Light particles known as biophotons are released by all living cells and have been discovered to be essential for cellular health. Recent studies suggest that biophotons could play an integral part in mental health disorders like depression and anxiety.
Perfusion involves irradiating lung tissue to be transplanted with ultraviolet and red light, the former killing bacteria and viruses while the latter decontaminates via photosensitization.
Ultraviolet Light Therapy
Studies have demonstrated that UV rays from sunlight damage cells, creating changes that set the stage for cancer formation. Yet researchers have discovered a way UV light therapy can use its UV rays to treat skin conditions and even promote healing – an approach known as photobiomodulation which uses low doses of UV light therapy to strengthen our bodies natural ability to heal itself.
dermatologists employ narrowband UVB (nbUVB), which emits only certain wavelengths from the full spectrum of ultraviolet rays that penetrate both visible and invisible surfaces, thus limiting potential skin cancer risks compared with tanning beds that emit all UVA/UVB rays, making it safe for those living with psoriasis, eczema or vitiligo. Narrowband UVB therapy can be utilized in either an office setting or at home through use of light boxes containing fluorescent broad-band UVB/narrowband UVB fluorescent technology as well as excimer or newer LED technology.
Narrowband UVB phototherapy can also be an effective means of treating morphea, an uncommon skin disorder characterized by white patches with no associated pain that are non-inflamed and hard. Morphea responds well to UVB therapy which speeds the formation of new skin cells while soothing an overactive immune system. For an enhanced experience, combine this treatment with medication such as Psoralen which increases skin sensitivity to UVA rays for what’s known as PUVA therapy treatment.
In addition to its effectiveness against skin conditions such as psoriasis, nbUVB light therapy has shown early promise as an antidepressant treatment. It’s based on research showing biophoton emissions increase during neural activity and correlate with EEG patterns; research also has connected mental health disorders to mitochondrial dysfunction – the cellular structures responsible for producing energy necessary for cell functions – so potentially shaping future treatments based on this relationship.
Researchers are optimistic about this approach to therapy; however, its use should be undertaken with caution due to potential downsides. Long-term UVB exposure increases the risk of skin cancer; thus those receiving nbUVB must receive annual exams from a dermatologist in order to detect and treat any signs of abnormal cell growth.
Biphotonic Blood Therapy
Biophotonics is an area of science and technology focused on the generation, manipulation, detection, emission, and emission of photons (light quanta) from biological materials such as cells, tissues, organisms and biomaterials. This field encompasses techniques like fluorescence spectroscopy Raman spectroscopy holography which use light to excite molecules before measuring any emissions or re-emissions that result.
Researchers from the University of Sao Paulo have developed a novel technique to prevent diseases being transmitted during organ transplantation. It works by irradiating transplant tissue with red light at 660 nanometers wavelength, which causes photodynamic oxidation of oxygen molecules present in virus membranes and genetic material such as Hepatitis C virus or human immunodeficiency virus.
The team developed a device to make their procedure more effective by focusing the light beam through a microscope objective and employing a broad spectrum of wavelengths for greater effect. Their treatment was shown to promote fibroblast growth and matrix metalloproteinases production – essential components in wound healing processes – while increasing blood vessel wall permeability to decrease rejection risks.
Additionally, this treatment was found to decrease inflammation and inflammatory markers in the blood, such as interleukin-6, IL-1, and TNF-. Furthermore, this approach prevented accumulation of glycated hemoglobin associated with diabetes.
Research provides support for the hypothesis that low doses of UV radiation can produce beneficial health effects on various physiological parameters, including oxygen saturation, glycation and immune responses. Studies reviewed also demonstrate the significance of maintaining an ideal ratio of antioxidative and oxidative stress reactions for optimal physiological functioning.
Ozone Therapy
Ozone not only kills bacteria and viruses, it also activates the immune system and has antioxidant benefits. Ozone reduces chronic inflammation, reduces oxidative stress levels, inhibits cancer cell proliferation and increases oxygen utilization rates to promote more efficient cell function and lead to enhanced wellness.
Ozone therapy stimulates an increased intake of oxygen by activating an enzyme known as diphosphoglycerate that releases oxygen from hemoglobin into our cells’ internal environment. Thanks to improved blood circulation due to this therapy, cells can more readily take in this oxygen–even within their small capillaries that make up blood vessel walls!
Ozone’s effects are remarkable due to its coherence, which results from its emission of light. Research suggests this photon-emitting light exhibits an orderly pattern and could serve as an effective communication system between cells; the human brain provides one source of this light which increases during neural activity.
Ultraviolet Blood Irradiation (UBI) is a biophoton treatment using both ultraviolet light (UV) and ozone to kill bacteria and viruses directly, while red light irradiation decontaminates them indirectly through photosensitization to cause irreparable damage to their proteins and genetic material. UBI treatment works by inserting an intravenous line into a vein and drawing six ounces of blood from the patient; then exposed to UV lamps and ozone for exposure. UV kills bacteria directly while red light decontamination decontaminates them indirectly via photosensitization which irreparably damages proteins and genetic material of viruses including Hepatitis C virus and HIV, thus decontaminating them irreversibly from both treatments.
Ozone and UBI treatments have proven highly successful at treating infections, Lyme disease, inflammation, cancer and other medical conditions. Furthermore, their combined effect also improves circulation problems, increases antioxidant defenses and assists the body to reach optimal oxygen utilization for maximum health benefits.
Additional high-quality research must be conducted in order to optimize ozone therapy treatment protocols and identify demographics most likely to benefit from its application. It may also be combined with stem cell treatments for even greater therapeutic effectiveness.
Infrared Light Therapy
Light therapy has gained in popularity due to its ability to manage pain and speed recovery without long-term drug usage. Infrared light therapy provides powerful natural pain relief solutions, helping alleviate chronic joint and muscle discomfort as well as arthritis symptoms or nerve issues.
Infrared light has longer wavelengths than red light and is invisible to human eyes, providing warmth from our sun as well as stars in our galaxy. Penetrated deep into our bodies by Infrared lighting sources such as stars, it penetrates muscles, tissues, organs, and internal organs and reduce inflammation while increasing circulation and delivering nutrients directly into cells for repair and restoration purposes.
Perfusion involves adding a photosensitizing compound into the liquid that circulates throughout an organ to be transplanted, so when exposed to red light at 660 nanometers wavelength it absorbs energy and triggers photodynamic oxidation, effectively dismantling viruses such as Hepatitis C and HIV while eliminating them altogether.
Biophotonic decontamination procedures have proven their ability to dramatically increase transplant success rates, making doctors’ evaluation of organ donors simpler and facilitating organ donations more easily. Researchers hope that further refinements to this technique may allow even sharper reductions of viral loads and thus eliminate the need for perfusion fluid altogether.
Comparative to UV and ozone therapies, infrared light therapy does not carry any of the same risks of damage or cancer risk. It does not alter cell DNA and does not increase your risk of skin cancer.
Infrared light therapy can be an effective solution to back and neck pain, sports injuries, fibromyalgia and other painful conditions. It may also ease joint and muscle discomfort by warming stiff joints and reducing swelling. Finally, infrared light can stimulate nitric oxide production and increase circulation to damaged or ailing tissues more efficiently.
