Bioxytran's Medical Breakthrough in Fighting All Viruses

In This Article:

Breakthrough was validated in the latest journal article

Galectins are essential for viral entry and a new target for drug development

Carbohydrates were shown to neutralize viruses

Blocking galectins could be the most efficient way to prevent and treat viruses potentially impacting the vaccination and antiviral markets

BOSTON, MA / ACCESSWIRE / September 19, 2024 / BIOXYTRAN, INC. (OTCQB:BIXT) (the "Company"), a clinical stage biotechnology company developing drugs to treat stroke and Alzheimer's disease, announced a medical breakthrough in virology that was validated in a peer-reviewed medical journal article. The European Society of Medicine published a peer-reviewed article detailing a study which shows how Bioxytran's leading drug candidate, Prolectin-M, stops COVID-19 and other viruses in their tracks. The study used advanced Nuclear Magnetic Resonance (NMR) spectroscopy to reveal how this drug works by blocking a protein called galectin, which helps viruses attach to cells. The discovery could impact both the vaccination and antiviral markets, which combined are estimated at approximately $147 billion according to Grandview Research and Statista.

https://esmed.org/MRA/mra/article/view/5616

The peer-reviewed article identified Galectin-3 as a crucial "glue" that helps the virus attach to and enter human cells by sticking to the ACE2 receptor, altering our existing understanding of how viral infections occur. The discovery was proven using NMR Spectroscopy which is extremely precise compared to the 50-year-old ELISA tests which was used to establish virology's initial foundation on how viruses worked and interacted with antivirals. The report proved that by blocking this process, the drugs prevented the virus from entering the cells, which means the virus couldn't make people sick. The double-blind placebo controlled clinical studies showed that these drugs were 100% effective in reducing symptoms and eliminating the virus in 2 peer-reviewed clinical trials.

The study also pointed out that galectins, located on the spike protein of the virus, are an excellent target for drugs because it doesn't change much, making it easier to stop the virus from attaching to cells. This could make these drugs effective against a wide range of viruses, not just COVID-19.

"This discovery might be one of the most significant advancements in virology," said Dr. David Platt, CEO of Bioxytran. "In our first case study to make a SARS-CoV-2 antiviral drug, it appears we have on our hands the first truly broad-spectrum antiviral that may operate across different families of viruses. We believe we have discovered a reproducible method that could potentially be used to create many antiviral drugs that could potentially quickly fight off new viruses, even those that mutate rapidly. We believe our approach represents a new era in antiviral drug development. With the help of advanced technology and Artificial Intelligence (AI), it is now possible to design antiviral drugs that could potentially neutralize any virus. This discovery could change the way we treat viral diseases and even chronic illnesses like cancer. We believe major advancements in virology with this new tech will be measured in months instead of years and decades as has been the case in the past."