Mesenchymal derived exosomes enhance recovery of motor function in a monkey model of cortical injury | Zendy

Tara L. Moore | Zendy; Bethany Bowley | Zendy; Monica A. Pessina | Zendy; Samantha M. Calderazzo | Zendy; Maria Medalla | Zendy; Veronica Go | Zendy; Zhixian Zhang | Zendy; Michael Chopp | Zendy; Seth P. Finklestein | Zendy; Allen G. Harbaugh | Zendy; Douglas L. Rosene | Zendy; Benjamin Buller | Zendy

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Mesenchymal derived exosomes enhance recovery of motor function in a monkey model of cortical injury

Author(s) -

Tara L. Moore,

Bethany Bowley,

Monica A. Pessina,

Samantha M. Calderazzo,

Maria Medalla,

Veronica Go,

Zhixian Zhang,

Michael Chopp,

Seth P. Finklestein,

Allen G. Harbaugh,

Douglas L. Rosene,

Benjamin Buller

Publication year - 2019

Publication title -

restorative neurology and neuroscience

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.768

H-Index - 77

eISSN - 1878-3627

pISSN - 0922-6028

DOI - 10.3233/rnn-190910

Subject(s) - neuroscience , mesenchymal stem cell , motor function , microvesicles , function (biology) , medicine , biology , pathology , physical medicine and rehabilitation , microbiology and biotechnology , microrna , biochemistry , gene

Exosomes from mesenchymal stromal cells (MSCs) are endosome-derived vesicles that have been shown to enhance functional recovery in rodent models of stroke.

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