1. Light-Emitting Diode Photobiomodulation After Cerebral Ischemia
- Author
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Bárbara Argibay, Francisco Campos, María Perez-Mato, Alba Vieites-Prado, Clara Correa-Paz, Esteban López-Arias, Andrés Da Silva-Candal, Vicente Moreno, Carlos Montero, Tomás Sobrino, José Castillo, and Ramón Iglesias-Rey
- Subjects
functional recovery ,ischemic stroke ,photobiomodulation therapy ,magnetic resonance imaging ,animal model ,intracerebral hemorrhage ,Neurology. Diseases of the nervous system ,RC346-429 - Abstract
Photobiomodulation (PBM) therapy is a promising therapeutic approach for several pathologies, including stroke. The biological effects of PBM for the treatment of cerebral ischemia have previously been explored as a neuroprotective strategy using different light sources, wavelengths, and incident light powers. However, the capability of PBM as a novel alternative therapy to stimulate the recovery of the injured neuronal tissue after ischemic stroke has been poorly explored. The aim of this study was to investigate the low-level light irradiation therapy by using Light Emitting Diodes (LEDs) as potential therapeutic strategy for stroke. The LED photobiomodulation (continuous wave, 830 nm, 0.2–0.6 J/cm2) was firstly evaluated at different energy densities in C17.2 immortalized mouse neural progenitor cell lines, in order to observe if this treatment had any effect on cells, in terms of proliferation and viability. Then, the PBM-LED effect (continuous wave, 830 nm, 0.28 J/cm2 at brain cortex) on long-term recovery (12 weeks) was analyzed in ischemic animal model by means lesion reduction, behavioral deficits, and functional magnetic resonance imaging (fMRI). Analysis of cellular proliferation after PBM was significantly increased (1 mW) in all different exposure times used; however, this effect could not be replicated in vivo experimental conditions, as PBM did not show an infarct reduction or functional recovery. Despite the promising therapeutic effect described for PBM, further preclinical studies are necessary to optimize the therapeutic window of this novel therapy, in terms of the mechanism associated to neurorecovery and to reduce the risk of failure in futures clinical trials.
- Published
- 2019
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