Blog
Red Light Therapy for Stroke
Ischemic stroke is a type of cardiovascular disease in which the blood flow to the brain is disrupted. Annually, close to 800 000 people have strokes in the US, with an economic cost of close to 57 billion dollars. Although some people recover fully from a stroke, it can cause permanent disability and death. The risk of stroke increases with age, but it can occur across all age groups. One little-known lifestyle factor that influences our cardiovascular system health is sunlight. In contrast to our ancestors, who spent approximately half the day exposed to sunlight, our modern lifestyles have us spending close to 90% of our lives indoors. This reduction in sun exposure is increasingly being recognized as a “real public health health problem”. Exposure to the primary wavelengths of light that are found in the sun – which are red and near infrared light – can be supplemented using red light therapy. Red light therapy is the application of artificially generated light in the red and /or near infrared spectral bands. The term “red light therapy” usually describes the use of both red and near infrared light, although only the red light produced by the device is visible to the naked eye. Infrared light can still be perceived by the body as heat when it contacts skin. The red light used in light therapy usually ranges from 600 to 700 nanometres (nm), with the unit nm referring to distance the light wave travels in one cycle. The near infrared used in light therapy usually ranges from 800 to 1100nm. Red light therapy has shown small, but promising, effects in studies with stroke patients. Using near infrared laser light technology, it was found that treatment improved outcomes when used within 24 hours after a stroke. A larger follow up study showed smaller effects, but there was still a positive trend towards better outcomes. Studies in animal models have shown many benefits when light therapy is used shortly after a stroke occurs. These include increasing the production of new neurons (neurogenesis), decreased inflammation, and improved mitochondrial function. The effects of light on mitochondria is very important in improving stroke outcomes, since mitochondria are responsible for protecting and maintain neurons. Light therapy may work synergistically with other non-invasive treatments for stroke, such as Coenzyme Q10. When using red light therapy to support stroke recovery and the cardiovascular system of the brain, the Fringe red light therapy head wrap is the best option. With wavelengths of red (650nm), near infrared (810nm), and deep penetrating near infrared light (1050nm), it delivers light to the front, back, and sides of the head. Unlike most devices on the market, the Fringe red light therapy head wrap is wireless and flexible, making it both comfortable and portable. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
Learn more
Red Light for Hypertension
High blood pressure, also known as hypertension, is blood pressure that is higher than normal. There are often no signs that someone has high blood pressure, which is dangerous since untreated hypertension can lead to heart attacks and strokes. It can also damage the eyes, kidneys, and brain. Blood pressure is related to the widening of blood vessels, called vasodilation. Vasodilation is widening or relaxation of the blood vessels, and increased vasodilation reduces blood pressure. Vasodilation also increases the flow of blood throughout the body, which delivers more nutrients and oxygen to cells. When red and near infrared light are absorbed by molecules in mitochondria, the process by which ATP production increases also has the effect of increasing levels of nitric oxide. Increasing vasodilation would have a wide range of cardiovascular benefits including decreasing blood pressure. Studies in animals have shown clearly that red light therapy can lower blood pressure. Application of a red light laser to the abdomen of hypertensive rats has been shown to decrease blood pressure, with the effect being mediated by the release of nitric oxide. In rats, red light therapy has also been found to prevent the increase in blood pressure that is associated with eating a high fat diet. The strength of this research has led scientists to suggest that red light therapy could be used in humans to decrease blood pressure and reduce the risk of diseases like Alzheimer’s and Parkinson’s, for which high blood pressure is a risk factor. Research is currently underway to see if red light applied by a bracelet to the arteries in the wrist can lower blood pressure. Since research showing that red light reduces blood pressure has been done in animal models, recommendations regarding how to use red light therapy to affect blood pressure are based on inference, rather than on direct research. It is most likely best to cover as much of the body as possible with light, with a focus on the upper chest and neck. The neck contains cells that are specifically designed to regulate blood pressure, called baroreceptors. We recommend using the Fringe red light panel to shine light on the upper chest and neck for 10-20 minutes per day, 3-7 times per week. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
Learn more
Transcranial Photobiomodulation for The Management of Depression
Authors: P. Askalsky, D.V. Iosifescu Background: Depression is a major public health problem that affects 322 million people worldwide with a lifetime prevalence of 20%. Depression is widely treated with antidepressants, but some patients have a poor response and many experience side effects. A novel non-pharmaceutical approach to treating depression is the use of light therapy, called photobiomodulation. This is a type of “neuromodulation” in which the skull (cranium) is exposed to light at specific wavelengths. A 2019 article provided a comprehensive review of the research in this area, which is summarized here. Research Highlights: Studies have shown that near-infrared light penetrates the skull better than red light, although penetration with both is impeded by bone. Longer wavelengths (measured in nm) penetrate better and pulsed emission is better than continuous. Lasers penetrate more deeply than LED lights. 2. Mitochondrial function, which is responsible for energy production, is reduced in patients with depression, and improvement in function with light therapy is thought to be the primary mechanism of benefit. 3. Transcranial light therapy may also help by increasing blood flow to the brain, possibly via effects on nitric oxide, and by increasing brain antioxidant levels. 4. Research using animal models has shown that light therapy reduces anxiety and depression-like behavior, as well as cortisol and glucose levels. Most animal research used laser light. 5. Research in humans has shown that light therapy can improve mood and reduce depression. Benefits are seen immediately following treatment although longer treatments may be more effective. Some studies used LED lights while some used lasers. 6. Transcranial light therapy is safe and well-tolerated. Fringe Commentary: Although research in humans is still limited, evidence suggests that transcranial light therapy may be effective in the treatment of depression. Most high-quality home light therapy devices have both red and infrared settings, offering the near infrared light that is recommended for this treatment. Home light therapy devices also use LED lights, which although not as penetrating as laser lights have still shown therapeutic benefit. Light therapy appears to be an effective non-pharmacological treatment for depression, which can be used safely by most patients. Link: https://pubmed.ncbi.nlm.nih.gov/31819453/
Learn more
red light and the sleep quality and endurance performance
Authors: J. Zhao, Y. Tian, J. Nie, J. Xu, & D. Liu Citation: Journal of Athletic Training (2012); 47(6):673-678 Background: Sleep is a critical component of athletic performance, both in terms of quantity and quality. Similarly, regular exercise is considered a “non-pharmacological” intervention for sleep disorders, and it is generally accepted that physical activity is good for sleep. This is a healthy symbiotic relationship, in which sleep supports exercise and vice versa. Combining exercise with other sleep supporting non-pharmacological interventions, such as light therapy, may be especially important in helping athletes sleep and perform better. Objective: This study investigated whether red light therapy improved the sleep quality and athletic performance of Chinese female basketball players. Who Was It? A total of 20 athletes participated in this study, 10 in the light therapy group and 10 in the placebo group. What Was Done? The red-light therapy group received 30 minutes of full body red light therapy for 30 minutes each night for 14 days. The placebo group lay in the red-light therapy device for the same time period but did not receive light therapy. Sleep quality, serum melatonin, and athletic performance were assessed before and after the two-week treatment period. What Happened? Some aspects of sleep quality improved with red-light therapy, including levels of daytime dysfunction. Serum melatonin was significantly higher following light therapy, and better sleep quality was correlated with higher levels of serum melatonin. Athletic performance after light therapy was more improved than in the placebo group. Fringe Commentary: This study demonstrated that the use of red-light therapy at night for two weeks improved measures of sleep quality, serum melatonin, and athletic performance in female basketball players. These results suggest that athletes, athletic therapists, and health care providers can use light therapy as a safe, non-pharmacological intervention to support sleep and physical functioning. Link: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3499892/pdf/i1062-6050-47-6-673.pdf
Learn more