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March 3, 2026
Engineered M2-sEV encapsulated Se-mRh nanoparticles with Fe2+ chelating capability inhibit ferroptosis for Alzheimer's disease treatment
CJ
Chaonan Jing
KG
Kezhen Ge
Xuzhou Medical College
DY
Dehong Yu
Xuzhou Medical College
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Puntos clave
Inhibition of ferroptosis was observed, showing potential therapeutic effects in Alzheimer's disease.
The engineered M2-sEV encapsulated Se-mRh nanoparticles effectively chelate Fe2+, reducing oxidative stress.
Analysis was conducted using innovative nanoparticle technology to assess cellular responses in Alzheimer’s models.
This approach highlights the potential role of ferroptosis inhibition in therapy; further validation is necessary.
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Jing et al. (Thu,) studied this question.
synapsesocial.com/papers/69a767a2badf0bb9e87e1bd1
https://doi.org/https://doi.org/10.1016/j.cej.2026.173795
Engineered M2-sEV encapsulated Se-mRh nanoparticles with Fe2+ chelating capability inhibit ferroptosis for Alzheimer's disease treatment | Synapse