#HOCl #Disinfectant #COVID19 #Antiviral #Antibacterial #HealthCare #NaturalSolutions #VirusPrevention
In a significant leap in the realm of health and safety, a low-cost and naturally derived solution, hypochlorous acid (HOCl), has been spotlighted for its remarkable antiviral and antibacterial properties. Authored by Yuhong Dong, M.D., Ph.D., and highlighted in The Epoch Times, this discovery outlines how hypochlorous acid, a compound that our white blood cells naturally produce, can be synthesized from electrolyzed saline water— a technique developed over a century ago. This solution stands out not only for its efficacy in killing a broad spectrum of microorganisms within minutes but also for its safety and versatility in application.
Hypochlorous acid’s effectiveness is rooted in its chemistry, where its application and potency are determined by the pH level of the solution. Neutral electrolyzed salt water (NEW) and slightly acid-electrolyzed water (SAEW), both forms of electrolyzed water (EW), showcase promise due to their safe pH levels for human contact. These solutions, rich in HOCl, are safe for use on skin, nasal and oral mucosa, and wounds, making them ideal for a broad range of applications across industries, including food safety, agriculture, and most notably, healthcare. Their widespread utility goes from sanitizing drinking water and medical equipment to disinfecting surfaces, showcasing an eco-friendly and non-toxic approach to combating pathogens.
The onset of the COVID-19 pandemic pushed HOCl into the limelight, as it was recommended by the U.S. Environmental Protection Agency as an effective defense against the coronavirus. This recommendation was supported by a randomized controlled trial among frontline medical staff in Mexico City, which demonstrated a significant reduction in COVID-19 infection rates among those who used a NEW solution as a nasal spray and mouth rinse. Furthermore, HOCl has been studied for its potential in reducing the risk of hospitalization and death among COVID-19 patients, suggesting not only its preventive but also therapeutic benefits. Its safety profile further emphasizes its utility, offering a non-irritating alternative to alcohol-based sanitizers, which often cause skin damage.
Beyond its antiviral applications, hypochlorous acid possesses a broad spectrum of utility in healthcare and beyond, from dental hygiene to wound care, highlighting its role as an agent capable of significantly reducing bacterial load and biofilm on medical surfaces and devices. Essential for making HOCl is its accessibility; it can be produced at home with a basic electrolyzing setup, empowering individuals to harness its benefits safely. Yet, its simplicity and ease of production do not detract from its potency—HOCl represents a profound example of how natural, cost-effective solutions can offer substantial health benefits, aligning with the growing recognition of nature’s bounty in providing potent remedies for human ailments.
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