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Red Light Therapy for Anti Aging
Light therapy (also known as photobiomodulation) is the application of light with specific wavelengths to the body for the purposes of influencing biology. The most common form of light therapy uses red light, which is visible as the color red, and/or near infrared light, which is not visible but can be felt as heat. Blue light is also often used in light therapy for skin conditions. Different colors of light have different depths of skin penetration, with red light and near infrared light penetrating the deepest. Light therapy can support skin health in a variety of different ways. Through its effects on mitochondria, light therapy can increase cellular energy production and modulate oxidative stress. In the skin, this increased energy can be used to support normal processes such as collagen and elastin production. And by modulating ROS production and oxidative stress, there is a shift towards skin rejuvenation rather than skin breakdown. The anti-aging effects of light therapy are often referred to as “skin rejuvenation”. This includes outcomes like increased collagen synthesis, increased elastin production, extracellular matrix regeneration, regulation of oil production, and regulation of the pigment producing cells of the skin. Clinically, these manifest as reduced wrinkles, improved skin appearance, and improved skin pigmentation. Studies show results such as smoother skin, wrinkle reduction and improved skin elasticity, and normalization of skin pigmentation. The effect of red light therapy on wrinkles can be quite dramatic, with one study showing a 30% decrease in eye wrinkle volume. Most skin rejuvenation studies use both red and near infrared light. Importantly, the use of light therapy to regenerate skin is gentle and “non-ablative”, which means that it doesn’t harm the epidermis of the skin and require downtime for healing. This contrasts with many popular anti-aging treatments such as microneedling, chemical peels, and microdermabrasion, which stimulative collagen synthesis and improve appearance by damaging and resurfacing the outer layer of the skin. At Fringe, we view aging as something to be embraced and supported using natural therapies, which is why we developed the Fringe red light face mask. Our mask is hands free, wireless, and uses 234 hard working LED light chips to deliver red and near infrared light to the entire face. It also has the option to deliver blue light if blemishes are a problem. Use the healing power of light and treat yourself to healthy, radiant looking skin in the comfort of your own home! For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
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Red Light Therapy for Depression
Depression is a highly prevalent mood disorder, affecting at least 21 million people in the US in 2021. Depression disproportionately affects young people, with considerably higher rates in people aged 18-25. In the United States, $71 billion is spent treating depression each year by individual patients, government, and insurance programs, and depressive disorders are the sixth most costly health condition overall. Depression tends to be chronic with high rates of recurrence and remission. Depression is widely treated with antidepressants, such as selective serotonin reuptake inhibitors (SSRI’s), but some patients are unresponsive, and many do not achieve full remission. They are also associated with many side effects. In a large analysis of 131 randomised, placebo-controlled trials, it was found that while SSRI’s may reduce depressive symptoms, they increase the risk of serious and non-serious adverse events to the extent that the researchers concluded “the potential small beneficial effects seem to be outweighed by harmful effects”. While depression is associated with psychosocial factors such as trauma, there is also often an underlying brain pathology. In particular, depression has been associated with impaired functioning of brain mitochondria, brain inflammation, and oxidative stress, all of which may be improved by treatment with red and near infrared light. Several clinical trials of light therapy in depression have been conducted, all of which used near infrared light applied directly to the head. A 2022 systematic review concluded that near infrared light therapy “can be classified as strongly recommended for moderate grade of major depressive disorder”. Similarly, a 2023 meta-analysis of human studies concluded that there is a “promising role of in the treatment of depressive symptoms”. When using red light to treat depression, light can be applied to the head using a head wrap or helmet. Most commonly, near infrared light is used because it penetrates more deeply into the brain, but red light may also be helpful. The Fringe red light head wrap contains 450 LED chips that deliver two wavelengths of deep penetrating near infrared light along with red light to the forehead, sides, top and back of the head. Wireless, portable, and flexible, it is an ideal way to support brain health in the comfort of your own home. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
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Light Therapy for Acne
Red & Blue Light for Acne Red and near infrared light therapy is the application of artificially generated light in the red and near infrared spectral bands. Other forms of light therapy include light in the blue spectrum, which is often used in light therapy for skin conditions. Blue light has the shortest wavelength, red light is intermediate, and near infrared light wavelengths are the longest. Different colors of light have different depths of skin penetration, with red and near infrared penetrating the deepest. Blue light from light therapy devices mimics the blue light generated from the sun, without any harmful UV rays. In contrast, artificial blue light generated from electronic devices has different spectral properties and can be harmful to the skin. Red, near infrared, and blue light have all been found to effectively treat acne. Acne is a common skin condition, affecting nearly 10% of people worldwide. Prevalence is highest in adolescents, with up to 85% having acne at some time during this period. Acne is not only painful, but it can also have adverse effects on many aspects of life, including social, psychological, and economic. Since acne has been observed to respond positively to sun exposure, a variety of treatment approaches using light therapy have been used. Light therapy for acne is treated in a variety of ways. Molecules in the skin called porphyrins absorb blue light which has antimicrobial effects that kill the bacteria associated with acne. Red and near infrared light also have antimicrobial effects but work via a different mechanism. The longer light wavelengths also reduce the activity of sebaceous glands, which are responsible for oil production. Treatment with blue, red, and near infrared light has been found to effectively treat acne, especially when used in combination. The Fringe Red Light Face Mask delivers both red and near infrared light as well as blue light to support skin health, including the treatment of acne. Made of soft silicone and battery powered, the mask is comfortable to wear and easy to use. The mask has three modes of use, which can deliver blue, red, or red and near/infrared. These can be combined in sequence for exposure to multiple wavelengths. Our recommended treatment protocol of light therapy for acne is to use blue daily and follow this with red/near infrared 3 to 4 times per week. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
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Light Therapy for the Lymphatic System
What is the lymphatic system? Of all the systems of the body, the lymphatic system is probably the most underappreciated and misunderstood. Many people have never even heard of it, and of those who have, most don’t really know what it does. Even medical doctors report that their understanding of the lymphatic system is “suboptimal”, and that the teaching of this system and its associated diseases in medical school was insufficient. Anatomically, the lymphatic system can be thought of as a network of vessels and organs that carry a clear fluid called lymph. The system largely travels alongside the system of blood vessels in the body. The lymphatic system includes hundreds of lymph nodes, which can sometimes be felt superficially in regions like the neck, armpit and groin. The tonsils are considered lymph nodes, but due to their size are sometimes referred to as lymphoid organs. Other lymphoid organs include the bone marrow, spleen and thymus. Lymphoid organs produce cells called lymphocytes, which are immune cells. The lymphocytes are carried in the lymphatic fluid throughout the body. The lymphatic fluid (or lymph) is mostly produced by liver and intestines. In addition to lymphocytes, lymph also carries fat, proteins, and pathogens. It can also carry cancer cells, making the lymphatic system a potential route for cancer metastasis. This is why it is standard practice to biopsy lymph nodes near a tumor to determine if the cancer has spread. Lymph flows in one direction, upwards towards the neck, which requires the vessels to have one-way valves that prevent backflow and a pumping system that involves both extrinsic and intrinsic forces. Extrinsic forces include skeletal muscle contractions, while intrinsic forces involve contractions of lymphatic muscle cells. When pumping is impaired, lymph fluid will accumulate (usually in the extremities) and cause swelling, also referred to as edema. The lymph composition reflects the functions of the lymphatic system. These include: (1) carrying out many activities of the immune system (such defending against invading pathogens), (2) transporting and absorbing fats and fat-soluble vitamins, (3) maintaining fluid balance, and (4) removing cellular waste, which is recycled by the liver. These functions are essential to maintaining health, and impairment of lymphatic system function can cause a wide range of problems including (but not limited to) lymphedema (tissue swelling), autoimmune diseases, and cancer. The lymphatic system can ultimately be viewed as inseparable from the immune system, although it also has additional roles that make it distinct. It can also be thought of as a “subsystem” of the circulatory system, because it absorbs plasma that escapes from the blood and that contains important nutrients which are returned to the bloodstream through lymphatic vessels. Lymphatic vessels dump directly into the circulatory system through the venous system. This happens in the neck, where the lymph dumps into vessels such as the subclavian vein. Between 8 and 12 litres of fluid per day is returned to the blood through the lymphatic system. Although it was previously thought that the lymphatic system was not found in the brain, a network of brain lymphatic vessels was recently identified. These vessels are found in the meninges, which make up the outer three layers of the brain and spinal cord. Meningeal lymphatics drain cerebrospinal fluid (which surrounds the brain) into lymph nodes in the neck and help to clear waste out of the brain. It is also a “pipeline” for immune cells. The lymphatic system in the brain has been termed the “glymphatic system” and is especially active during sleep. This system has been linked to brain diseases such as dementia, including Alzheimer’s. There are many ways to support lymphatic system health, such as with exercise and massage, which support the flow of lymph. Lymphatic system health is also supported by minimizing the intake of toxins through food, water, and the environment. Another supportive tool is red light therapy, which has recently been identified as an effective way to optimize the health of the lymphatic system and can be done at home using devices including panels and wraps. What is red light therapy? 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. Red and near infrared light therapy is the application of artificially generated light in the red and near infrared spectral bands. Red and near infrared light are naturally produced by the sun, which gives off solar radiation. The term radiation describes energy that is transmitted in the form of waves or particles. The spectrum of light in our environment consists of both light we can see (visible light) and light that our eyes can’t perceive (invisible light). This is called the electromagnetic spectrum. The visible light spectrum is quite narrow, consisting of wavelengths that range from 400 to 700nm and span from violet to red in color. Red light is part of this visible light spectrum, while near infrared light is not. While early research on light therapy used primarily lasers, more recent research has found that LED’s can also be used, which also have the advantage of applying light to a larger area of the body as well as an improved safety profile. The use of LED in red/near infrared light therapy devices has also greatly reduced the cost of treatment, making it something that can be done in the comfort of one’s own home. What is the evidence that that red light therapy affects the lymphatic system? Before we dive into looking at some of the general mechanisms by which red light therapy affects the lymphatic system, let’s look at some of the research evidence that specifically demonstrates the utility of red light in treating disease via lymphatic system modulation. While this is a very new area of research, many compelling studies have shown red light therapy to be helpful in improving the function of this important system. Glymphatic System – The glymphatic system of the brain is a key player in diseases of the brain, including dementia, Alzheimer’s, and Parkinson’s disease. The ability to clear waste from the brain is described as the glymphatic system’s “most central” function – which means that waste buildup will result when the system is impaired. Glymphatic system function declines with age and because of disease and trauma, such as stroke and traumatic brain injury. It is critical to brain health to support glymphatic function. Red light therapy was recently described as “a non-invasive neuroprotective strategy for maintaining and optimizing effective brain waste clearance” via the glymphatic system. As evidence, near infrared light has been shown to activate the glymphatic system in the brains of diabetic mice. Similarly, in animal models of Alzheimer’s Disease, application of both red and near infrared light increases glymphatic system activity and results in clearance of amyloid, which is a toxic protein. Red light therapy has been shown to be improve symptoms of Alzheimer’s disease and other forms of dementia in humans, and although these studies have not specifically looked at glymphatic function, it is likely that it is affected. Red light therapy has also been shown to improve glymphatic system function in brain injuries. In rats with experimentally induced intraventricular hemorrhage (which mimics stroke), application of near infrared light increases lymphatic drainage and speeds the rate of recovery. And in ex-football players suffering from chronic traumatic encephalitis, application of near infrared light caused lymphatic vessels in the brain to dilate, which would be expected to increase flow and clearance of waste from the brain. Since this system is particularly active during sleep, using red light therapy during sleep or in the evenings might be most helpful. Lyphedema – Lymphedema is swelling that occurs because of lymph buildup. This usually happens in the legs or arms, but it can occur in other areas as well. Primary lymphedema is a result of a problem present from birth, while secondary lymphedema is acquired, usually from an infection, cancer, or as a consequence of cancer treatment. The underlying cause of lymphedema is disruption of the lymphatic system, which prevents the proper flow and drainage of lymph. Lymphedema is usually chronic and progressive, and symptoms can greatly affect quality of life. Most research on red light therapy and lymphedema has focused on breast cancer patients. Breast cancer treatment often involves removal of lymph nodes from around the breast, and/or radiation, which can disrupt the flow of lymph out of the arm. In a review of nine studies using red light therapy to treat breast cancer related lymphedema, overall, both a reduction in size of the affected arm and pain was achieved. Eight studies used near infrared light while one used red light, and all but one study specified directing the light therapy to the armpit region. Three studies also targeted other areas on the arm. The observed reduction in arm size was expected to be clinically meaningful. Red light therapy may also reduce lymphedema of the head and neck. Lymphedema in this area is usually caused by radiation in patients with head and neck cancers. Lymphedema here can be very problematic, causing problems with eating and swallowing. Red light therapy may help to reduce edema in the area, as well as to improve the condition of the skin. Inflammation – Inflammation is a hallmark of many diseases currently ravaging modern society, such as arthritis, ulcerative colitis, inflammatory bowel disease, heart disease, diabetes, cancer, Alzheimer’s Disease, and depression. Inflammation is also associated with acute diseases involving the heart, pancreas, liver, and other organs, as well as trauma and infection. Treatment of inflammation associated diseases makes up the majority of health care spending in the US, costing billions of dollars annually. The lymphatic system plays a key role in regulating inflammation, and increased activity of the lymphatic system has been associated with reduced inflammation since it helps to remove excess fluid. Red light therapy’s ability to decrease inflammation has been well-established. As described by Dr. Michael Hamblin, former Associate Professor at Harvard Medical School, “one of the most reproducible effects of is an overall reduction of inflammation”. Studies have found that light therapy affects levels of many molecules involved in inflammation, including reactive oxygen species, reactive nitrogen species, and prostaglandins. Light therapy has even been found to reduce inflammation in the brain, known as neuroinflammation. Although the role of the lymphatic system in inflammation is well established, most studies using red light therapy to decrease inflammation have not specifically assessed its effect on the lymphatic system. However, when this relationship was investigated, it was found that application of near infrared light to lymph nodes caused a decrease in inflammation and related swelling. How does red light therapy affect the lymphatic system? Clearly, red light therapy has many positive effects on the lymphatic system of the body and the glymphatic system of the brain. Research on precisely how red and near infrared light mediate these benefits is not extensive, but there are several general mechanisms that have been identified. Relaxing Lymphatic Vessels – Red light therapy can induce the relaxation of lymphatic vessels. This happens through a process called vasodilation. When lymphatic vessels are more relaxed, the flow of lymph is increased. This has been observed experimentally to occur in the glymphatic system of the brain. In the brain, increased vasodilation may allow larger molecules (such as the amyloid protein) to pass into the lymph, improving the clearance of waste. Vasodilation may be due to increased production of nitric oxide, which could act on smooth muscle cells that are the “motor unit” of lymphatic drainage. New Lymphatic Vessel Synthesis - Lymphangiogenesis is the process of formation of new lymphatic vessels. In a mouse model of lymphedema, application of red light therapy induced lymphangiogenesis, suggesting that in conditions where lymph flow is impaired due to lymphatic system damage, red light therapy may restore function by supporting the production of new lymphatic vessels. Activating Mitochondria – Mitochondria are found in cells throughout the lymphatic system. Mitochondria are right in molecules called chromophores, which absorb light. Specifically, red and near infrared light stimulate cytochrome c oxidase, a mitochondrial enzyme that produces ATP, the energy currency of the cell. This increases ATP synthesis which provides more energy to cells throughout the lymphatic system. Rd light therapy has been shown to modulate oxidative stress and reactive oxygen species production, which might improve the function of lymphatic system cells. Stimulating Lymphoid Organs – Lymphoid organs are affected by aging, which leads to impaired functioning of the immune system and increases susceptibility to illness. This primarily affects the thymus gland, which is found in the upper chest behind the sternum. Application of red light therapy to the thymus through the chest wall may support thymus health and decrease age associated changes and could perhaps support thymus function throughout the lifespan. Application of red light therapy to other areas, such as lymph nodes, may also support lymphatic system function through tissue stimulation. How do I choose a red light device to affect the lymphatic system? For at home use of red light therapy, the majority of products (especially the affordable ones) will use LED lights, rather than laser. While early light therapy research was done using lasers, LED lights have become much more popular over the last decade. In 2018, Dr. Michael Hamblin – the world’s leading light therapy expert – concluded that LED lights using comparable parameters to lasers performed “equally well”, which is very important because LED powered light therapy devices can be made at a fraction of the cost of laser devices. Laser powered devices are still a favorite in medical offices, which makes sense given their high cost and higher risk of adverse effects such as skin irritation. Red light products on the market vary quite a bit in terms of their intensity (or power) and the specific wavelengths of light that they deliver. Studies vary in both parameters, and it appears that a range of wavelengths and intensity are beneficial. For maximum versatility, it is recommended to choose a multiwavelength device that provides both red and near infrared light, since each has some unique cellular effects. In terms of intensity, it may be ideal to mimic the intensity of the sun, which is around 24 mW/cm2 at the skin. This is described as the “sweet spot” between higher intensities, which can have harmful effects, and lower intensities, which will have no effect at all. When using red light therapy to support the lymphatic system, choose a sun-mimicking product and don’t overdo it when it comes to treatment frequency and duration. Red light therapy devices come in several forms, many of which can be used to support the lymphatic system. Red light LED panels can be used to treat most body parts, including the face, chest and back. Panels provide broad coverage but do require you to stay stationary and seated during the treatment. Panels are a good choice for directing light at the lymphatics in the neck and upper chest, around the thymus gland. If you would prefer to lie down while doing a treatment, you would do better with a portable LED wrap rather than an LED panel. Portable devices are also the best choice if you would like to have the option of moving around during your treatment. Portable red light wraps can comfortably be used on most body parts except the head and neck. Red light wraps that are specifically designed for the head are the best option for targeting the glymphatic system in the brain, although this system can also be supported with an LED panel. Every person’s needs are unique, but there are many different device options to choose from. Conclusion Red light therapy can be used at home to support the health of the lymphatic system. Research has demonstrated that it is a safe and effective treatment for a range of disorders, such as dementia, lymphedema, and inflammation. By improving the structure and function of lymphatic vessels, red light therapy increases the flow of lymph. This may be especially important in the brain, where waste buildup can cause serious illness such as Alzheimer’s disease. Choosing the right product is easy: Select a red light panel or wrap that delivers red and near infrared light, mimics the intensity of the sun, and fits into your lifestyle. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
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Red Light Therapy for Gut Health
The Human Gut The human gut, also known as the gastrointestinal tract (GI tract), consists of the esophagus, stomach, small intestine, and large intestine. In simple terms, it is a tube or passageway for food that passes from the mouth to the anus. Each part of the gut has its own job to do, which is usually described as the digestion and absorption of food, and the excretion of digestive waste products. In recent years, however, a critical new role has emerged for the human gut, specifically the large intestine. As the last part of the GI tract, the large intestine receives food after most of the nutrients are absorbed and functions to reabsorb water and some remaining minerals. While this final step in the processing of food is essential, equally (if not more) important is the role of the large intestine as host to the gut microbiome, which is being described as a “major determinant of health.” The Gut Microbiome The human body contains over 150 times more genes from resident microorganisms (such as bacteria, viruses, and fungi) than from its own human cells. With a total weight of just over 2kg, microbial cells outnumber human cells by around 10 to 1. Most of these organisms went unrecognized until the last two decades. However, we now know that the body is literally teeming with invisible inhabitants, which comprise what is referred to as the human microbiome. The combined human and microbiome genome is referred to as the “holobiome”. The term “resident” is an apt descriptor when it comes to the microbiome. These organisms live inside the body, from birth to death. They also reside on the surface of the skin. And while the germ theory of disease has conditioned us to believe that most microorganisms are pathological, in fact the human microbiome is one of the most important biological predictors of health. The opposite is also true: alteration in the microbiome is an important predictor of disease. The microbiome communicates with the body, and the body communicates with the microbiome. This crosstalk is essential for human health. The human microbiome can be broken down into several divisions, based on location. The microbiome that lines the mouth is the oral microbiome; the microbiome that lines the skin is the cutaneous microbiome; the microbiome that lines the vagina is the vaginal microbiome; and the microbiome that lines the digestive tract is the gut microbiome. The gut microbiome is the most well researched biome. The role of the gut microbiome is complex and spans a wide range of diverse functions. Gut microbes are involved in the metabolism of carbohydrates, lipids, and proteins, and help to extract nutrients from food. In the gut, they produce useful molecules such as short chain fatty acids and vitamin K. Gut microbes also manufacture neurotransmitters such as serotonin, and through the gut brain axis, regulate many aspects of cognitive function. The microbiome is also involved in the metabolism of ingested drugs and toxins. The gut microbiome starts its development in utero and continues throughout the fetal period, with further colonization during delivery. Most gut microbes are acquired post partem, with breast milk as an important source in early life. A diet containing predominantly plants and whole foods is considered optimal to support the gut microbiome, with fiber being of utmost importance. Processed food, food that is high in sugar, and low fiber diets are bad for gut health. It has been recommended that dietary guidelines be revised to support a healthy gut microbiome. In addition to diet, there are several other factors that influence the health of the gut microbiome. According to the Canadian Digestive Health Association, non-dietary ways to strengthen the microbiome including: avoiding antibiotics, regularly sleeping for at least 8 hours per night, getting regular exercise, and engaging in stress reducing activities. Evidence is also accumulating that gut microbiome health can be supported by therapy with red and near infrared light. Light Therapy Light therapy (also known as photobiomodulation) is the application of light with specific wavelengths to the body for the purposes of influencing biology. The most common form of light therapy uses red light (RL), which is visible as the color red, and/or near infrared light (NIRL), which is not visible but can be felt as heat. The RL 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 NIRL used in light therapy usually ranges from 800 to 900nm. RL and NIRL are naturally produced by the sun, which gives off solar radiation. The term radiation describes energy that is transmitted in the form of waves or particles. The spectrum of light in our environment consists of both light we can see (visible light) and light that our eyes can’t perceive (invisible light). This is called the electromagnetic spectrum. The visible light spectrum is quite narrow, consisting of wavelengths that range from 400 to 700nm and span from violet to red in color. RL is part of this visible light spectrum, while NIRL is not. Red and near infrared light therapy is the application of artificially generated light in the red and near infrared spectral bands. The term “red light therapy” usually describes the use of both RL and NIRL, although only the red light produced by the device is visible to the naked eye. IRL can still be perceived by the body as heat when it contacts skin. How Does Red Light Therapy Affect Gut Health? Red light can affect gut health both through effects on the microbes in the microbiome, as well as on the gut cells of the human host. It’s hard to tease out precisely what is happening in this complex microenvironment, but one thing is clear: light therapy administered to the gut has a positive biological effect. Research has indeed shown that light can modify the microbiome. For example, when RL or NIRL was applied to the abdomen of mice, the composition of the microbiome shifted to include more of a bacterial strain that is associated with better health. Bacteria have also been found to respond to the direct application of RL. Light therapy also impacts human cells. Light is absorbed in cells by molecules called chromophores, many of which are found inside the mitochondria. Mitochondria are the powerhouses of the cell, which make the energy currency of the cell known as ATP. Mitochondria are also involved in regulating the production of molecules called reactive oxygen species (ROS), which play a role in normal cellular function but can be harmful in high amounts. This is known as oxidative stress. Through its effects on mitochondria, light therapy can increase cellular energy production and modulate oxidative stress. Intestinal oxidative stress is associated with disease. Through effects on cellular metabolism and ROS production, as well as through reduction of other molecules such as reactive nitrogen species and prostaglandins, light therapy can decrease inflammation. Both RL and NIRL have anti-inflammatory effects, and unlike anti-inflammatory medications (such as NSAID’s), do not cause side effects. Inflammation is a hallmark of many gut disorders, such as Crohn’s Disease and Ulcerative Colitis. By improving the health of the gut (both the microbiome and human gut cells), a wide range of positive effects are observed, including: Improving communication between microbiome and the rest of the body. Improving digestion of food and production of energy and nutrients. Decreasing inflammation and production of reactive oxygen species. Increasing production of short chain fatty acids involved in immune function. Improving the health of the gut lining. Gut Dysbiosis When the gut microbiome is dysregulated, there is an adverse effect on its human host. This is called gut dysbiosis. Poor dietary choices, sedentary lifestyle, increased stress, and use of antibiotics (and other pharmaceuticals) can cause the gut microbiome to become unhealthy. This causes a loss of integrity of the gut lining, also known as leaky gut. In turn, the gut becomes permeable to things like microbes and food fragments, which activate the immune system and trigger an inflammatory response. Chronic inflammation ensues, and a vicious cycle is established in which the gut becomes increasingly compromised, which worsens the inflammation. Dysbiosis also impairs metabolism. Gut dysbiosis has been associated with an enormous range of human disease, including metabolic syndrome, neurological disorders, immune system disorders, autism, psychiatric disorders, obesity, systemic inflammation/autoimmunity, type 2 diabetes, chronic pain, multiple sclerosis, inflammatory bowel disease, and eye diseases. A 2021 article in The Guardian described that “The great opportunity – but also the great difficulty – of gut microbiome science is that poor gut health is associated with such a vast range of conditions.” This means that there is enormous potential to reduce human disease by improving the health of the gut microbiome, although it is important to acknowledge that our understanding of these relationships is still limited. Clinical Applications of Light Therapy to the Gut The use of light to improve health dates back thousands of years. Sunlight has been used in medicine since at least the time of the Ancient Greeks, to treat conditions such as tuberculosis, skin disorders, and bacterial and fungal infections. However, the practice fell out of favor during the 20th century as modern societies embraced the medical pharmaceutical model of therapeutics. Over the last decade, there has been an increasing interest in harnessing the power of light as a therapeutic, and a wide range of applications are being explored. Several studies have investigated what happens when RL and/or NIRL light is applied to the abdomen. Interestingly, the bulk of this research has been done using abdominally applied light to treat brain disorders, rather than for GI tract diseases. This is because of the important relationship between the gut microbiome and the brain, through a pathway known as the gut-brain axis (GBA), which involves bidirectional communication between the gut (including the microbiome) and the brain. The GBA plays an important role in brain, gut, and immune health. Alterations in the gut microbiome may be associated with disease through the GBA. RL and NIRL applied to the abdomen (as well as the neck, head and nose) of Parkinson’s disease (PD) patients has been shown to modulate the composition of the gut microbiome, with a shift towards more “healthy” bacteria. Light applied to the abdomen and neck for 12 weeks also decreased symptoms such as impaired mobility in PD patients, with improvements lasting for up to a year. PD is a degenerative brain disease that causes motor symptoms (such as balance and gait problems) and non-motor symptoms (such as depression, sleep disorders, and cognitive impairment). It affects around one million people in the US, and over 10 million people globally. Application of RL and NIRL to the abdomen (as well as the head) has also been used in the treatment of Alzheimer’s Disease (AD). In a 2022 clinical trial of patients with mild to moderate AD, those receiving light therapy showed improved cognitive function relative to the control group. Alzheimer’s Disease (AD), a form of dementia, is a neurodegenerative disease that comprises 70% of dementia cases. AD affects 1 in 10 US adults over the age of 65, or 5.7 million Americans. It has been suggested that light therapy applied to the abdomen may be useful in reducing depression. The composition of the gut microbiome has been linked to depression, with depressive patients showing higher levels of certain bacteria that are involved in the synthesis of neurotransmitters such as serotonin and GABA. These neurotransmitters are involved in the regulation of mood. Gut microbiome composition has been strongly associated with mental well-being. Given the associations between brain diseases and the GBA, it has been suggested that targeting the microbiome holds great potential in the treatment of neurodevelopmental and neurodevelopmental diseases. In addition to AD and PD, these include diseases such as multiple sclerosis, autism spectrum disorder, attention-deficit hyperactivity disorder, migraine, post-operative cognitive dysfunction, and long COVID. According to researchers from Australia, many studies are currently underway “with the aim of restoring the microbiome and potentially altering the course of these brain conditions.” Light therapy may also be helpful in modifying the microbiome in diseases that primarily affect other body systems. For example, in a case report of a patient with breast cancer, application of NIRL to the abdomen was associated with increased diversity of gut microbes, which is considered to be a healthy change. The authors suggest that light therapy may be a way to improve gut health in patients with chronic disease. Most patients with chronic disease use medications which may adversely affect gut health (especially the microbiome). There is also great potential to use light therapy to treat gut disorders. For example, animal research has found that application of RL to the abdomen of rats with experimentally induced colitis (a form of inflammatory bowel disease) improved many markers of gut health, including reducing inflammation. There is interest in studying the use of light therapy to improve gut health in human subjects as well. Notably, a study using NIRL applied to the abdomen (as well as the front of both thighs) is currently underway to assess whether treatment reduces pain, fatigue, and depression in patients with inflammatory bowel disease. Effects on the gut microbiome will also be measured. Using Light Therapy for Gut Health There are many light therapy devices on the market today that could be used at home to target gut health. With so many options available, how can you know which device is best for you? Here are five issues to consider. Style Preference: To treat the gut with light therapy, light should be applied to the abdominal area. Two types of devices are most appropriate for abdominal applications: (i) a light panel, or (ii) a light wrap. Your personal level of comfort with a device is important. Imagine yourself using it – Do you want to stand in front of the device, or would you prefer the flexibility of being able to lie down while wearing it? Do you want a device that is wireless, or can you commit to being close to an electrical outlet so that you can plug it in? Think about your personal preferences and choose accordingly. Laser vs LED: Light therapy is administered using either laser or LED lights. While early light therapy research was done using lasers, LED lights have become much more popular over the last decade. The research described in this article includes both types of light sources. In 2018, Dr. Michael Hamblin – the world’s leading light therapy expert – concluded that LED lights using comparable parameters to lasers performed “equally well”, which is very important because LED powered light therapy devices can be made at a fraction of the cost of laser devices. For at home use, look for a device that uses LED lights as safe and affordable option. Light Color/Wavelength – As described in this article, both RL and NIRL have been used in studies of light therapy to treat gut disorders. Positive results have been observed when these wavelengths were used either together or individually. So, look for products that use RL and NIRL either alone or in combination. Light Intensity – Light intensity refers to the amount of light being delivered by a device. It is also referred to as irradiance. The required intensity when using light therapy to impact gut disorders is unclear. There is variability in light intensity between studies, and no studies have directly compared different intensities. Since light is being delivered to the skin of the abdomen, it may be prudent to follow the advice given for light therapy to the skin, and mimic the intensity of the sun, which is around 24 mW/cm2. This is described as the “sweet spot” between higher intensities, which can have harmful effects, and lower intensities, which will have no effect at all. Placing a high intensity device directly on the skin could be harmful. Choose a sun-mimicking product and don’t overdo it when it comes to treatment frequency and duration. Education – While light therapy education will not change the specific functionality of a device, it does have the potential to profoundly impact how someone uses the technology. When a company provides evidence-based education that teaches consumers why, how, and when to use a product, devices can be used to better support healing. Look for products with accompanying education and instructions for use, whether in printed and/or digital formats. You can also look for companies that provide support by phone or email to current or prospective customers. Conclusion Hippocrates is credited with stating that “All disease begins in the gut”. While today’s science does not yet support that level of conviction, we do know that gut health is intimately associated with the overall health of the human body. We also know that “what happens in the gut doesn’t stay in the gut”, but rather influences other organs and systems through complex communication networks. The gut microbiome is inextricable from our own human gut, and both are important for optimal health. When using light therapy for gut health, it’s important to also engage in other gut-friendly activities. These include eating a gut healthy diet, staying hydrated, exercising regularly, and limiting stress. It’s advisable to work with a health care provider with expertise in this area and who can provide appropriate support. Many questions remain about how light therapy can be used to support gut health, but preliminary pre-clinical and clinical evidence supports the use of RL and NIRL both to induce healthy shifts in the gut microbiome and to decrease inflammation. Since RL and NIRL also have other effects, such as increasing energy and decreasing ROS production, many other benefits are likely to be observed. This is certain to be an area of active research interest, especially given the amazing safety profile of light therapy and the increasing availability of at-home devices. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
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Red Light Therapy for Seasonal Affective Disorder
What is Seasonal Affective Disorder (SAD)? Seasonal Affective Disorder (SAD) is also known as the “winter blues” or “seasonal depression”. In the simplest terms, it is depression that follows a season pattern, usually occurring in the winter. SAD is considered a variant of Major Depressive Disorder or Bipolar Disorder, rather than a distinct condition. It is recognized in the Diagnostic Manual of Mental Disorders (DSM-5) and affects around 5% of US adults. January and February are the hardest months for people with SAD. The symptoms of SAD are similar to the symptoms of non-SAD depression, and include: feeling sad fatigue and loss of energy loss in interest or pleasure in activities changes in appetite and sleep (especially overeating and oversleeping) feeling worthless or guilty difficulty thinking, concentrating, or making decisions physical aches and pains thoughts of death or suicide. SAD occurs at a specific time of year and the diagnosis requires that it recurs at least two consecutive years in the same season. Symptoms last for around 4 to 5 months, and there is full remission of symptoms when the season ends. SAD usually occurs in the Fall or Winter. Risk factors for SAD include being female, living at a northern latitude, a family history of SAD, and being between 18 and 30 years of age. Both pharmacological and non-pharmacological treatments have been identified as first line therapies for SAD. Pharmacological treatments include antidepressant medications, such as selective serotonin reuptake inhibitors. Non-pharmacological treatments include cognitive behavioral therapy and light therapy. The goal of light therapy is to compensate for the loss of natural sunlight during the shorter and darker winter months, and most often involves exposure to bright white light. What is the relationship between light and SAD? The seasonal nature of SAD and its high prevalence during the winter months, along with resolution during warmer, sunnier seasons, suggests a causal relationship with sun and light exposure. Human biology is clearly linked with the rhythm of the sun, with people naturally following a sleep/wake cycle that is associated with night and day. This sleep/wake cycle is also known as our circadian rhythm. Circadian rhythms are the “physical, mental, and behavioral changes an organism experiences over a 24-hr cycle.” In addition to light and dark, circadian rhythms are also influenced by temperature, diet, exercise, stress, and social environment. Light, however, is the primary regulator, and it exerts this influence through effects on the brain. The influence of light on the brain starts with the eyes. Light enters the retina and activates cells called intrinsically photosensitive retinal ganglion cells. Retinal ganglion cells are active even in people who are completely blind, who show similar sleep and wake cycles to sighted people because of the response of these cells to light. Retinal ganglion cells show their greatest response to the blue light spectrum. Sunlight contains blue light, in addition to many other wavelengths of color. From the eyes, a signal is sent to the suprachiasmatic nucleus in the brain. Known as the “master circadian clock”, the suprachiasmatic nucleus is the most important circadian regulator. The clock in turn sends out many signals that regulate a wide range of processes in the body, including controlling the expression of up to 10% of our genes. Light is the primary regulator of this internal clock, although there are other non-light influences on this rhythm too. Melatonin and cortisol are the main hormonal mediators of the circadian rhythm, and the synthesis of both is regulated by light. Melatonin is secreted in response to the absence of light, triggering sleep. Cortisol is secreted in response to the presence of light, triggering wakefulness. The synthesis of both melatonin and cortisol is controlled by signals that come from the suprachiasmatic nucleus. In the winter months, decreased exposure to light causes the circadian rhythm to shift later in the day, which results in a misalignment between the sleep-wake cycle and the circadian rhythms’ natural processes. Exposure to certain types of light on winter mornings pulls the circadian rhythm back into alignment. Different types of light are known to have variable effects on the circadian rhythm. Both bright white and blue light suppress the release of melatonin, which promotes wakefulness. Blue light exposure can cause the circadian rhythm to shift even when applied later in the day, unlike bright white light which is more effective at causing a shift in the morning. Red light does not suppress melatonin levels or cause the circadian rhythm to shift. These variable effects of different wavelengths (colors) of light have important implications for light therapy, which is the application of external light sources to affect biology. Exposure to light has been clearly shown to be associated with mood. A study of over 400,000 people showed that increasing exposure to daylight associated with reduced risk of major depression and greater happiness. This may be mediated by serotonin, which is known as a “natural mood booster”. Serotonin is a critical link and regulator of both the circadian rhythm and mood, and levels increase with sun exposure. In contrast to the positive mood effects of sunlight exposure, exposure to artificial light later in the day can have adverse effects. In simple terms, the naturally stimulating effect of white and blue light on wakefulness is helpful in the early part of the day but is harmful in the evening and at night. The associations between light and levels of melatonin, cortisol, and serotonin provide clues as to how the dark, short days of winter can negatively impact mood. And while more research is needed to clearly understand the pathology of SAD, its positive response to light therapy suggest that light is one of the most important mediators. How is red light therapy for Seasonal Affective Disorder used? Light therapy is widely accepted as a first line non-pharmacological treatment for SAD. Usually, this involves treatment with bright light (called Bright Light Therapy, BLT), but dawn simulation is also used. Dawn simulation delivers light that gradually increases during the last half hour of sleep, while BLT delivers very bright light (most often white, but sometimes blue) shortly after waking. Bright light therapy has been shown to be more effective for people with more severe depression, but both are beneficial. As already described, retinal ganglion cells in the eye respond to light, particularly in the blue spectrum. White light contains all visible light frequencies, including blue, and both white and blue light promote wakefulness, in part through suppression of melatonin. This is why white and blue light are the main sources of light used in SAD light therapy. Light intensity is measured in Lux, and bright light is typically considered to be at least 10,000 Lux. Light intensity varies greatly, sometimes in surprising ways. Here are some light intensities under different conditions: Bright sunlight = 120,000 Lux Bright sunlight = 110,000 Lux Shaded area on a sunny day = 20,000 Lux Overcast day, midday = 1,000 – 2,000 Lux Sunrise/Sunset (clear day) = 400 Lux Sunrise/Sunset (overcast) = 40 Lux Moonlight (clear night) = 1 Lux Office lighting = 200 – 400 Lux Home lighting = 50 – 200 Lux In BLT, an external light source (usually called a “light box”) is used that delivers light at around 10,000 Lux. It is recommended to use BLT in the early morning shortly after waking for approximately 30 minutes. The person should position themself 60-80cm from the light box, with the light at eye level. Lower intensity light can be used (2,500 - 5,000 Lux) but with lower intensity light the treatment duration is extended to 1 to 2 hours. Treatment should be done until the season ends. Light used in BLT will be delivered by either fluorescent or LED lights. Fluorescent lights deliver white light, either warm or cool, while LED lights can deliver both white and blue light. White light is referred to as “colorless daylight” and is made up of all the frequencies in the visible light spectrum (including red, yellow, green, blue, etc.). White fluorescent bulbs and LED lights will also contain all of the visible light frequencies but they can vary in their spectral characteristics, such as the particular wavelength distribution and intensity. When the spectrum of light from bright light devices is analyzed, it varies depending on the light source. Fluorescent lights, both warm and cool, emit light that shows several peaks that correspond to different colors, including red. White LED diodes usually have a sharp blue peak, but they also contain wavelengths of different colors. The main difference between white and blue BLT devices is that white light contains multiple colors (called polychromatic), even though it appears white or colorless, while blue light is a singular color (called monochromatic). It is sometimes claimed that SAD light boxes provide a “hefty dose” of blue light. This is not entirely true. The spectral analysis of devices that use both warm and cool fluorescent lights reveals a mixture of wavelengths (yes, including blue), but their calculated “blue light hazard” level is actually quite low. Warm fluorescent light is a bit better than cool fluorescent light, which showed around the same blue light hazard as white LED light. It’s also important to note that blue light is “disruptive” to the circadian rhythm precisely because our bodies are naturally designed to respond to the blue wavelengths of light from the sun. When used in the morning, exposure to blue light (even artificial) provides a cue for the system to wake up. It should go without saying that bright light therapy devices should not be used in the evening. BLT has been found to effectively reduce the symptoms of SAD, although white light shows more effectiveness than blue light. A meta-analysis published in 2015 found that bright white light therapy was effective, although the effects were weaker at some time points. A meta-analysis of bright blue light therapy for SAD did not find it to be beneficial. How Does Seasonal Affective Disorder Relate to Different Wavelengths of Light? SAD is related to the lack of daylight, or sunlight, during winter months. Sunlight consists of solar radiation, which is energy that is transmitted in the form of waves or particles. The spectrum of light in our environment consists of both light we can see (visible light) and light that our eyes can’t perceive (invisible light). This is called the electromagnetic spectrum. The visible light spectrum is quite narrow, consisting of wavelengths that range from 400 to 700nm and span from violet to red in color. Although the amount of solar radiation is not constant, approximately 40% percent of the light from the sun is visible light, which can be divided by color and wavelength. Near infrared light waves lie just beyond the “red” end of the visible light spectrum, so we don’t see them. Near infrared light is part of the “infrared” spectrum, which consists of both near infrared and far infrared light. Infrared light makes up 50% of the solar radiation that reaches the earth. The remaining 10% of the light from the sun is also invisible, falling just beyond the opposite “violet” end of the visible spectrum to IR. This is called ultraviolet light (UVL). What this means is that BLT only partly mimics the natural effects of sunlight, since it delivers only visible light. Bright white light does not include light in the UV spectrum of the sun. This is done intentionally, since UV rays are the component of solar radiation that are the main culprits in causing skin cancer. Bright white light also does not include light in the infrared spectrum of the sun. This omission is less justified, since infrared light does not have harmful effects on the skin (quite the opposite, in fact), and infrared light makes up a significant amount of natural sunlight. BLT that uses blue light excludes not only UV and infrared light but also the non-blue wavelengths of light, including red, orange, yellow, green and violet. Does Red Light Therapy Improve Seasonal Affective Disorder? Red and near infrared light therapy is the application of artificially generated light in the red and 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. Like BLT, red and near infrared light therapy does not involve the use of UV rays. 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 light used in light therapy usually ranges from 800 to 1100nm. Interestingly, there are no clinical trials of red light therapy to treat SAD, but there are many that have been done looking at the effects of red light on non-SAD depression. All of the non-SAD clinical trials of red light therapy used near infrared light applied directly to the head. A 2022 systematic review concluded that near infrared light therapy “can be classified as strongly recommended for moderate grade of major depressive disorder”. Similarly, a 2023 meta-analysis concluded that there is a “promising role of in the treatment of depressive symptoms”. These results demonstrate that red light therapy has positive effects on mood. Another challenging symptom of SAD is sleep disturbance, which is another issue that red light therapy has been found to help. Application of red light therapy during wakefulness improves sleep quality in people with cognitive decline, Guillain-Barré Syndrome, fibromyalgia and stroke. Interestingly, sleep duration decreased with full body red light therapy in elite athletes, while other parameters such as exercise recovery improved. When red light therapy is applied during sleep, there is an increased clearance of waste products from the brain and improved flow of cerebrospinal fluid, which are required for optimal brain health. So, red light therapy is beneficial when applied when either awake or sleeping, and the benefits relate more to improving sleep quality and physiology, rather than to increasing sleep duration. As already described, increased exposure to outdoor light is associated with reduced risk of major depression and greater happiness. Since outdoor light is a combination of visible light (including blue and red), infrared, and UV light, this contrasts with the light used in BLT, which includes only white visible light or blue monochromatic light. With so many studies showing a benefit to using red light therapy (especially infrared light), it is possible that the addition of red light in the treatment of SAD could be beneficial. Combining Bright and Red Light Therapy to Improve Seasonal Affective Disorder Red light therapy can easily be combined with BLT in the treatment of Seasonal Affective Disorder. Since the rising sun appears red when first coming up over the horizon, exposure to red light followed by exposure to BLT is recommended. This is a practice that I’ve been doing for several years, following decades of winter seasons in which I suffered from some degree of seasonal depression. Initially, my doctor recommended that I purchase a fluorescent light box, which I used successfully for a few years. After gaining knowledge of red light therapy, I combined the two and now use them in tandem. My recommended practice is as follows: Shortly after waking, use a red light therapy panel (that delivers both red and near infrared light) for 10 minutes, sitting comfortably 6 to 12 inches away. If you prefer, or if it’s uncomfortable to keep your eyes open in front of the red light panel, you can close them – light still penetrates through to the retinal ganglion cells. However, it is safe to open your eyes as long as your red light panel is low to moderate intensity. The 10 minutes spent in front of the red light panel provides a great opportunity to work on breathwork or mindfulness, which have positive effects on mood. After 10 minutes of red light therapy, use a light box that delivers white light (preferably using warm fluorescent bulbs, which have a lower blue light hazard ratio) for 20 minutes. It is possible to do normal activities while in front of the light box, so people usually set them up in an office (so that they can work on a computer or read) or on a kitchen island. I recommend setting it up in an office space and spending that 20 minutes engaged in an activity that generates a positive mood. For most people, this means avoiding reading the news, but you can do things like sending emails to friends or reading something uplifting. Taking time to be calm and to orient your attention in a positive direction uplifts mood. Avoid bright light, especially blue light, at night. Exposure to blue light (especially bright blue light) is disruptive to sleep, which is why it is not recommended to use electronic devices (like iPads or e-readers) that emit blue light at night. Keep household lighting dim in the evening and at night. Red light therapy may also be used at night, although you should position yourself farther from the panel so that the light is less intense. Red light panels can even be used as a source of evening/nighttime illumination. Red LED light bulbs may also be used as a source of illumination at night. Conclusion We often hear the recommendation by health experts these days to “view morning sun” as a way to optimize health, including mental health. While it is no doubt ideal to have exposure to natural light in the morning, for people that live in cold winter climates this can be very difficult. Under these circumstances, light devices – both bright and red light - can be used to mimic sunrise and sun exposure. Although the combination of bright and red/near infrared light has yet to be subject to intensive research, there is strong evidence that both exert a positive influence on mood. Since daylight consists of a combination of light wavelengths, including near infrared light, there is good reason to believe that these two may work in tandem as a powerful tool in the prevention and treatment of Seasonal Affective Disorder. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
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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/
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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/
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Red Light After Heart Attacks
Heart attacks are due to blockage of blood flow to a part of the heart, which can cause that area of the heart tissue to die. Heart attacks are also known as “myocardial infarctions” – “myocardial” because they affect the heart muscle, and “infarction” because they cause muscle tissue death. Heart attack severity ranges from mild to fatal, and treatments often involve surgery and long term use of medications. Over 800,000 people in the US have heart attacks every year. Research looking at the effect of red light therapy on heart attacks has been focused on recovery and healing after a heart attack has occurred. Many studies have been conducted, using a wide range of animal models. In 2016, a review of 14 studies determined that red light therapy reduced “infarct size”; that is, the amount of damaged heart tissue. A more recent analysis published in 2021 further determined that benefits were due to reductions in mitochondrial damage, decreased inflammation, and formation of new blood vessels. While most research in this area has used laser lights, the authors cite many advantages to using LED light sources, including lower cost, ease of use, and better safety. Heart attacks increase the risk of heart failure, which is when the heart lacks the strength to distribute blood effectively throughout the body. Heart failure is also caused by problems with the valves in the heart, heart muscle disease, and congenital heart defects. In a small study of patients aged 35 to 65 with heart failure, treatment with red laser light to the quadriceps muscle in the leg reduced the perception of muscle fatigue and decreased the production of muscle lactic acid. Although it isn’t clear that light therapy impacted the cardiovascular system directly, it does appear to help patients suffering from heart failure and may be a useful adjunct to standard medical therapy. Although more research is needed to understand how red light therapy can be used to support recovery from heart attacks in humans, we do know that red light therapy has many heart friendly benefits, including as increasing energy production, decreasing oxidative stress, reducing inflammation, and increasing vasodilation. When using red light therapy to target the cardiovascular system, it is our recommendation to broadly apply light to areas including the upper chest and thighs to deliver light to as much of the body as possible for general cardiovascular health. We have a lot of blood vessels at the surface of the skin, all of which will benefit from the application of red and near infrared light. Light can be applied using a red light panel or wrap that goes around the body. Because red light therapy has an amazing safety profile, and since benefits are expected to be across multiple body systems, there really is no downside to incorporating it into a regular wellness regimen. For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/
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