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Neuroprotective and Neurotoxic Effects of Glial-Derived Exosomes
Karina Oyarce
, María Yamila Cepeda
, Raúl Lagos
, Camila Garrido
, Ana María Vega-Letter
, María Garcia-Robles
,
Patricia Luz-Crawford
, Roberto Elizondo-Vega
*
*
Corresponding author for this work
Centro de Investigación e Innovación Biomédica
Programa de Inmunología
Universidad de los Andes
Doctorado en Biomedicina
Medicina
Facultad de Medicina
Claustro Doctorado en Biomedicina
Research output
:
Contribution to journal
›
Review article
›
peer-review
39
Scopus citations
Overview
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Keyphrases
Neurotoxic Effects
100%
Exosomes
100%
Neuroprotective Effect
100%
Glia
66%
Neurodegeneration
66%
Neuroinflammation
66%
Exosome Secretion
66%
Central Nervous System
33%
Molecular Mechanism
33%
Therapeutic Tool
33%
Growth Factors
33%
MicroRNA
33%
Astrocytes
33%
Oligodendrocyte
33%
Pathological Conditions
33%
Membrane Protein
33%
Glial Cells
33%
Non-coding RNA (ncRNA)
33%
Microglia
33%
Neurotrophic Factors
33%
Molecular Cargo
33%
Specific Stresses
33%
Protective Effect
33%
Cell-cell Communication
33%
Diagnostic Tool
33%
Misfolded Proteins
33%
Soluble Protein
33%
Stress Stimuli
33%
Damaging Effects
33%
Stimulus Condition
33%
Environmental Context
33%
Neuroscience
Microglia
100%
Glia
100%
Neuroprotective Agent
100%
Neurodegeneration
100%
In Vitro
50%
Central Nervous System
50%
Astrocyte
50%
Oligodendrocyte
50%
MicroRNA
50%
Protein
50%
Neurotrophic Factor
50%
Cell Communication
50%
Growth Factor
50%
Long Non-Coding RNA
50%
Biochemistry, Genetics and Molecular Biology
Secretion (Process)
100%
Microglia
100%
Cytokine
50%
Animal Model
50%
Growth Factor
50%
MicroRNA
50%
Astrocyte
50%
Cell Communication
50%
Neurotrophic Factor
50%
Oligodendrocyte
50%
Glial Cells
50%
Long Non-Coding RNA
50%
Soluble Protein
50%
Pharmacology, Toxicology and Pharmaceutical Science
Neuroprotective Agent
100%
Nerve Degeneration
100%
Nervous System Inflammation
100%
Cytokine
50%
Growth Factor
50%
microRNA
50%
Long Untranslated RNA
50%
Protein
50%
Neurotrophic Factor
50%