Recently, according to the query on the national medical insurance service platform, 14 medical items related to air anion have been included in the national medical insurance directory! The serial number is 340100016, which is enough to prove the affirmation of the country on the medical and health care value of air anion.
As early as two years ago, academician Gu Ying of the General Hospital of the People’s Liberation Army took the lead in the fourth CSAS technology and standards seminar on “technology, intelligence and health” held by the Standardization Committee of the National Semiconductor Lighting Engineering Research and Development and Industry Alliance (CSAS), which was formally launched in 2018 by Harbin Medical University, Fudan University, Beijing University of Technology Suzhou Institute of Biomedical Engineering and Technology, Chinese Academy of Sciences and other units are responsible for part of the project of “Research on the mechanism of LED for health and medical treatment and the development of special equipment, which is an important support direction of the key special project of the National Key Research and Development Plan” Strategic Advanced Electronic Materials “, and released the” Progress in the application of LED light sources in the treatment of immune-related diseases ” Five light health research achievements, including “Research progress of LED light source in the treatment of fungal infections and pathogen disinfection and sterilization”, “Research progress of LED light source in the treatment of cardiovascular diseases”, “Research progress of LED light source application in the treatment of metabolic diseases”, “Mechanism research and clinical demonstration of LED treatment of neuropathic pain”. These achievements have once again provided basic research data of optical health in medicine, and confirmed the important role of optical technology in medical treatment.
Photonegative ion technology is an advanced technology formed by innovative integration of “light element” and “negative ion element”, which has unlimited potential in the field of medical care. On the one hand, optical technology has been widely studied in medicine, which has proved its remarkable effect; On the other hand, negative ion technology, as a health factor with a century-old research history, can enter the human body through breathing and play an efficient biological role. At the same time, negative ions have advantages that drugs do not have. They can not only achieve the same treatment of different diseases, but also avoid the toxic and side effects of drugs. Therefore, photonegative ion technology has both advantages and plays an increasingly prominent role in medical and health care functions.
Photonegative ion is an integrated technology that can simultaneously simulate the solar spectrum (including visible spectrum, infrared spectrum and ultraviolet spectrum) and output negative oxygen ions in the forest. As a product of the combination of sunlight and negative oxygen ions, the Light Negative Oxygen Ions (LNOI) has already existed in nature. According to the principles of simulation, based on the solar spectrum of nature and the data of negative ions in the forest, by studying various spectral data, the reaction mechanism of ozone and negative oxygen ions, and based on the mature application technology of artificial light sources and negative oxygen ion generators, We have developed photonegative oxygen ion products.
In 2019, the project “Study on the effectiveness of artificial simulated natural light source to delay the progress of myopia in school-age children” (application code: FS0601) was successfully applied. In view of the high prevalence of myopia in children in China, the project, based on the research of healthy light sources, artificially synthesized simulated natural light sources through spectral digital synthesis technology, and carried out animal experimental research on the safety and effectiveness of artificial simulated natural light sources; On the basis of previous studies, a randomized controlled clinical study was carried out to observe the effectiveness of artificial simulated natural light source in controlling and delaying the progress of myopia in children. The one-year myopia rate decreased by 5%, providing a new method for the control and prevention of myopia in children. Another project, “Research on the application of light cryptography and light control technology in depressive disorder” (application code: FS0604), is based on the visual emotion loop, combining light control technology with the impact of color on emotion, developing the application of lighting material development technology in depressive disorder, and carrying out basic research on the impact of light in depressive disorder. In 2020, the “Research on the Mechanism and Clinical Technology of Light Health Technology in Treating Insomnia” (application code: FS0502, discipline code: H09) project will study the biological rhythmic chain reaction from light signals to neuroendocrine signals, and the changes of corresponding behavioral and physiological activity parameters; Using the light code and light formula technology, simulate the natural light source, and develop the intelligent insomnia disorder phototherapy system; To explore the mechanism of phototherapy system for insomnia; The efficacy and safety of the system in the treatment of insomnia were verified through clinical research, providing theoretical basis for clinical promotion and application. In 2021, the “Basic Research on the Application of Light Formula and Light Control Technology in the Treatment of Skin Diseases” (application code: FSB0601, discipline code: H11) project will study the mechanism of the influence of light sources with different sources, frequencies and energies on the local immune environment and the systemic immune system of the diseased skin; To study the molecular mechanism of light source’s damage to skin diseases and its defense, to develop intelligent, healthy and efficient phototherapy system using precise light formula and light control technology, and to study the efficacy and safety of phototherapy system in the diagnosis and treatment of skin diseases through clinical research. These projects have been selected into the project guide of Guangdong Basic and Applied Basic Research Fund.
Photonegative ion technology is not a simple “light+negative ion”, but an innovative combination of “1+1>2”. Its research in medicine still has a lot of potential to be tapped, and further exploration still has a long way to go. We hope that photonegative ion technology can be applied to medical treatment as soon as possible and benefit millions of people.