a queueing threshold and the Higgs sector.

    #physics #freephd

  7. """
    use known queueing math on a 3‑channel hex Jackson‑like network to calculate a symmetry‑breaking utilization, then identify that as the electroweak threshold and extract [m_H / v].
    """
    --- you, upon having uttered your thesis aloud as you typed it into WordPerfect as reveal codes is still utterly indecipherable to AI

    ===

    Bet:

    If you can take a hex, three‑channel, single‑server Jackson‑style network, derive a critical utilization and a “distance below criticality” parameter from known queueing theory, and that parameter comes out numerically comparable to [125/246], it’s a falsifiable quantitative link between a queueing threshold and the Higgs sector.

    #physics #freephd

  8. Free PhD:

    """
    Stimulant response in ADHD correlates better with perfusion change (ΔCBF) than
    dopamine transporter occupancy (ΔDAT). (2) Ketamine response in depression correlates better with astrocytic/perfusion markers than glutamatergic markers. Both are immediately testable with existing methods.
    """

    [just needs someone to run the regression]

    zenodo.org/records/18603643

    #adhd #neuroscience #freephd

  9. Free PhD:

    """
    Stimulant response in ADHD correlates better with perfusion change (ΔCBF) than
    dopamine transporter occupancy (ΔDAT). (2) Ketamine response in depression correlates better with astrocytic/perfusion markers than glutamatergic markers. Both are immediately testable with existing methods.
    """

    [just needs someone to run the regression]

    zenodo.org/records/18603643

    #adhd #neuroscience #freephd

  10. Free PhD:

    """
    Stimulant response in ADHD correlates better with perfusion change (ΔCBF) than
    dopamine transporter occupancy (ΔDAT).

    Ketamine response in depression correlates better with astrocytic/perfusion markers than glutamatergic markers.

    Both are immediately testable with existing methods.
    """

    [just needs someone to run the regression]

    zenodo.org/records/18603643

    #adhd #neuroscience #freephd

  11. Free PhD:

    """
    Stimulant response in ADHD correlates better with perfusion change (ΔCBF) than
    dopamine transporter occupancy (ΔDAT). (2) Ketamine response in depression correlates better with astrocytic/perfusion markers than glutamatergic markers. Both are immediately testable with existing methods.
    """

    [just needs someone to run the regression]

    zenodo.org/records/18603643

    #adhd #neuroscience #freephd

  12. Free PhD:

    """
    Stimulant response in ADHD correlates better with perfusion change (ΔCBF) than
    dopamine transporter occupancy (ΔDAT).

    Ketamine response in depression correlates better with astrocytic/perfusion markers than glutamatergic markers.

    Both are immediately testable with existing methods.
    """

    [just needs someone to run the regression]

    zenodo.org/records/18603643

    #adhd #neuroscience #freephd