Mechanical and Functional Responses in Astrocytes under Alternating Deformation Modes Using Magneto‐Active Substrates

Abstract: This work introduces NeoMag, a system designed to enhance cell mechanics assays in substrate deformation studies. NeoMag uses multidomain magneto‐active materials to mechanically actuate the substrate, transmitting reversible mechanical cues to cells. The system boasts full flexibility in alternating loading substrate deformation modes, seamlessly adapting to both upright and inverted microscopes. The multidomain substrates facilitate mechanobiology assays on 2D and 3D cultures. The integration of the system w… Show more

“…Astrocytes, like other cells, respond to physical changes in the extracellular matrix (ECM) by converting structural changes of the parenchyma into intracellular signals through a process known as mechanotransduction ( Chen and Qiu, 2022 ; Donnaloja et al, 2023 ). Extreme mechanical stress may be exerted on parenchymal fluid routes in a variety of pathologies, like TBI ( Gomez-Cruz et al, 2024 ), and could potentially contribute to the reduced glymphatic transport observed in fluidopathies. Astrocyte endfeet are particularly sensitive to shear forces of ISF flux driven by vascular pulsatility, especially where the BBB is compromised and flow velocity is reduced ( Momin et al, 2021 ).…”

Astrocyte regulation of extracellular space parameters across the sleep-wake cycle

“…Astrocytes, like other cells, respond to physical changes in the extracellular matrix (ECM) by converting structural changes of the parenchyma into intracellular signals through a process known as mechanotransduction ( Chen and Qiu, 2022 ; Donnaloja et al, 2023 ). Extreme mechanical stress may be exerted on parenchymal fluid routes in a variety of pathologies, like TBI ( Gomez-Cruz et al, 2024 ), and could potentially contribute to the reduced glymphatic transport observed in fluidopathies. Astrocyte endfeet are particularly sensitive to shear forces of ISF flux driven by vascular pulsatility, especially where the BBB is compromised and flow velocity is reduced ( Momin et al, 2021 ).…”

Astrocyte regulation of extracellular space parameters across the sleep-wake cycle