Photobiomodulation protects the retina from light-induced photoreceptor degeneration.

@article{Albarracin2011PhotobiomodulationPT,
  title={Photobiomodulation protects the retina from light-induced photoreceptor degeneration.},
  author={Rizalyn Albarracin and Janis T. Eells and Krisztina Valter},
  journal={Investigative ophthalmology \& visual science},
  year={2011},
  volume={52 6},
  pages={
          3582-92
        }
}
PURPOSE In this study, the hypothesis that near-infrared (NIR) light treatment (photobiomodulation) attenuates bright-light damage in the albino rat retina was tested. METHODS Young adult Sprague-Dawley (SD) albino rats were raised in dim (5 lux), cyclic light and then exposed to bright (1000 lux), continuous light for 24 hours. The animals were treated with 670-nm light (9 J/cm(2)) in an LED array before, during, or after exposure to light. The retinas were examined for function, structural… 
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670 nm PBM increased retinal mitochondrial cytochrome oxidase activity and upregulated the retina’s production of the key mitochondrial antioxidant enzyme, MnSOD, which attenuated photoreceptor cell loss and improved photoreceptors’ function.
670 nm light mitigates oxygen-induced degeneration in C57BL/6J mouse retina
TLDR
The damaging effects of hyperoxia on photoreceptors were ameliorated following pretreatment with 670 nm light in hyperoxic mouse retinas, and results suggest that pret treatment with 670-nm light may provide stability to photoresceptors in conditions of oxidative stress.
Photobiomodulation with 670 nm light increased phagocytosis in human retinal pigment epithelial cells
TLDR
Findings indicate that near-infrared light photobiomodulation (670 nm) may be a noninvasive, inexpensive, and easy adjunctive therapy to help inhibit the development of ocular diseases induced by the activation of phagocytosis.
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TLDR
These findings have relevance to the cellular events of complement activation underling the pathogenesis of AMD, and highlight the potential of 670-nm light as a non-invasive anti-inflammatory therapy.
Efficacy of 670 nm Light Therapy to Protect against Photoreceptor Cell Death Is Dependent on the Severity of Damage
TLDR
In vitro, the Seahorse XFe96 Extracellular Flux Analyzer revealed that 670 nm light directly influences mitochondrial metabolism by increasing the spare respiratory capacity of mitochondria in 661 W photoreceptor-like cells in light damaged conditions.
Near-Infrared Photobiomodulation in Retinal Injury and Disease.
TLDR
Investigations in rodent models of methanol-induced ocular toxicity, light damage, retinitis pigmentosa and age-related macular degeneration have demonstrated the PBM attenuates photoreceptor cell death, protects retinal function and exerts anti-inflammatory actions.
Protective effect of light emitting diode phototherapy on fluorescent light induced retinal damage in Wistar strain albino rats.
Photobiomodulation preserves mitochondrial redox state and is retinoprotective in a rodent model of retinitis pigmentosa
TLDR
The findings demonstrate for the first time a direct effect of NIR PBM on retinal mitochondrial redox status in a well-established model of retinal disease and show that chronic proteotoxic stress disrupts retinal bioenergetics resulting in mitochondrial dysfunction, and retinal degeneration and that therapies normalizing mitochondrial metabolism have considerable potential for the treatment ofretinal degenerative disease.
Photobiomodulation Mediates Neuroprotection against Blue Light Induced Retinal Photoreceptor Degeneration
TLDR
The results support the hypothesis that energy metabolism is a major target for retinal light therapy and identified mitochondria related RL- and NIRL-triggered defense mechanisms promoting photoreceptor neuroprotection.
Light-Emitting Diode Laser Therapy for Hyperoxia-Induced Retinal Abnormalities.
TLDR
Light-emitting diode laser therapy was found to be a useful treatment paradigm for reducing hyperoxia-induced retinal damage and showed remarkable improvement in the retinal protein contents, oxidative state, and retinal structure after light-emitted diode lasers therapy.
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