Red light therapy is an easily accessible and affordable clinical device that boosts metabolism and increases ATP energy production. It is a non-invasive modulator of metabolism that delivers proper frequency, power, and luminance by shifting the mitochondria's function organically.
Ketogenic Diet and Red Light Therapy
A ketogenic diet involves the consumption of low-carb, high-fat meals. When practiced together with red light therapy, it can amplify your metabolic flexibility. It also helps cells burn more sugar and fat efficiently. Good levels of ATP energy production (empowered by mitochondria by converting oxygen and nutrients to ATP) can help prevent high-blood or low-blood pressure conditions. The process of creating ATP energy works best when our body and cells are well-balanced, reaching a state called homeostasis.
One thing to consider in following a diet plan is over-nutrition, which may lead to metabolic inflexibility. When over-feeding happens, the production of ATP energy may result in metabolic congestion. Red light therapy can help alleviate this metabolic congestion by focusing amplification of ATP energy levels. Insulin can mediate metabolic congestion by the fluidity between glucose, fatty acids, and amino acids. An important step for ATP energy production is forming the COX enzyme, which can aid metabolism by pairing oxygen neutralized into the water with high-energy electrons.
If the COX enzyme goes out of sync with electrons' flow, the high-energy electrons won’t effectively be neutralized into water. Red light can help regulate the healthy formation of the COX enzyme, efficiently oxidizing fat. The ketogenic diet triggers cells to insulin by stimulating ATP energy production by increasing metabolic flexibility, reducing carbon combustion, and helping clear metabolic congestion.
Significance to Healing
The chemical DHEA (dehydroepiandrosterone) plays numerous vital roles in health. It helps with the metabolism of cholesterol that produces hormones such as progesterone, estrogen, and testosterone. As we age, our levels of DHEA decreases, as well as the synthesis of such hormones. Low levels of progesterone can affect women in their peri-menopausal and post-menopausal stages. This is a function of the decline in mitochondria, which then affects ATP energy levels.
Low levels of DHEA may contribute to the insufficiency of adrenaline and estrogen dominance, which is common to middle-aged women at the peri-menopausal or post-menopausal stage. Women rely on the production of adrenaline and DHEA to keep their progesterone levels and prevent estrogen dominance.
Lower production of DHEA and progesterone can be an effect of elevated secretion of cortisol that is caused by acute/chronic stress. When high levels of stress reduce the adrenal glands' proper functions due to the decrease of synthesis of the adrenal cortex steroid hormones in the mitochondria, it results in adrenal insufficiency.
Based on health professionals' studies, when cortisol levels drop, it inhibits the synthesis and secretion of DHEA/progesterone, resulting in pathophysiological changes caused by stress. Enzyme activation and regulatory signaling can affect the fluidity dynamics between cortisol, DHEA, and other hormones such as progesterone, estrogen, and testosterone.
Red light therapy and ketogenic diet can mediate inflammatory stress and regulate the healthy production of DHEA.
Estrogen is a master regulator of female metabolism. A youthful and regulatory expression of estrogen is the production of 17B-estradiol (E2). It modulates the menstrual cycle to ensure the healthy release of the corpus luteum, which secretes progesterone.
On the other hand, progesterone helps maintain a healthy uterus lining. When the expression of E2 is sufficient, progesterone secretion also increases. Having high progesterone levels means having lower estrogen and a lesser risk of getting diseases like breast, ovary, and colon cancer. E2 also contributes to potential partition fuel, orchestrating metabolic flexibility, and increasing energy levels that lead to optimal cerebral glucose metabolism.
The decline in the peripheral steroidogenesis of E2, progesterone, and testosterone is common as time goes by.
A 12-week ketogenic diet may increase testosterone levels in men due to an increase in cholesterol and DHEA. Red light therapy also improves the mitochondrial synthesis of testosterone from DHEA.
For males, testosterone naturally converts to E2, but healthy testosterone levels stipulate a hormonal challenge to the synthesis of E2. An enlarged prostate can be caused by estrogen dominance when there is no testosterone/estrogen ratio balance. Having healthy testosterone levels may lead to a decline of estrogen dominance, as it is for progesterone in women.
Other Healing Benefits
Healthcare professionals strongly believe that red light therapy can be a powerful healing agent that may help prevent diabetic ulcers and lower chances of extremity amputations when practiced together with a ketogenic diet.
Diabetic ulcers usually result to lower limb amputations in the long-run. Studies show that diabetic foot ulcers and lower extremity amputations are increasing in number. In fact, having unhealed wounds can be alarming as the post-amputation survival rate for people with diabetes averages to only five years. Statistics show the urgent need to prevent, detect, and prove that treatments for lower limb ulcers should be highly considered. Red light therapy has been proven to increase the circulation of blood flow and healthier skin.
Red light therapy and ketogenic diets are considered to be disruptive innovators in the healthcare system. Apart from the fact that red light therapy is non-invasive, such treatment shows great potential in helping lengthen the lifespan and improve people's overall health. Red light therapy also promotes a more affordable and accessible treatment that can be done in the comfort of your home.
Here at Kaiyan Medical, we offer red light therapy devices to help you achieve your health and aesthetic goals. To learn more about the brands and products we offer, please click here.