February 3, 2025

Incandescent vs LED Lights in Red Light Therapy

    Red Light Therapy has been investigated in thousands of research studies over the last 50 years. Until the early 2000’s, most studies used lasers as the light source, but more recently, LED lights have become popular due to their affordability, safety, and ease of at-home use. LED lights are now widely used in Red Light Therapy devices, including the devices we make at Fringe. Other light sources, such as incandescent lights, are also sometimes promoted for use in Red Light Therapy, but it’s important to recognize that incandescent lights are not equivalent to LED’s when it comes to reaping the well-recognized benefits of this powerful healing modality.   In this article, we’ll explore the characteristics of LED and incandescent lights, how the two light types can (and cannot) be used in Red Light Therapy, and what to look for in a Red Light Therapy device.  Comparison of LED and Incandescent Lights LED lights have many important characteristics that are superior to incandescent lights, including: Characteristics LED  Incandescent Energy Efficiency 80-90% more efficient than incandescent, as most energy is converted to light Very inefficient – 90 to 95% of energy is lost as heat, and only 5 to 10% is converted to light Lifespan 25,000 to 50,000 hours (10 to 25x longer than incandescent) 1,000 to 2,000 hours (needs frequent replacement Heat Output Minimal heat emission, stays cool to the touch High heat emission, can become too hot to touch Long-Term Cost Lower long-term cost due to energy savings and longer lifespan Higher long-term cost due to frequent replacements and high energy use Durability Shock-resistant, does not break easily Fragile, glass can break easily Environmental Impact Eco-friendly, no toxic materials, low energy consumption Higher energy use, shorter lifespan, increases waste There are also some areas where LED’s can be inferior to incandescent lights, including: Characteristics LED  Incandescent Flicker Potential Some LEDs flicker which can cause eye strain No flicker; provides continuous, steady light EMF Emission May emit higher EMF’s due to electronic drivers Minimal EMF emission, since it does not use electronic drivers Blue Light Exposure Can be quite high Low, more natural warm light   However, NONE of these characteristics are necessarily an issue with Red Light Therapy devices. Why we don’t NECESSARILY need to be concerned about these limitations (Flicker, EMF, Blue Light Exposure) with Red Light Therapy devices: Many Red Light Therapy devices do not flicker – a reputable company will demonstrate this using third party testing (we do!) EMF emission – it’s absolutely true that a LOT of Red Light Therapy devices emit way too many EMF’s, but they don’t have to. At Fringe, we’ve designed our panels so that the electronic driver is 3 feet away from the panel, so there is almost no EMF emission from the panel itself. Our wraps are battery powered; batteries create energy through chemical reactions, which generate negligeable EMF’s.  Blue Light Exposure – Red Light Therapy devices contain red and near infrared LED’s, which don’t emit blue light (of course, blue light LED’s are also an option…!) What about Blue Light Therapy using LED’s? Isn’t blue light from LED lights harmful? This is true but isn’t the whole story.  Blue light from devices like ipads, phones, etc. is found in a very narrow spectrum of wavelengths. This is “foreign” to our body, as it is different than the blue light that comes from the sun. In contrast, blue light used in Blue Light Therapy emits a wider spectrum of wavelengths that closely mimics the distribution of blue light in sunlight. This light spectrum has been found to be antimicrobial, which is why it is used for applications like acne.  No matter what, though, it’s still important to avoid getting blue light in the eyes. Is light from an incandescent light the same as from an LED? Incandescent lights produce light in a “full spectrum”, including red and near (and also far) infrared light. This is what makes the light from incandescents “warm” in terms of color, and also generates a lot of heat, making them hot to the touch. It’s also why these lights are used for things like heating terrariums. In order to make an incandescent light exclusively red, a red film or coating is placed on the glass that filters out other colors allowing only the red (and sometimes infrared) wavelengths to pass through. The filament inside still produces other colors, but they’re mostly blocked by the coating.  LED lights used in Red Light Therapy will produce light in the red (if using red diodes) or near infrared (if using near infrared diodes) spectrums. Many devices include both types of diode, and the type of light is produced by using a semiconductor material that naturally produces red or near infrared light. Red Light Therapy doesn’t use white LED lights like you would find in a house lamp.  Red and near infrared light are the same in terms of wavelength no matter what the source. The difference is that incandescent lights produce full spectrum light and then block the other light from being emitted, while LED lights (red or near infrared) emit ONLY the light in that color spectrum. If the red and near infrared light is the same, can incandescent lights be used instead of LED’s in Red Light Therapy? Incandescent lights CAN be used to activate the eye to brain pathway that is responsible for some of the benefits of Red Light Therapy. In this pathway, photoreceptors in the retina are activated and influence the function of the suprachiasmatic nucleus in the brain. This helps regulate the circadian cycle and also has an influence on mood and stress hormones. These lights are great for lighting up a room. Incandescent lights CANNOT be used as easily as LED’s to activate the light to tissue pathway that is responsible for the majority of benefits of Red Light Therapy. In this pathway, light enters through the skin (or other tissue) and activates photoreceptors in cells, such as cytochrome c oxidase in mitochondria. To achieve this benefit, the skin/tissue has to be close (6 inches or less) away from the light source. Because incandescent lights get hot and are fragile, they aren’t a substitute for durable LED’s that don’t generate much heat. Incandescent bulbs also generate scattered light, which doesn’t allow for good skin/tissue penetration. There is limited research showing that under some circumstances, incandescent lights may activate this pathway, but their functional limitations do not make them a substitute for LED’s.  Most of the benefits of Red Light Therapy (reduced inflammation, faster tissue healing, reduced oxidative stress) comes from the light to tissue pathway. Incandescent lights do not work to activate this pathway effectively. It’s also important to note that almost none of the benefits of Red Light Therapy that have been observed in thousands of research studies over the last 50 years used incandescent light, with most studies using laser or LED light.  How do I know if my Red Light Therapy device is safe to use? Here are some things to look for: Use of red and near infrared light in evidence-based spectrums. Fringe Red Light Therapy devices use red light at 660nm and near infrared light at 850nm, which have been demonstrated in many research studies to be beneficial. No flicker Low to no EMF’s. Low irradiance (this is also called power or intensity. And yup, you want this low. A lot of companies are selling products that are quite high intensity, and this can potentially be harmful). Irradiance in the range of 20-40mW/cm2 mimics the sun, and has been shown in multiple research studies to be both safe and effective.  A good company will prove these by sharing analyses done by third party testing.  Why choose Fringe Red Light Therapy devices? We use evidence-backed wavelengths of red and near infrared light. Our devices are no flicker and generate low to no EMF’s.  We use a safe and effective sun-like intensity of light, at between 20 and 40mW/cm2. All of our products are tested by an independent third party lab, and we share this analysis with our consumers. Our products are created by a team of medical professionals who carefully review and use published scientific evidence to inform how we manufacture.   Take home message: Incandescent lights are a great option for lighting up a room, creating a warm and ambient red light that may have benefits related to activation of the eye to brain pathway which helps to regulate the circadian rhythm and mood. Incandescent lights cannot be used as a substitute for LED lights to activate the tissue to cell pathway that is responsible for benefits including reduced inflammation, decreased oxidative stress, and improved tissue healing.  Of the thousands of research studies on Red Light Therapy, only a small number used incandescent lights, so their clinical efficacy has not been clearly demonstrated. High-quality Red Light Therapy devices will use both red and near infrared LED lights and will be no flicker, generate low to no EMFS, and deliver light at a sun-like intensity that is both safe and effective for everyone, including kids and pets. 

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December 20, 2024

Light Therapy & Menopause

Menopause Menopause is the natural transition that occurs when a woman stops menstruating, which usually happens between the ages of 40 and 58. The term “transition” refers to a change from one state to another, which is a very apt descriptor for what happens during menopause. Hormonally speaking, menopause marks a shift to an entirely new hormonal milieu, which not surprisingly, can be quite challenging.  Hormonal Changes During Menopause The hormonal changes that accompany menopause are dramatic. From perimenopause (the stage leading up to menopause) to post-menopause (the stage following menopause), levels of estrogen and progesterone drop to a fraction of their previous levels. This sharp decline is not linear, instead showing fluctuations that can create a whirlwind of physical and psychological symptoms. Levels of testosterone also decrease during this transition.   The effects of menopause The effects of menopause on the brain and body are similarly dramatic. Although these vary widely between individuals, there are many common symptoms, including hot flashes, loss of libido, vaginal dryness, sleep issues, weight gain, dry skin, hair thinning, digestive changes, sexual dysfunction, urinary symptoms (including incontinence) and mood disturbances. Some menopausal symptoms are local, occurring mainly in the pelvic region, while others (such as hot flashes) are felt throughout the body. Similarly, some symptoms are transient while others cause persistent and long-term physical changes.  The experience of menopausal symptoms is extremely common. Overall, it is estimated that 75-80% of women suffer from symptoms related to menopause, of which 20-30% are considered severe. Approximately 75% of women worldwide experience hot flashes, while 40-60% suffer from sleep issues. As many as 83% of women report experiencing vaginal dryness, often with associated pain during intercourse. Research has found that 9 in 10 women weren’t educated about menopause, and since talking about these symptoms has long been viewed as “taboo”, women often suffer menopause symptoms in silence, leaving them unable to access tools that might help to alleviate them.  Improving access to supportive tools during menopause is a critical public health issue. This includes natural and alternative therapies, as well as novel tools such as light therapy. Light - including red, near infrared, and blue light – may help to alleviate several of the challenging symptoms of menopause, including sleep and mood issues, vaginal dryness and atrophy, hair loss, overactive bladder, sexual dysfunction, cognitive and digestive changes, and skin problems. Read on to learn how light therapy can be used to support women’s health during this important transitional period. Light therapy Before we can explore how light therapy can be used to support women’s health during menopause, we first need to answer the question: what is light therapy? The answer is really quite simple. Light therapy (also known as photobiomodulation) is the application of light with specific wavelengths to the body for the purposes of influencing biology. In theory, light therapy can use any wavelength of light, but the most commonly used are red, near infrared, and blue. The use of red and near infrared light is commonly referred to as “red light therapy”. All three wavelengths of light may be useful in supporting women during menopause, although red and near infrared light have the greatest utility.   Research has shown that light therapy has many effects on a cellular level. Briefly, with red and/or near infrared light, the most notable observed effects include an increased production of cellular energy, reduced inflammation, decreased oxidative stress, decreased pain, increased blood flow, enhanced collagen and supportive tissue production, and improved microbiome health (gut and vagina). Blue light is mainly used to destroy pathogenic microorganisms like yeast and bacteria.  Light Therapy & Menopause Given that there is such a wide range of menopausal symptoms (note that for simplicity, symptoms related to peri-, meno- and post-menopause are being considered here as “menopausal” symptoms), it is likely that the various physiological effects of light therapy will be more or less relevant for certain ones.  For example, some of the changes seen during menopause – such as vaginal atrophy, dryness, and urinary incontinence - are due in part to a decrease in blood flow and loss of connective tissue in the pelvis. While specific research into using light therapy to treat these symptoms is still sparce, researchers have proposed that based on existing scientific evidence, red light therapy may alleviate these symptoms by stimulating the production of collagen and elastin, supporting bladder function, and enhancing blood flow.    Many symptoms of menopause are also experienced in other states, and we can look to those conditions for clues regarding how to use light therapy to alleviate the same symptoms during menopause. This includes anxiety and depression, hair loss, sleep disturbances, acne, digestive issues, and infections. While research specific to these symptoms in menopausal women is lacking, there is clear evidence that light therapy (with red, near infrared, and/or blue light) can be helpful in other conditions, and we can extrapolate from there to the menopausal state. Based on the known physiological effects of light therapy, and the evidence of benefits in a range of clinical conditions, we propose that the use of red, near infrared, and/or blue light may help to alleviate several of the most common symptoms experienced by women during this life transition, including: Mood: Mood changes are a common experience during menopause, with many women reporting increases in anxiety and depression. Light therapy (with red and near infrared light) has been shown to reduce depressive symptoms in both humans and animals, likely due to improvements in mitochondrial function, increased brain blood flow, and decreased neuroinflammation. A 2009 clinical trial found a reduction in symptoms of depression and anxiety in as little as a single session. The effects of light therapy on mental health are so compelling that a recent systematic review concluded that it is “strongly recommended” as a treatment for moderate depressive disorder and is “recommended” for the treatment of anxiety disorder. Studies of red light therapy and depression often apply light therapy directly to the skull, while some use an intranasal approach. Cognition: Cognitive changes, such as memory loss, are also commonly experienced by women during menopause. Researchers have shown in a series of controlled clinical studies that near infrared light therapy improves cognition in young and middle-aged healthy adults when applied to the prefrontal cortex of the brain. Cognitive improvements were accompanied by changes in brain function, including increased brain blood flow. In 2019, a meta-analysis of all the research looking at the effects of light therapy (including near infrared light, or near infrared and red light in combination) found that the overall effect on cognition was positive, leading the authors to conclude that light therapy is a “cognitive-enhancing intervention in healthy individuals”.                                    Hair Loss: Menopausal women frequently report hair loss and thinning. The ability of light therapy to induce hair growth was observed in studies conducted more than 50 years ago. Early clinical trials used primarily red light, and the effectiveness of these studies led to the development of several red light therapy devices for hair loss. Subsequent studies have shown that near infrared light also stimulates hair growth, with red and near infrared light improving hair growth in androgenetic alopecia, which is the most common type of hair loss that affects both men and women. Light impacts hair growth through effects on mitochondria, which lead to increases in the length of time the hair follicle spends in the growth phase.                                                                                             Overactive Bladder: Overactive bladder, involving a frequent urge to urinate, is a urinary symptom experienced during menopause. Overactive bladder often results in urinary incontinence. Although research related to light therapy and overactive bladder is limited, one study found that application of red light to the abdomen three times per day for 12 weeks resulted in a reduction of urinary incontinence as compared to a control group, suggesting a potential benefit in this condition.    Skin Changes: During menopause, many women report skin changes, including acne, dryness, altered pigmentation and wrinkles. Light therapy has been widely used in spas and dermatology clinics for its effects on skin health, in addition to at-home use. Red and near infrared light is helpful in the treatment of wrinkles,  psoriasis, acne, hyperpigmentation, and rosacea, while blue light is helpful in the treatment of acne. 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. Gut: Gut dysbiosis, involving changes in the gut microbiome, are common around the time of menopause. Estrogen is known to affect the gut microbiome and similarly, some of the microbes in the gut microbiome (called the estrobalome) are able to influence levels of estrogen in the body. Keeping the microbiome healthy during menopause is essential, and light therapy (with red and near infrared light) may provide some support. Animal research has shown that when red or near infrared light 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. In humans, red and near infrared light applied to the abdomen of Parkinson’s disease patients modulated the composition of the gut microbiome, with a shift towards more “healthy” bacteria, and in a case report of a patient with breast cancer, application of near infrared light to the abdomen was associated with increased diversity of gut microbes, which is considered to be a healthy change Vaginal Dysbiosis: Similar to the gut, the vagina has a microbiome, and menopause can cause dysbiosis in this region as well. Hormone-induced dysbiosis can increase the vaginal pH and change the composition of the microbes, which is associated with bladder dysfunction and bladder pain syndrome. Light therapy, particularly with red and near infrared light, is proposed as being a positive modulator of the vaginal microbiome. There are several proposed mechanisms, including modulation of nitric oxide. Nitric oxide is important for the lactobacillus species that dominate in the vagina that are known to decrease during menopause.                                                                                                                                    Sleep: As already mentioned, sleep disturbances are experienced by 40-60% of menopausal women. Light is a primary regulator of the body’s circadian rhythm, so it is not surprising that light therapy has effects on sleep. Application of red and near infrared light during wakefulness improves sleep quality in people with cognitive decline, Guillain-Barré Syndrome, fibromyalgia and stroke. 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. Blue light triggers wakefulness, suppressing melatonin, so direct exposure of the eyes to blue light should be limited to daytime hours. Vaginal Infections: Vaginal infections with yeast and bacteria are more common during menopause due to the changes in estrogen, vaginal pH, and vaginal dryness that occur. In addition to their positive effects on the microbes in the gut and vagina, red and near infrared light have also been shown to have effects on pathogenic (harmful) microorganisms in the female pelvis. Red light has been shown to be helpful in treating vaginal candida, as has blue light. Specifically, blue light at 415nm (the same wavelength as in the Fringe Pelvic Wand) had the most potent anti-candida effects. Blue light has also been shown to be helpful in the treatment of vulvovaginitis. Vaginal Atrophy: Vaginal Atrophy, Dryness & Sexual Dysfunction: The loss of estrogen during menopause causes many changes to the integrity of tissues in the vagina. This results in tissue atrophy and dryness, which can cause great discomfort, especially during sex. The main structural connective tissues are collagen and elastin, which provide strength and flexibility to the vagina. These changes occur for a variety of reasons, including a decrease in blood flow which results from the loss of estrogen. Application of red and near infrared light is known to increase blood flow by increasing levels of nitric oxide. It has also been shown to increase the synthesis of collagen and other supportive connective tissue including elastin. Suggesting that red and near infrared light may help with tissue support and rejuvenation during menopause.  Light Therapy Products for Menopause 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/blue 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. A wide range of products are available, each of which is uniquely suited to address specific needs. The four most useful light therapy products to address the symptoms of menopause are: Red light therapy panel Panels usually deliver red and near infrared light, ideally with the option to use separately or in combination. Panels can be used to treat most body parts, including the face, chest and back. They’re great for supporting sleep and mood, when light should be entering through the eyes. They can also support digestion when directed towards the skin of the abdomen, as well as the skin on the face. The Fringe Red Light Therapy Panel delivers both wavelengths of light at the same “sweet spot” intensity as the sun. shop our panel Red light therapy wraps Red Light Therapy Wraps deliver light directly to the skin and can be applied to specific body parts, such as the head and abdomen. They should also deliver both red and near infrared light. Wraps have the advantage of being cordless and very convenient to use. The Fringe Red Light Therapy Head Wrap delivers light to the head (including red and two wavelengths of near infrared light) and is ideally suited to support mood, cognition, and hair loss. The Fringe Red Light Therapy Wrap has a rectangular shape and can be applied to the abdomen to support bladder function and digestion. shop our wraps           Light therapy face mask Like wraps, face masks deliver light directly to the skin but are specifically contoured to the face. Due to the antimicrobial effects of blue light, it should be included in face masks for the treatment of acne along with red and near infrared light. The Fringe Red Light Therapy Face Mask delivers all three wavelengths of light to support skin health, including acne, wrinkles, pigmentation, and more. shop the mask               Light therapy pelvic wand Light therapy pelvic wands are inserted directly into the vagina, delivering light directly to the vaginal tissues that are affected by menopausal hormonal changes. The Fringe Light Therapy Wand delivers red, near infrared, and/or blue light to support blood flow and tissue rejuvenation, which may help alleviate vaginal dryness, atrophy, and sexual dysfunction. shop the wand       To recap Menopause is a time of dramatic hormonal changes, which create uncomfortable symptoms for many women. Light therapy is a safe and effective tool that may be used to alleviate a wide range of menopausal symptoms in the comfort of one’s own home. Red and near infrared light provide support for symptoms including sleep and mood issues, cognitive changes, hair loss, gut and vaginal dysbiosis, skin problems, and vaginal tissue changes, while blue light may provide antimicrobial activity for menopausal acne and vaginal infections. Many different light therapy products are available - including panels, wraps, face masks, and pelvic wands – that provide light therapy support for different symptoms. Choose products that use LED lights to deliver red, infrared red, and blue light (where appropriate) at approximately the same intensity of the sun for best results.  For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/

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July 18, 2024

Should I Take a Magnesium Supplement?

Should I take a magnesium supplement? The simple answer to this question is: Most likely, yes. Scientific evidence suggests that many people are at risk of magnesium deficiency, even those consuming a healthy diet. There are many reasons for this, most of which are out of our control. Given the critical importance of magnesium in the human body, and the significant health risks that accompany even a subclinical magnesium deficiency, regular supplementation with a high-quality dietary supplement is a wise investment in your health. shop fringe magnesium What is Magnesium? Magnesium is one of the most abundant minerals, both in the earth and inside the human body. Most magnesium in the body is found inside cells, rather than in the blood, and it is especially concentrated in the muscles and bones. In the body, magnesium carries a positive charge, and is therefore referred to as an ion or electrolyte. The recommended intakes of magnesium have been determined and are based on age and gender.  These values are known as the dietary reference intakes (DRI’s). Recently, it has been suggested that the DRI’s for magnesium are too low because they haven’t been adjusted for rising body weights. The new estimates recommend an additional intake for adults of between 60-235mg magnesium per day beyond what is shown in table 1.           What does magnesium do in the body? Magnesium is involved in virtually every cellular metabolic and biochemical process in the human body. As a cofactor or activator for over 800 chemical reactions, magnesium regulates everything from metabolism to protein synthesis, to DNA repair and synthesis. It is also involved in conveying messages between molecules within the cell as well as in regulating cell replication.        What are good sources of magnesium? Magnesium is found in many foods, both plant and animals. Some good sources of magnesium are: Green leafy vegetables Legumes Nuts Seeds Whole grains Good sources of magnesium should contain around 40-80mg per serving. Meat, dairy and fruit also contain some magnesium but at lower amounts. A general rule of thumb is that the more highly processed a food, the less magnesium it will contain (unless it has been fortified).    Although there are many food sources of magnesium, a drastic loss of magnesium from agricultural soil over the last century has led to a decrease in the magnesium content of plant foods due to their inability to absorb sufficient magnesium from the earth. For example, the magnesium content of vegetables has decreased by 80-90% over the last century. As a result, supplementation with magnesium may be necessary to avoid deficiency. What is the prevalence of Magnesium deficiency? There are two types of nutrient deficiencies, frank and subclinical. Frank deficiencies have obvious signs, while subclinical deficiencies do not. Frank deficiencies of magnesium are rare because the kidneys can limit its excretion. But subclinical deficiencies are extremely common, since over half of the US population don’t consume the recommended amount.  In fact, according to a research article in the Open Heart medical journal, “the evidence in the literature suggests that subclinical magnesium deficiency is rampant and one of the leading causes of chronic diseases including cardiovascular disease and early mortality and should be considered a public health crisis.”  What are the causes of Magnesium deficiency? As already described, two of the main causes of magnesium deficiency are (1) low intake of dietary magnesium, and (2) a substantial loss of magnesium from agricultural soil causing a decrease in the magnesium content of foods. These two issues will be compounded, such that even when people attempt to consume sufficient dietary magnesium, they may be unable to.  There are also several other factors that increase the risk of magnesium deficiency. These include: Magnesium also interacts with other nutrients, which can increase the risk of deficiency. For example, taking high doses of vitamin D can increase the loss of magnesium from the body, while taking high doses of zinc can interfere with magnesium absorption. High doses of fiber can also interfere with magnesium absorption. What are the health risks of Magnesium deficiency? Because of its nearly ubiquitous role in the body’s processes, low levels of magnesium can create widespread physiological dysfunction. And because of the widespread incidence of low magnesium intake, magnesium deficiency is recognized as an important global concern.  A frank magnesium deficiency will manifest with clinical signs, including: Low appetite Nausea and vomiting Fatigue and weakness Muscle spams or tremors Abnormal heart rhythm Convulsions Psychiatric disturbances   But because the kidneys regulate the excretion of magnesium from the body, it’s rare to have magnesium be depleted to the point where these potentially life-threatening symptoms occur. Far more common is subclinical magnesium deficiency, which often does not have obvious signs.   Because it’s so easy to under consume magnesium, and since the signs of subclinical magnesium deficiency are hard to spot, it often extends over time leading to long-term adverse complications. These include a wide range of health problems and chronic diseases, including: Cardiovascular diseases  Diabetes Migraines Osteoporosis Asthma Metabolic disorder Alzheimer’s Disease Parkinson’s Disease Premenstrual Syndrome Dysmenorrhea   These conditions have potentially devastating consequences, which makes magnesium a critical nutrient of concern for public health.  How could taking a magnesium supplement help me? There are both long-term and short-term benefits to ensuring adequate magnesium intake, which for many people, will require taking a magnesium supplement.  As just described, there is a long list of health problems and chronic diseases associated with a long-term subclinical magnesium deficiency, many of which can be helped by taking a magnesium supplement. Can I take too much magnesium? Magnesium toxicity is mostly seen with consumption of high doses of magnesium containing laxatives and antacids. Consumption of more than 5000mg per day can cause toxicity, with symptoms including low blood pressure, nausea, vomiting, muscle weakness, and even cardiac arrest. It would be nearly impossible to consume this much magnesium through dietary supplements, which usually contain less than 300mg per serving, and totally impossible through food. Because the excretion of magnesium is regulated by the kidneys, it is difficult to take too much, and is not a concern except with consumption of magnesium containing medications.     How do I choose a Magnesium supplement?     Read the ingredients - Most dietary supplement will contain both active and inactive or “other” ingredients. You need to pay attention to both. The active ingredients are the ones that you are looking for; for example, a magnesium supplement will contain at least one form of magnesium as the active ingredient. Some supplements, like multi-vitamins, have many active ingredients. Usually, these are vitamins, minerals, of phytochemicals derived from plants. Although this information may be hard to find, it’s helpful to know where these active ingredients are sourced from. Naturally sourced ingredients are always better than artificial ones. The inactive ingredients are usually there to: (1) provide bulk (filler), (2) hold the product together (binding agents, coatings), (3) add flavor or sweetness, or (4) keep the product from clumping together (flow enhancers). Sometimes this list is long, and it’s often where some undesirable ingredients sneak in, such as potassium sorbate, artificial colors, or titanium dioxide. It’s best to keep this list short and naturally sourced.     Verify product purity – Only choose high quality products that verify their purity via an unbiased chemical analysis performed by a third-party lab. These analyses should be reported in a Certificate of Analysis (COA) that is readily available to consumers, often through a QR code link. COA’s should be available for each batch of products, and will measure contaminants such as heavy metals, microbes, and pesticides.     Consider the form(s) of magnesium in the supplement – There are several different forms of magnesium that are included in dietary supplements, each of which has unique properties. Look for ones that are bioavailable and easy on digestion. The forms of magnesium that are most likely to cause diarrhea are magnesium chloride, carbonate, oxide, and gluconate. Magnesium malate shows high bioavailability compared to the commonly supplemented forms of magnesium oxide and magnesium citrate. Other organic forms of magnesium such as magnesium glycinate and magnesium orotate also show high bioavailability. Some forms of magnesium have also shown unique health benefits; for example, magnesium orotate helps with cardiovascular and gut health. While all magnesium supplements can help to prevent magnesium deficiency, some forms may be better suited to your unique needs.      Choose the supplement form you prefer – Supplements come in three main forms: capsules/tablets, powders, or liquids. Which one you choose is really a personal preference. Powders and liquid can be added to liquids, like smoothies, and are a great option if you don’t like swallowing pills. Fringe Essentials Magnesium Powder The Fringe Essentials Magnesium Powder contains three forms of magnesium: orotate, malate, and glycinate, at 173mg total and 41% of the recommended Daily Value. These forms of magnesium have been shown to be better absorbed into the body, and they’re easily digested. Each one has unique health benefits that make them well suited to not only ensure sufficient magnesium intake, but also to reap a wide range of health benefits. Here’s what they do: + magnesium glycinate: Magnesium glycinate is a standout in helping to reduce anxiety, promote relaxation, support deep sleep, reduce muscle tension, and balance mood. _____________________________________ + magnesium orotate: Magnesium orotate is one of the best forms of magnesium to consume for heart health. It’s been shown to help with hypertension and heart disease, and to reduce risks of heart attacks. It also supports gut and mental health and helps with exercise recovery. It may even be helpful in diabetes and Alzheimer’s Disease. _____________________________________ + magnesium malate: Magnesium malate is great for chronic pain, inflammation, energy production, and muscle tension and recovery. _____________________________________   The other ingredients in Fringe magnesium powder are all natural, and include non-GMO inulin to help with dosing, organic monkfruit extract for a bit of natural sweetness, and vitamin C for an antioxidant boost. Simply mix 1 scoop of magnesium into your water, smoothie, or favorite beverage 1-2 times per day.   shop fringe magnesium    

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July 10, 2024

Should I Take an Electrolyte Supplement?

The simple answer to this question is: Most likely, yes. The story of fluid-based electrolytes is very much a story of water – which as you will see, has changed dramatically in the last few decades. As water processing has evolved to remove harmful contaminants, essential nutrients (in the form of minerals) have also been lost, with potentially negative consequences. In this article, you’ll learn about the role of fluid-based mineral electrolytes in supporting human health, and how this has changed across time. shop fringe electrolytes How has the composition of drinking water changed across time? When most people think of water, they think of the water molecule: H2O. What many people don’t realize is that water in nature also contains a wide range of nutrients in the form of dissolved minerals. As it travels over rocks and through the earth, minerals make their way into water. The result is complex fluid matrix that is far more than just H2O. The nutrients (minerals) commonly found in natural water include: Sodium Potassium Magnesium Calcium Trace minerals, such as selenium, iodine, molybdenum, zinc, copper, manganese, and chromium.   Unfortunately, the water that is accessible to most humans on earth also contains a wide range of potentially harmful contaminants. While developing countries experience the greatest contamination, water in developed countries also often contains contaminants of concern. For example, tap water in the US often contains things like lead, arsenic, and industrial and agricultural contaminants. Removing these contaminants is critical to supporting human health. To remove these undesirable compounds, water filtration devices are used. These devices pass water through a semi-permeable filtration membrane, and range in complexity from simple pitchers and countertop basins to industrial reverse osmosis filtration systems. Reverse osmosis filtration is also widely used in government, commercial, and military applications. Filtration devices do not distinguish between minerals such as magnesium, which are essential for human health, and harmful contaminants such as lead. The filters are non-specific and remove any molecules bigger than the size of the filtration pores, which include naturally occurring minerals. As a result of this processing, our modern filtered water becomes simple H2O. Should water be a source of essential nutrients? A little-known fact is that consumption of water from nature will make a small (but appreciable) contribution to our required nutrient intake, specifically the intake of some minerals, which are a class of micronutrient. Most commonly, recommended nutrient intake is defined using the Recommended Dietary Allowance (RDA), which refers to nutrients that come from food. But this term is a bit of a misnomer, as it ignores nutrient intake from water. Instead, the World Health Organization recommends that we use the term Recommended Nutrient Intake (RNI, also referred to as the Reference Nutrient Intake), which refers to nutrients that come from food and water.    As already mentioned, there are many nutrients that occur naturally in water, including calcium, magnesium, sodium, chloride and potassium. These minerals are estimated to contribute between 1 and 20% of our recommended daily intake values when natural water is consumed. Water makes the most appreciable contribution to nutrient intake for calcium and magnesium, at up to 20%, while for most other minerals it provides between 1 and 5%. By removing minerals from water using processes such as reverse osmosis, we are eliminating a vital nutrient source. Putting minerals back into water, which can be done with electrolyte mineral formulations, is an easy way to circumvent this problem.  Are there any health impacts of drinking highly filtered water? While it’s obviously important to remove harmful contaminants from water, this can’t be done without also removing essential nutrients. And there is clearly a downside to this removal. Here are a few important health risks that have been associated with drinking highly filtered water:  Mineral loss from the body: Studies have shown that consumption of demineralized water can lead to a loss of body minerals that are excreted in the urine, faces and sweat. In kids, this can slow growth and lead to cavities. Water loss from the body: In addition to mineral losses, drinking demineralized water also leads to the loss of water from the body - there is an up to 20% increased excretion of body water in studies of human volunteers drinking demineralized water. Impaired electrolyte homeostasis: Drinking demineralized water may impair electrolyte homeostasis and lead to changes that may increase the risk of cancer. There is also some evidence of mineral intake specifically from water preventing disease in humans. For example, magnesium in drinking water is associated with protection against death from acute myocardial infarction (heart attack) among males. Similarly, drinking hard water (which contains dissolved electrolytes, including calcium and magnesium) is associated with protection against cardiovascular disease. Drinking hard water has also been associated with a decreased risk of some types of cancer, including stomach and esophageal, as well as stroke. Calcium rich water has also been found to support bone health. What are electrolytes? You’ve probably already realized that the minerals found in natural water have something to do with electrolytes. In fact, many of these minerals are electrolytes. Electrolytes are minerals that carry an electric charge and can conduct electricity in the body when in a dissolved state. The most important electrolytes in the body are sodium, potassium, chloride, magnesium, calcium, phosphorous, and bicarbonate. These charged ions are found throughout the body, and their levels are carefully maintained in balance, or homeostasis.   What do electrolytes do in the body? The general role of electrolytes is to regulate physiological function, but each one is unique. Here is an overview of the primary electrolytes and their specific roles in the body.   Why can’t I just consume electrolytes from food and supplements? Electrolytes have two sources in nature, food and fluids (especially water). And in modern society, we’ve added a third: dietary supplements. Both food and dietary supplements are good sources of electrolytes and should comprise the majority of nutrient intake. However, water can provide between 1 to 20% of certain minerals, and it is abundantly clear that consumption of electrolytes from water yields unique benefits irrespective of food and supplement consumption, including protection against: Mineral losses from the body Water losses from the body Some types of cancer Stroke Cardiovascular disease Consumption of electrolyte containing water also supports the maintenance of electrolyte homeostasis in the body, which is essential for optimal physiological function. Water that contains electrolytes is obtained in one of two ways: by drinking natural mineral rich water, or by adding a mineral rich electrolyte supplement to a demineralized water source, such as reverse osmosis water.  Can electrolytes become deficient or imbalanced? Electrolyte imbalances can occur when blood levels become too high, or too low. Each electrolyte can become imbalanced, with potentially serious (and even life threatening) consequences. Levels of electrolytes are tightly regulated in the body for this reason, which occurs mainly at the level of the kidneys. Electrolyte deficiencies occur when there is Inadequate dietary consumption of a nutrient. Both imbalances and deficiencies are possible.               Do some people need more electrolytes? Yes, there are some people who need more electrolytes. Anyone who – for whatever reason – is losing fluid from the body at a higher-than-normal rate will need to intake more to restore electrolyte balance. And anyone consuming low levels of electrolytes from food and water will require more to prevent deficiency. This applies to the following conditions:     People who are exercising and sweating (even more so if in hot and/or humid conditions). People eating a low sodium diet, such as keto, paleo, or other low carb diets. Note – if you are on a low sodium diet because of a medical condition, such as a kidney disease, be cautious about supplemental sodium intake. People who are fasting. People experiencing illnesses involving vomiting and diarrhea. People with certain medical conditions, such as Postural Orthostatic Tachycardia (POTS)  Increasing intake of mineral rich water, either natural or supplemental, as well as consuming more electrolyte containing foods, can help people meet these increased needs.    How do I choose a mineral electrolyte supplement?   Read the ingredients – Most dietary supplement will contain both active and inactive or “other” ingredients. You need to pay attention to both. Electrolyte supplements should contain several electrolytes, such as sodium, magnesium, chloride, and potassium, as the active ingredients. Although this information may be hard to find, it’s helpful to know where the active ingredients are sourced from. Naturally sourced ingredients are always better than artificial ones. For example, in an electrolyte supplement, a natural source of sodium and chloride would be natural sea salt. Electrolyte supplements usually also contain inactive ingredients. The inactive ingredients are usually there to: (1) provide bulk (filler), (2) hold the product together (binding agents, coatings), (3) add flavor or sweetness, or (4) keep the product from clumping together (flow enhancers). Sometimes this list is long, and it’s often where some undesirable ingredients sneak in, such as potassium sorbate, artificial colors, or titanium dioxide. It’s best to keep this list short and naturally sourced.   Verify product purity – Only choose high quality products that verify their purity via an unbiased chemical analysis performed by a third-party lab. These analyses should be reported in a Certificate of Analysis (COA) that is readily available to consumers, often through a QR code link. COA’s should be available for each batch of products, and will measure contaminants such as heavy metals, microbes, and pesticides. Look at the amounts listed in the Nutrition Facts – Electrolyte supplements are not meant to provide high levels of the daily value of nutrients, so when you look at a Nutrition Facts table, the %DV (Daily Value) for each nutrient should be twenty or less. Minerals from natural water will be between 1 and 20% DV, so this is a simple rule of thumb to follow.  An additional consideration is that if an electrolyte supplement can be added to water, rather than being pre-packaged in plastic bottles, contamination of the water with microplastics can be reduced.  What's NOT in fringe electrolytes? Let’s start off describing what we’ve (intentionally) left out of Fringe electrolytes. They contain no:   What's in the tub? Sodium Chloride from Sea salt: Sea salt provides both sodium (at 8%DV) and chloride (at 20% DV). It also contains small amounts of other minerals like iron, iodine, manganese, zinc, and selenium. We opted for a high-quality natural sea salt, sourced from Australian sea water, rather than table salt, because of its natural origin and more diverse mineral profile.  Calcium from Calcified Algae Calcium is essential for supporting bone and teeth health, but also important for muscle and nerve function. Potassium: Potassium (at 2% DV) is essential for regulating many processes in the body, including heart, muscle, nerve, and blood vessel function. Magnesium from magnesium malate: Magnesium malate (at 3% DV) is a highly absorbable form of magnesium that helps reduce pain and inflammation, improve mood, and supports heart, nerve, and muscle health – without causing unpleasant digestive symptoms. Trace minerals: We wanted to up the ante on our electrolytes and supplement trace minerals – essential micronutrients which are critical in many biological processes in the body! Our trace minerals are naturally sourced from the Great Salt Lake and include selenium, iodine, molybdenum, zinc, copper, manganese, and chromium. These are present in small amounts that are below 1% DV.  *Our ratio of sodium to potassium is at around 3:2, which is the same ratio used by the sodium potassium pump. Non-GMO Inulin: This is a soluble fiber derived from chicory root. It helps to maintain accurate dosing with the product and is also a prebiotic resistant starch which has a positive effect on gut health!     shop fringe electrolytes Recap We’ve covered a lot of ground in this article, but the key takeaway is that mineral rich electrolyte supplements will help to support hydration and electrolyte balance. Adding minerals to water at between one and 20% of the recommended daily nutrient intake will restore your water to the way that nature intended. An easy way to do this is by using Fringe electrolytes as a regular part of your wellness routine. Simply mix 1 scoop of electrolyte powder into your water, 1-2 times per day.  For a bit of natural flavor, add a squeeze of citrus or a few drops of essential fruit oil. Add a boost of hydration in the morning to start your day right, rehydrate after a tough workout, throw in your kiddos water to keep them hydrated in a clean way…there’s no right or wrong way to do it!  

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March 15, 2024

Top 10 Evidence-Based Uses for Red Light Therapy

Red Light Therapy, also known as photobiomodulation (PBM), may be used to support the health of cells and tissues throughout the body.  Defined as the use of red and/or near infrared (NIR) light to influence biology, most modern PBM devices emit both types of light, which have similar effects but penetrate the body to different depths. Red light is visible to the human eye, while infrared light is not, although it can be felt as heat. While early research on PBM 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/NIR devices has also greatly reduced the cost of treatment, making it something that can be done in the comfort of one’s own home. There are many mechanisms by which PBM affects the body, with the most well-known being increasing the synthesis of ATP (the energy currency of the cell) through effects on the electron transport chain in the mitochondria. The link between PBM and improved mitochondrial function has been well established. This increased supply of energy can be used to do all kinds of cellular work, including healing, growth, maintenance, and repair. There are thousands of published studies showing the efficacy of PBM for a wide range of health applications, ranging from general support for healthy cells to improving brain function in Alzheimer’s Disease patients.  Here, we will review the top 10 evidence-based uses for PBM, as supported by scientific research: Reduce inflammation: Red and NIR light have anti-inflammatory effects, and unlike anti-inflammatory medications (such as NSAID’s), do not cause side effects. Studies have found that PBM affects levels of many molecules involved in inflammation, including reactive oxygen species, reactive nitrogen species, and prostaglandins. The ability of PBM to reduce inflammation suggests that it could have therapeutic potential in many chronic diseases that involve inflammation, including arthritis, Alzheimer’s Disease, and depression. Improve skin health: Red/NIR lights are being widely used in spas and dermatology clinics for their effects on skin health, in addition to at-home use. As already mentioned, PBM can improve the appearance and healing of scars, and it is also helpful in the treatment of wrinkles,  psoriasis, acne, rosacea, burns, and herpes. As well, PBM has been found to increase hair growth through stimulation of the hair follicle found in the dermis of the skin. Improvements in skin health are associated with increased collagen production in the dermis of the skin.  Decrease pain: Pain creates a huge burden of disability, both personal and economic. There is evidence that PBM decreases many types of pain, including knee, neck, low-back, temporomandibular joint, and post-surgical pain. PBM can also reduce pain associated with arthritis and fibromyalgia. There are several mechanisms of pain reduction by PBM, including decreasing inflammation, decreasing oxidative stress, reducing the sensitivity of neurons, and decreasing the transmission of pain related nerve impulses.  Improve athletic performance: PBM has been found to improve athletic performance in several ways, including decreasing muscle damage associated with exercise, decreasing muscle fatigue, improving muscle capacity, and speeding post-exercise recovery. PBM increases ATP production, which is needed for exercising muscles. PBM also helps muscles through increasing the synthesis of antioxidants, reducing inflammation, and decreasing synthesis of lactic acid (although not all studies have found this effect). Animal research has also shown that PBM can reduce muscle loss associated with trauma.    Reduce depression and anxiety: Depression and anxiety are highly prevalent mental disorders, and currently available pharmaceutical medications have limited efficacy and associated side effects. PBM has been shown to reduce depressive symptoms in both humans and animals, likely due to improvements in mitochondrial function, increased brain blood flow, and decreased neuroinflammation. A 2009 clinical trial found a reduction in symptoms of depression and anxiety in as little as a single session of PBM. The effects of PBM on mental health are so compelling that a recent systematic review of PBM concluded that it is “strongly recommended” as a treatment for moderate depressive disorder and is “recommended” for the treatment of anxiety disorder. Studies of PBM and depression often apply PBM directly to the skull, while some use an intranasal approach.  Improve cognitive function: PBM has been shown to improve cognitive function in both healthy and diseased patients. Clinical trials in healthy subjects have shown that PBM can improve outcomes including executive function, which consists of cognitive skills used for planning and performing tasks, as well as memory. People with traumatic brain injury (TBI) and stroke have also been shown to benefit from PBM, due to upregulation of brain repair mechanisms including the synthesis of new neurons. A recent systematic review similarly showed that PBM can help people with Alzheimer’s Disease by decreasing oxidative stress in the brain, reducing brain inflammation, and improving cognition. Speed healing from injury: It has already been mentioned that PBM has positive effects on muscle tissue, including speeding recovery from post-exercise damage, as well as on wound healing, such as from burn injuries. PBM can also speed healing from injuries to bone, including fractures and more complex bone injuries that require the use ceramic materials. Tendon injuries also benefit from PBM, with research showing that PBM increases the amount of collagen, which provides structural support during healing.  Promote fat loss: A somewhat surprising effect of PBM is to promote fat loss. This is particularly true when combined with exercise. A study of obese women found that PBM combined with exercise resulted in a higher percentage of fat loss than when exercise was combined with a placebo light. Another study found similar results, along with changes in levels of a marker associated with increasing brown adipose tissue, which improves metabolism. When combined with treadmill training, PBM decreases the appearance of cellulite and increases metabolism in the thighs. In addition to effects on metabolism, PBM may also cause fat cells to release their contents into the blood, where they can be metabolized or excreted. Improve immune function: Although an in-depth investigation of how PBM affects the immune system specifically has yet to be done, there is strong evidence that PBM improves immune function, as evidenced by its beneficial effects in many immune-related disorders. For example, in Hashimoto’s thyroiditis (an autoimmune disease affecting the thyroid gland), PBM improved levels of thyroid hormones and decreased the need for medication, probably due to a reduction in inflammation. Similarly, in multiple sclerosis (an autoimmune disease affecting the nervous system), PBM increased the regeneration of nerve cells and decreased markers of inflammation. PBM also improves immune function and inflammation in the oral autoimmune disease oral lichen planus. It has even been shown to improve outcomes of COVID-19 infections, likely by reducing inflammation and improving immune function. The process of inflammation is controlled by the immune system, and many disorders (such as autoimmune diseases), involve an impaired immune response.  Improve sleep: Light is a primary regulator of the body’s circadian rhythm, so it is not surprising that PBM has effects on sleep. Application of PBM during wakefulness improves sleep quality in people with cognitive decline, Guillain-Barré Syndrome, fibromyalgia and stroke. Interestingly, sleep duration decreased with full body PBM in elite athletes, while other parameters such as exercise recovery improved. When PBM 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, PBM 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.  This list of uses for PBM is not exhaustive. Research exploring the use of PBM is expanding into many areas of health, with exciting results being seen in areas including hypertension, polycystic ovarian syndrome, eye health, and fertility, to name but a few. Truly, the range of applications of PBM for improving health is incredibly vast and can be explained by the cellular and molecular changes induced by light exposure.  If you’re interested in buying a home PBM device, you have many options. When choosing a device, first look for a one that emits both red and NIR light. Second, look at the power of the device. While many high powered PBM units are available (usually at a higher price point), research shows that when it comes to light, more is not necessarily better. This is because PBM treatment to many tissues has a “biphasic” effect, where lower levels are beneficial while higher levels are not. But you don’t want to go too low, or you won’t get the treatment effect. Many of the cheaper devices on the market are underpowered and provide very little irradiation. At Fringe, our PBM devices were designed to mimic exposure to the sun, with consideration of the range of light exposure used in scientific research. Lastly, consider the type of device that is most appropriate for your condition. PBM devices come in panels and wearable forms such as wraps, with wearables providing more flexibility in terms of application and panels being better for general irradiation of larger surfaces.  For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/

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February 7, 2024

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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February 7, 2024

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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February 7, 2024

What is Earthing?

Earthing means connecting the body to the earth’s surface electric charge. Earthing is said to be a form of “electric nutrition” and a “universal regulating factor in Nature” because research has shown that it has a profound impact on human health (Menigoz et al., 2020). In fact, the simple act of regular contact with the earth has been shown to positively influence immune function, enhance muscle healing, improve bone health, reduce blood pressure, increase blood flow, enhance nervous system functioning, and improve sleep and mood. The earthing movement came out of Germany in the late 19th century and promoted sleeping on the ground outdoors and being barefoot outside as ways to achieve health (Just, 1903). In the 1920’s, Dr. G.S. White reported that sleeping on the ground, or connected to the earth such as by copper wire attached to grounded pipes, resulted in improved sleep (White, 1929). However, it wasn’t until the late 20th century that these ideas gained traction, when Clint Ober (Ober, 2000) and Sokal and Sokal (Sokal & Sokal, 2011) in Poland confirmed through research studies that there were many health benefits to being grounded to the earth. Ober, who worked with cable TV, realized this association through his experience with electrical systems, which require contact with the ground in order to be electrically stable. When these systems are connected to the negative charge on the earth’s surface they are said to be “grounded”. The term “grounding” is used synonymously with the term “earthing”. There are two ways to connect to the flow of electrons over the surface of earth: (1) directly, by putting the body in contact with natural conductive surfaces such as grass, soil, gravel, stone and sand; (2) putting the body in contact with grounded conductive mats, pads, body bands, or patches (usually while sitting or sleeping). The earth’s electron flow comes primarily from lightning strikes, solar radiation, and other atmospheric phenomena. These electron sources are continuous and give the earth a natural negative electric charge, since free electrons are negatively charged. (Menigoz et al., 2020). Until quite recently, it was the natural human state to be grounded virtually 24 hours a day. Humans walked barefoot and slept on the ground for most of our evolutionary history. Even when we adapted to wearing footwear and using bedding, it was made from animal skins that when moistened with ground moisture or sweat were able to conduct electrons from the ground to the body. Only recently have we shifted to wearing footwear with synthetic soles, living primarily on top of concrete. In this way, we might be said to be disconnected from our “electric roots” (Sinatra et al., 2017).  The theory of “electron deficiency syndrome” states that as a consequence of the loss of an electric connection to the earth, that a natural source of electron flow to the body has been lost, which will have significant adverse physiological consequences (Oschman et al., 2015). Following this, it is possible that the loss of electric connection to the earth, a relatively recent phenomenon, might underlie (at least in part) the rise in global illness of the 21st and 22nd century (Menigoz et al., 2020). Humans As Bioelectrical Beings The idea that electron flow from the earth may play an important role in regulating human physiology is consistent with our understanding of humans as bioelectrical beings. Internal bioelectric signals regulate the function of the cardiovascular, nervous, immune and endocrine systems. The measurement of the body’s electrical character is called electrophysiology.  The flow of electrons over the surface of the earth can be transferred into the human body through direct contact. Electrons have a negative charge, and in the body, like to occur in pairs. These electrons can act to neutralize free radicals, which have an unpaired electron that makes them unstable. Some free radicals are also known as reactive oxygen species. Free radicals are readily produced in the body and can do damage to surrounding cells and tissues. The free electron of a free radical can be “quenched” by an electron donor, stabilizing it in a pair. This is how antioxidants work – they act as electron donors to neutralize free radicals. In this way, the earth is seen as a giant antioxidant (Menigoz et al., 2020). Probing into this mechanism more deeply, it has been proposed that the electron flow provided by earthing may be able to break through the “inflammatory barricade” that can slow the healing response. This barricade develops in response to trauma or infection and serves to wall off damaged tissues and prevent bacteria, pathogens, or debris that result from an injury from travelling to (and harming) nearby tissues. However, the barricade also prevents treatments like antioxidants from accessing the site of injury, which can reduce the rate of healing. Because the barricade is made of the connective tissue collagen, which is a semi-conductor, electrons are able to cross through and perform their healing antioxidant action at the site of damage. In fact, all proteins act as semi-conductors which could have profound implications for the movement of electrons throughout the body. This may be particularly relevant for chronic inflammatory diseases (Sinatra et al., 2017).  The effect of earthing on the electrical potential of the body has been demonstrated in research. Measurements of the body’s electrical induced fields in the left breast, abdomen, and left thigh were measured while both grounded and ungrounded, and it was found that the measured voltage in the grounded state was equalized with the Earth’s electrical potential. This voltage stayed constant despite the application of an electrical field. In contrast, when ungrounded, the application of an electrical field to the three body positions resulted in a large increase in electrical potential at the surface of the body, which is thought to disturb the electrical charges of molecules inside the body (Applewhite, 2005).  As described by Nobel Prize winner Richard Feynman, when the electric potential of the body is the same as the Earth’s electric potential (which is what has been shown to occur during grounding), the body becomes an extension of the Earth’s electrical system in a phenomenon known as the “umbrella effect”, which results in the person being unaffected by electrical disturbances (Feynman et al., 1963). Earthing has also been shown to result in rapid changes in measures of body electrophysiology as measured by brain electroencephalograms (EEG’s) and muscle electromyograms (EMG’s) (Chevalier et al., 2006). This evidence clearly indicates that the concept of earthing affecting the electrical nature of the body is not merely theoretical.  Effects of Earthing on the Body Immune System: The immune system regulates inflammation. Earthing has been shown to alter the inflammatory response to an injury, especially chronic infection. This is thought to be accomplished by passage of electrons through the inflammatory barricade previously described, which allows for healing following infection and injury. Inflammation has been shown through infrared imaging to decrease within 30 minutes of earthing, which is accompanied by metabolic changes that suggest tissue healing (Oschman et al, 2015). Earthing the human body has also been shown to speed up the immune response following vaccination. This has been demonstrated by measuring levels of immune markers in the blood following vaccination (Sokal & Sokal, 2011). Musculoskeletal System: Earthing helps muscles to recover from exercise. Three studies have shown that earthing is able to reduce delayed onset muscular soreness (DOMS) that occurs 24-72 hours after unusual or strenuous exercise. In the first study, 4 healthy men experienced a reduction in DOMS as well as pain and inflammation compared to a control group (Brown et al., 2010). In the second study, a larger group of 16 healthy men experienced similar effects (Brown et al., 2015). In the third study, subjects slept on an earthing sleep mat and compared to a control group, experienced positive effects such as a faster recovery, decreased inflammation, and less muscle damage (Müller et al., 2019). Earthing during cycling exercise has also been shown to significantly reduce the level of blood urea, which is an indicator of muscle and protein breakdown (Sokal et al., 2013). Based on these findings, it appears that earthing may be a simple and effective method to enhance recovery after exercise, which is important as very few interventions are known to help with DOMS.  Bone health has also been shown to benefit from earthing. After a single night of sleeping grounded, subjects showed decreases in levels of the minerals calcium and phosphorus in both the blood and urine, which suggest a reduced rate of bone loss (Sokal & Sokal, 2011). Cardiovascular System: Earthing has been shown to improve blood flow in adults. Specifically, earthing has been found to increase the Zeta potential of red blood cells. The zeta potential is an indicator of the strength of the negative charge on the surface of red blood cells that helps to maintain the spacing of the blood cells while in the blood, which reduces the “viscosity” or thickness of the blood. When the zeta potential is higher, blood cells repel each other and there is less clumping and improved blood flow. In one study, the zeta potential increased by an average of 270% within two hours of earthing (Chevalier et al, 2013). The relationship of this effect to negative charge, and the speed of the effect, seems to clearly illustrate the electrical influence of earthing on the body.  Earthing has also been shown to reduce blood pressure. In a study of 10 patients with hypertension, all subjects experienced a decrease in blood pressure with earthing. Blood pressure decreased when patients grounded themselves for at least 10 hours per day using a grounding mat. Systolic blood pressure decreased by an average of 14% (Elkin & Winter, 2018). Other cardiovascular related effects have been found with earthing. A placebo-controlled study found an increase in respiration rate, stabilization of blood oxygenation, and an increase in the pulse rate and perfusion index (a measure of blood flow) variability when grounded. These changes are thought to indicate the onset of a healing response that requires an increase in oxygen consumption (Chevalier, 2010). Autonomic Nervous System: Earthing affects the function of the autonomic nervous system (ANS) in both infants and adults. The ANS is responsible for regulating body processes such as heart rate, blood pressure, respiration and digestion. When earthing patches were placed on the skin of premature babies, within minutes increases in heart rate variability (HRV) were observed, which indicate better functioning of the ANS. This may help to reduce the risk of necrotizing enterocolitis, which is severe illness that affects about 10% of premature infants and can cause death (Passi et al., 2017). In adults, earthing has been found to cause a shift from an overactive expression of the sympathetic nervous system (“fight or flight”) to a parasympathetic (“rest and digest”) state that regulates heart rate, respiration, digestion, and other functions (Chevalier, 2010). Earthing also exerts a normalizing effects on levels of the stress-related hormone cortisol (Ghaly & Teplitz, 2004). In this way, earthing has the effect of reducing stress. Skin: Earthing has been found to increase blood flow to the skin. Following earthing, there was a rapid increase in blood flow to the face in a placebo-controlled study in which the control group was given a “sham” earthing experience (Chevalier, 2014). This might explain the results of a survey that found that women reported having better facial complexions after earthing (The Earthing Institute). Increased blood flow to the face, neck and torso has also been shown following earthing (Chevalier, 2015).  The effects of earthing on the skin have also been studied in the context of wound healing. A case study of an 84 year old woman with an eight-month old open wound near her ankle responded dramatically to two weeks of using an earthing patch after several unsuccessful treatments at a specialized wound center (Sinatra et al., 2017). This is consistent with animal research that shows that electric currents increase energy production and protein synthesis in rat skin (Cheng et al., 1982). Sleep: Many people report better sleep with earthing. The first report of improved sleep with grounding came in the 1920’s from Dr. G.S. White (White, 1929). More recently, in a study of 12 participants, 11 subjects reported that they fell asleep faster and all subjects reported fewer nighttime awakenings after 8 weeks. Subjects also showed normalization in their 24-hour profile of cortisol secretion (Ghaly & Teplitz, 2004). Similarly, in a controlled, blinded study of 60 subjects who reported disturbed sleep and chronic muscle and joint pain, the group who slept on the grounded sleep mats reported a wide variety of benefits, including improved sleep and sleep apnea after one month (Ober et al., 2010). Mood: Earthing has been shown to improve mood. In a double-blind, placebo-controlled study of 40 adult men and women, those who spent an hour sitting comfortably in a recliner on a grounded mat, with their head on a grounded pillow, and with grounding patches on their palms and soles showed significantly improved mood compared to the control group, who used the same products that were not grounded. Specifically, participants reported a more pleasant mood, feeling less tired and more relaxed, and feeling more positive (Chevalier, 2015).  Clinical Recommendations Earthing represents an incredibly safe, inexpensive, and effective intervention that can easily be integrated into one’ life. There are three ways that health care providers can recommend earthing to their patients. These are: 1. Earthing outdoors. Sessions of 30-40 minutes daily have been shown to be effective (Sinatra 18). This is also the most inexpensive method of earthing. People can go barefoot outdoors or can buy outdoor conductive footwear. Unfortunately, time and weather may be limiting factors. Also note that in order for electron transfer to occur, one must be on a natural conductive surface, such as soil, sand, gravel, grass or stone. 2. Earthing products. There are a number of grounding products that are available commercially. These include sleep mats, blankets, bands, patches, chairs, and mats. These products are connected via an electrical cord to a grounded outlet, or less commonly, to a grounding pole placed in the earth. Prices vary but are quite reasonable. 3. Earthing in clinic. Health care practitioners can provide treatments to patients while lying on an earthing mat, or can provide in-clinic earthing sessions where patients use grounding products like chairs, mats, and patches.   Conclusion Our modern lifestyles provide us with many benefits, but they also have served to disconnect us from the earth. It is becoming increasingly clear that this may have adverse effects on our health, and conversely, that health can be improved by reconnecting with the “electric nutrition” of the earth in some way. While earthing outdoors is a free and easy way to get grounded, there are many accessible products available that can facilitate this connection. Given the ease and safety of this intervention, it is recommended that everyone incorporate earthing into their routine of health maintenance and disease prevention.  For more information about Fringe light products, go to: https://fringeheals.com/shop-all-products/ References Applewhite R. (2005). The effectiveness of a conductive patch and a conductive bed pad in reducing induced human body voltage via the application of earth ground.” European Biology and Bioelectromagnetics; 1: 23–40. Brown, D., Chevalier, G., & Hill, M. (2010). Pilot study on the effect of grounding on delayed-onset muscle soreness. Journal of alternative and complementary medicine (New York, N.Y.), 16(3), 265–273. https://doi.org/10.1089/acm.2009.0399 Brown, R., Chevalier, G., & Hill, M. (2015). Grounding after moderate eccentric contractions reduces muscle damage. Open access journal of sports medicine, 6, 305–317. https://doi.org/10.2147/OAJSM.S87970 Cheng, N., Van Hoof, H., Bockx, E., Hoogmartens, M. J., Mulier, J. C., De Dijcker, F. J., Sansen, W. M., & De Loecker, W. (1982). The effects of electric currents on ATP generation, protein synthesis, and membrane transport of rat skin. Clinical orthopaedics and related research, (171), 264–272. Chevalier G. (2010). Changes in pulse rate, respiratory rate, blood oxygenation, perfusion index, skin conductance, and their variability induced during and after grounding human subjects for 40 minutes. Journal of alternative and complementary medicine (New York, N.Y.), 16(1), 81–87.  Chevalier G. (2015). The effect of grounding the human body on mood. Psychological reports, 116(2), 534–542. https://doi.org/10.2466/06.PR0.116k21w5 Chevalier, G. (2014). Grounding the human body improves facial blood flow regulation: Results of a randomized placebo controlled pilot study. Journal of Cosmetic, Dermatological Sciences and Applications, 4, 293-308. Chevalier, G. (2015) One-hour contact with the Earth’s surface (grounding) improves inflammation and blood flow – A randomized, double-blind pilot study. Health, 7, 1022-1059. Chevalier, G., Mori, K., & Oschman, J.L. (2006). The effect of Earthing (grounding) on human physiology, European Biology and Bioelectromagnetics, 2(1), 600-621. Chevalier, G., Sinatra, S. T., Oschman, J. L., & Delany, R. M. (2013). Earthing (grounding) the human body reduces blood viscosity-a major factor in cardiovascular disease. Journal of alternative and complementary medicine (New York, N.Y.), 19(2), 102–110. https://doi.org/10.1089/acm.2011.0820 Elkin, H. K., & Winter, A. (2018). Grounding Patients With Hypertension Improves Blood Pressure: A Case History Series Study. Alternative therapies in health and medicine, 24(6), 46–50. Feynman, R., Leighton, R., & Sands, M. (1963). The Feynman Lectures on Physics, vol.II, Addison-Wesley, Boston, Mass, USA.   Ghaly, M., & Teplitz, D. (2004). The biologic effects of grounding the human body during sleep as measured by cortisol levels and subjective reporting of sleep, pain, and stress. Journal of alternative and complementary medicine (New York, N.Y.), 10(5), 767–776. https://doi.org/10.1089/acm.2004.10.767 https://earthinginstitute.net/rapid-benefits-an-earthing-1-hour-time-trial/ Just, A. Return to Nature: The True Natural Method of Healing and Living and The True Salvation of the Soul. New York, NY: B. Lust; 1903. Menigoz, W., Latz, T. T., Ely, R. A., Kamei, C., Melvin, G., & Sinatra, D. (2020). Integrative and lifestyle medicine strategies should include Earthing (grounding): Review of research evidence and clinical observations. Explore (New York, N.Y.), 16(3), 152–160. https://doi.org/10.1016/j.explore.2019.10.005 Müller, E., Pröller, P., Ferreira-Briza, F., Aglas, L., & Stöggl, T. (2019). Effectiveness of Grounded Sleeping on Recovery After Intensive Eccentric Muscle Loading. Frontiers in physiology, 10, 35. https://doi.org/10.3389/fphys.2019.00035 Ober C, Sinatra ST, Zucker M.  Earthing: The Most Important Health Discovery Ever? Laguna Beach, Calif, USA: Basic Health Publications; 2010. Ober, C. Grounding the human body to neutralize bioelectrical stress from static electricity and EMF’s. ESD Journal Web site: http://www.esdjournal.com/articles/cober/ground.htm. Accessed June 27th, 2021.  Oschman, J. L., Chevalier, G., & Brown, R. (2015). The effects of grounding (earthing) on inflammation, the immune response, wound healing, and prevention and treatment of chronic inflammatory and autoimmune diseases. Journal of Inflammation Research, 8, 83–96. https://doi.org/10.2147/JIR.S69656 Passi, R., Doheny, K. K., Gordin, Y., Hinssen, H., & Palmer, C. (2017). Electrical Grounding Improves Vagal Tone in Preterm Infants. Neonatology, 112(2), 187–192. https://doi.org/10.1159/000475744 Sinatra, S. T., Oschman, J. L., Chevalier, G., & Sinatra, D. (2017). Electric Nutrition: The Surprising Health and Healing Benefits of Biological Grounding (Earthing). Alternative therapies in health and Medicine, 23(5), 8–16. Sokal, K., & Sokal, P. (2011). Earthing the human body influences physiologic processes. Journal of alternative and complementary medicine (New York, N.Y.), 17(4), 301–308. https://doi.org/10.1089/acm.2010.0687 Sokal, K., & Sokal, P. (2011). Earthing the human body influences physiologic processes. Journal of alternative and complementary medicine (New York, N.Y.), 17(4), 301–308. https://doi.org/10.1089/acm.2010.0687 Sokal, P., Jastrzębski, Z., Jaskulska, E., Sokal, K., Jastrzębska, M., Radzimiński, L., Dargiewicz, R., & Zieliński, P. (2013). Differences in Blood Urea and Creatinine Concentrations in Earthed and Unearthed Subjects during Cycling Exercise and Recovery. Evidence-based complementary and alternative medicine : eCAM, 2013, 382643. https://doi.org/10.1155/2013/382643 White, G. The Finer Forces of Nature in Diagnosis and Therapy. Albuquerque, NM: Sun Publishing; 1929.

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January 31, 2024

Red Light Therapy for Alzheimer’s

Red Light Therapy for Alzheimer’s and Dementia Alzheimer’s Disease (AD) and other forms of dementia affect more than 1 in 10 US adults over the age of 65. These diseases are devastating, causing memory loss, disorientation, behavior changes, and an eventual loss of independent functioning. Effective treatments are limited but are desperately needed, especially ones that are safe and have minimal side effects. In recent years one treatment that has shown success in reducing the symptoms of AD and dementia is therapy with red and near infrared light (often referred to as “red light therapy”). In 2021, a comprehensive review of 10 studies of dementia patients treated with red light therapy found that every one of them reported positive results.  Red light therapy for AD is usually applied to the brain, but it can also be applied to the gut. This is because light therapy to the gut affects the gut microbiome. The gut microbiome is known to communicate extensively with the brain (called the gut-brain axis) and to influence functions like mood and patterns of brain communication. A 2022 clinical trial combined red light therapy to the brain and gut in patients with mild to moderate AD. Patients receiving red light therapy showed improved cognitive function relative to the control group. Research has also shown that red light therapy benefits patients with AD when combined with exercise. There are many benefits of light therapy in AD and dementia that occur on a cellular level. These include improving the production of cellular energy, decreasing brain inflammation, and reducing cellular stress – which may ultimately decrease the production of amyloid plaques, which buildup in the brain of AD patients. Red light therapy has also been shown to improve blood flow to the brain. Benefits are from direct absorption of light into the brain as well as by superficial blood and lymphatic vessels in the head. The brain may also benefit when light therapy is applied to other locations on the body, such as the gut and various acupuncture points. As a comfortable tool for targeted cellular healing, cognitive function, and brain health, the Fringe red light therapy head wrap contains 450 LED light chips to provide light therapy and light coverage over the forehead, top, sides and back of the head. 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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