BioNeutral Group presents lab results for antimicrobial used on swine flu
NEWARK, N.J. BioNeutral Group on Thursday announced that independent lab test results conducted at Microbiotest of Sterling, Va., demonstrated that its Ygiene Consumer Grade Antimicrobial totally eradicated the novel H1N1 virus within 20 seconds of contact.
“We are well on our way to achieving our objective to have the fastest-acting, least-expensive, longest-lasting, simple-to-use, green formulations to eliminate swine flu from home, office, schools and public gathering places,” stated Andy Kielbania, chief scientist for Bioneutral Group. “This mild formulation can come into daily contact with skin and clothing, providing added protection against H1N1 and other dangerous organisms for the general population and the broader healthcare sector, as well.”
Ygiene is one of a few antimicrobials actually tested against the specific H1N1 virus, the company stated.
The formulation will be presented to the U.S. Environmental Protection Agency for regulatory approval, the company stated.
As seen on shelf at Walgreens, having a major pharma player like Bayer HealthCare field what essentially is a hangover-relief product adds credibility, not to mention a little more shelf presence, to similar products like Living Essentials’ Chaser Plus.
Study: Hand rinsing can reduce contraction of gastrointestinal illnesses
RESTON, Va. New research out of the U.S. Geological Survey has determined that hand rinsing effectively may reduce exposure to microbes that cause gastrointestinal illnesses commonly found in beach sand.
“Cleaning our hands before eating really works, especially after handling sand at the beach,” stated Richard Whitman, the lead author of the study. “Simply rinsing hands may help reduce risk, but a good scrubbing is the best way to avoid illness.”
For this study, scientists measured how many E. coli bacteria could be transferred to people’s hands when they dug in sand. They analyzed sand from the shores of Lake Michigan in Chicago. Using past findings on illness rates, scientists found that if individuals were to ingest all of the sand and the associated biological community retained on their fingertip, 11 individuals in 1,000 would develop symptoms of gastrointestinal illness. Ingestion of all material on the entire hand would result in 33 of 1,000 individuals developing gastrointestinal illness.
In a further laboratory experiment, USGS scientists determined that submerging one’s hands four times in clean water removed more than 99% of the E. coli and associated viruses from the hands.
In recent years, USGS scientists have discovered that concentrations of E. coli bacteria in beach sand are often much higher than those in beach water. Follow-up research at beaches around the nation by many scientists has resulted in similar findings, although the amount of bacteria in sand varies depending on the beach. Although beach water is monitored for E. coli as mandated in the Beaches Environmental Assessment and Coastal Health Act (BEACH Act 2000), beach sand is not currently monitored for contamination.
Recent analysis of seven beaches across the nation by the University of North Carolina -Chapel Hill and the U.S. Environmental Protection Agency showed that beachgoers digging in sand were more likely to develop gastrointestinal illness after a day at the beach compared to those not digging in sand. The association with these illnesses was even stronger for individuals who reported being partially covered up in sand. Because children played in the sand more frequently and were more likely to get sand in their mouths, they were more likely to develop gastrointestinal illness after a day at the beach.
“The excess illnesses we observed among those exposed to sand generally consisted of mild gastrointestinal symptoms, but it is a good idea to be sure to wash your hands or use hand sanitizer after digging or playing in the sand,” stated Chris Heaney, lead author of the UNC study.
E. coli is an indicator of recent sewage contamination and if it is present, pathogens harmful to human health are also likely present. The origin of these bacteria is often unknown. They can persist throughout the swimming season, remaining a potential contamination source to beach visitors.
Results of these studies highlight the need to intensify efforts to determine sources of microbial contamination to beaches and associated risk of playing in beach sand.