Recent advances in low-level laser therapy on depression

Xu, Shiyao; Wan, Bo

doi:10.26599/sab.2022.9060026

Cited by 5 publications

(2 citation statements)

References 131 publications

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“…It was found that 3LT improves the healing of soft tissues, reduces inflammation, and relieves chronic and acute physical and mental pain [73][74][75][76][77][78][79][80].…”

Section: Physical Characteristics Of Low Power/cold Laser Toolmentioning

confidence: 99%

Early trauma, brain development, and a novel therapeutic approach

Friedman

2024

Neuropediatrics - Recent Advances and Novel Therapeutic Approaches

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Trauma can result from an event that is perceived as life-threatening or as having the potential of seriously harming oneself or others. Such experiences, often accompanied by intense fear, terror, and helplessness, can lead to the development of PTSS and PTSD. Response to trauma depends on trauma feature characteristics and specific personal factors. In clinical literature, PTSD is often accompanied by severe functional impairment and includes well-described symptoms. These create behavior that limits the person and causes functional damage over time. Moreover, PTSS in early age may lead to adverse structural and functional changes in the development of brain neural circuits. PTSD has been one of the most investigated themes in medicine, psychiatry, neurophysiology, and rehabilitation over the last years. HPA axis, neural inflammation, and the neural mitochondrial oxidative stress are involved in the molecular mechanism of PTSD, reducing neuroplasticity and synapse proliferation. Here, current data on PTSD causes and symptoms, and the mechanisms and functions of the mitochondrial stress response, are reviewed, leading to 3LT novel scientifically and clinically based therapeutic approach. 3LT tool, aimed to the neural molecular mechanism of PTSS, targets mitochondrial dysfunction for the prevention and correction of neural lesions associated with PTSD.

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“…It was found that 3LT improves the healing of soft tissues, reduces inflammation, and relieves chronic and acute physical and mental pain [73][74][75][76][77][78][79][80].…”

Section: Physical Characteristics Of Low Power/cold Laser Toolmentioning

confidence: 99%

Early trauma, brain development, and a novel therapeutic approach

Friedman

2024

Neuropediatrics - Recent Advances and Novel Therapeutic Approaches

View full text Add to dashboard Cite

show abstract

“…Thus, it can reduce glutamate excitotoxicity and improve depression side effects and complications. 61 We can take advantage of the unique low-energy light to execute the non-invasive combination approach or to boost favorable signaling pathways by engaging molecular signals. Deeper penetration is vital for the application of LLLT to reach deep brain tissues and activate preventive or regenerative processes, as well as preventing muscular atrophy in individuals who have lost their capacity to move normally.…”

Section: Low-level Light Therapy In Depressionmentioning

confidence: 99%

A Brief Review of Low-Level Light Therapy in Depression Disorder

Shirkavand,

Akhavan Tavakoli,

Ebrahimpour

2023

J Lasers Med Sci

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Introduction: Low-level laser therapy (LLLT), also called Photobiomodulation, has gained widespread acceptance as a mainstream modality, particularly in the form of photobiostimulation (PBM). Here in our review, we aim to present the application of LLLT to help with depression, explore potential action mechanisms and pathways, discuss existing limitations, and address the challenges associated with its clinical implementation. Method: In biological systems, the visible light with a wavelength range of 400–700 nm activates photoreceptors involved in vision and circadian rhythm regulation. The near-infrared (NIR) light with a wavelength range of 800-1100 nm exhibits superior tissue penetration capabilities compared to the visible light, which enables the non-invasive application of LLLT to various tissues. Results: By enhancing adenosine triphosphate (ATP) production using the respiratory chain, LLLT is able to enhance blood flow, reduce inflammation, support repair and healing, and enhance stem cell growth and proliferation. Preclinical studies using animal models have shown promising neuroprotective effects of the LLLT method on central nervous system (CNS) diseases, suggesting potential improvements in brain function for patients suffering from Alzheimer’s disease. In addition, it helps Parkinson’s patients with their movement problems and ameliorates mental disorders in individuals with depression. Conclusion: patients’ quality of life can be significantly enhanced. A comprehensive understanding of the protective effects and underlying mechanisms of LLLT will facilitate its therapeutic application in the future.

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Phototherapy and optogenetic stimulation improve cognitive function in sleep-deprived mice

Li,

Jiang

et al. 2024

J. Innov. Opt. Health Sci.

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The hippocampus is the brain structure that is responsible for the formation of learning memories. Sleep disorders leading to cognitive impairment are strongly associated with the hippocampus. Phototherapy offers a new physical therapy for the treatment of sleep disorders, with the advantages of being noninvasive and having few side effects. However, the mechanism by which phototherapy improves cognitive impairment caused by sleep disorders remains unclear. In this study, we used phototherapy combined with optogenetic technology to investigate the effect of noninvasive phototherapy on cognitive functions in sleep-deprived mice. Our results suggest that phototherapy might improve cognitive functions in sleep-deprived mice by modulating the hippocampus. Our study expands the research progress on noninvasive phototherapy for the treatment of sleep disorders.

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Recent advances in low-level laser therapy on depression

Cited by 5 publications

References 131 publications

Early trauma, brain development, and a novel therapeutic approach

Early trauma, brain development, and a novel therapeutic approach

A Brief Review of Low-Level Light Therapy in Depression Disorder

Phototherapy and optogenetic stimulation improve cognitive function in sleep-deprived mice

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