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Hospital-acquired infections can cost up to $40,000 per incident! The proper use of NIXALL® Hospital-Grade Disinfectant reduces HAIs.

About On-Site Generation

Drastically reduces the number of hospital-grade disinfectants needed for a hospital-sized setting!
Annihilyzer
On-site hypochlorous acid generation
The Annihilyzer is Designed for the In-House Production of NIXALL® Hospital-Grade Disinfectant as found on the EPA’s List-N as approved to fight against Sars-Cov-2.

Our equipment allows the operator to produce up to 300 gallons a day of Hospital-Grade NIXALL® Disinfectant. The program allows the facility to pay a flat monthly fee to produce fresh disinfectant in their own facility.

We also offer machines that will produce 300, 600, or 1,000 gallons daily.
On-site generation was born out of necessity. Shipping a ready-to-use product is not good for the environment, nor is it cost-effective. In the past, on-site units were large 200v units and cost-prohibitive.

Our Green Seal™ certified 110-120v units can plug into a regular outlet and generate a full-strength hypochlorous (disinfectant) on site. As an additional option, a sodium hydroxide (cleanser) can also be produced at the same time! Both disinfectant and cleaner can be easily dispensed on-demand.

Disinfectant use has exploded during the coronavirus pandemic as people try to keep their hands and surfaces clean. But one family of cleaning chemicals is receiving scrutiny for potential health concerns.

Quats, or quaternary ammonium compounds, are charged molecules that can kill bacteria, fungi and viruses. Quats are effective disinfectants, but some researchers are raising alarm given recent research on the compounds’ possible human health and environmental effects, including fertility issues, endocrine disruption, occupational asthma, marine toxicity and potential to spur antibiotic-resistant bacteria.

And, while industry defends quats as safe, some states are taking notice and looking into regulations.

Bacterial resistance

The pandemic has increased demand for products like Lysol wipes that use quats as active ingredients: Sales of Lysol wipes were up nearly 50% in spring of 2020 compared to 2019. Other cleaning products are also in high demand — aerosol disinfectant sales as a whole have doubled in 2020 in the U.S., a large fraction of which also contain quats.

All those additional sales mean quats are becoming more present in the environment. “We’re in an era now where the concentration [of quats] is certainly higher than ever before,” William Arnold, an environmental engineer at the University of Minnesota, told Environmental Health News (EHN). He published a paper in June that revealed an increased load of quats may be ending up in wastewater plants, with some worrisome implications. Quats can end up in wastewater plants after they’re flushed down the drain — at the levels of use during the pandemic, some plants can’t keep up, so quats have the potential to pollute waterways. There, they might disrupt marine food chains, as quats have been found to be toxic to small invertebrates like plankton in lakes.

The ingredients also may be spurring antibiotic-resistant germs, Arnold said.

Bacteria are constantly working to shore up their defenses against the antiseptics we use. “We’ve had an 80- or 90-year head start, but we really need to keep innovating” to stay ahead of microbial evolution, Kevin Minbiole, a Villanova University chemist who studies how quats affect bacteria and viruses, told EHN.

Quats work like spears, penetrating the shell on the outside of a bacteria or virus. But some bacteria are getting better at recognizing quats and getting rid of them, or becoming resistant, said Minbiole. He and his collaborator, Emory University chemist William Wuest, are experimenting with new antimicrobial ingredients and recently patented their own quats that can mount multiple attacks on a single microbe. These quats are likely even more effective antiseptics than current quats on the market, but the new chemicals haven’t yet been tested for safety, so it’s not clear how their health or environmental impacts might differ, or not, from current quats, according to Wuest.

But the germs may be one step ahead. As they encounter quats and other antiseptics, bacteria can develop broad, rather than specific, resistance. These new bacterial shields, which evolved to block attacks by antiseptics, might also protect them against other threats, including the antibiotic medications doctors prescribe to help fight serious infections.

It’s called cross resistance: when changes bacteria make to get around one threat make them better suited to survive other threats, too. “Those changes make bacteria capable of surviving different compounds, different chemicals that it hasn’t seen before,” Beatriz Pereira, a recent graduate student in microbiology from University of California, Davis, told EHN.

In lab experiments, Pereira has seen bacteria develop resistance to certain quats, even when she only exposes them to low concentrations of the chemicals. The bacteria shore up their defenses, strengthening their outer membrane — a good way to develop cross resistance to other chemicals as well. It’s not clear whether bacteria are yet developing resistance in the wild in response to current levels of quat pollution, or even how much quat pollution currently exists. But to Pereira, these lab experiments alongside a growing body of evidence suggest that the best way to respond to the problem of antibiotic resistance may be not to develop new quats, which might cause the same problem of antibiotic resistance eventually, but to reconsider whether we should be using them at all, at least in some products.

Birth defects and infertility 

Theresa Hrubec, a biologist at Virginia Tech, has also been publishing work on the potential risks of quats — work that started by accident. While she was using mice to study potential side effects of medications, she noticed that some mice in her control group, the mice that weren’t exposed to any medication, were developing birth defects. After ruling out the possibility that she had switched the groups, she found a potential explanation: the facility had recently started using quats to disinfect her lab. The floors were mopped daily, the walls wiped down weekly, and anytime a box of mice was opened, it was wiped down with disinfectant. The mice were all being unintentionally dosed with quats, Hrubec told EHN. And she wasn’t the only researcher who had seen problems with mice and quat disinfectants: Patricia Hunt, a researcher at Washington State University, had seen similar problems with her mice.

Hrubec and Hunt have since published several studies that link quats to health problems in mice, from birth defects to decreases in fertility. For each of the studies, mice were fed a mixture of two common quat disinfectants at high doses for several weeks before being examined for either fetal birth defects or signs of decreased fertility.

Mice that were exposed to quats were more likely to develop neural tube defects, an early-stage birth defect. And doses of quats decreased the number and size of litters born as well.

How exactly quats might cause birth defects is still unknown, according to Hrubec. She has a few theories. Endocrine disruption might be to blame — Gino Cortopassi, who collaborated with Hrubec, found that one quat, although not the same chemical Hrubec used in her research, can bind to hormone receptors. The same lab also found that quats appear to affect how mitochondria function, which can cause a litany of problems in cells.

Inflammation might be another possible explanation. Quats are suspected to cause occupational asthma — exposure to a toxic or irritating chemical that results in lung inflammation. Japanese researchers found in 2010 that mice exposed to quats at high concentrations by inhalation saw cell death and increased levels of inflammation. However, human studies observing quat exposure and occupational asthma have had mixed results, with some researchers arguing that quat exposure hasn’t been definitively linked with lung problems.

Most of the research by Hrubec and her collaborators is done in mice, so quats may not have the same effects on humans. Figuring out how quats might be impacting humans is a much more complicated job. In a pre-print, published last year but not yet reviewed by outside experts for accuracy, Hrubec and her collaborators performed a monitoring study of a small group, 43 people. They detected quats in 80% of the study participants, and quat levels in the blood were associated with higher levels of inflammation and decreased mitochondrial function. The results are still preliminary, but it is among the first research to attempt monitoring quat levels in humans.

Dose disagreement

Not everyone agrees about how the research is being done. In a letter to the editor in response to one of Hrubec’s early studies, Keith Hostetler, an industry representative, raised concerns about the experiment’s design. One critique was the dose level — according to Hostetler, the level of disinfectant fed to the mice would be the equivalent of a 155-pound adult drinking about 1.5 quarts of disinfecting solution daily.

But toxicology studies are pretty typically performed with high doses at first, before being extrapolated down to more realistic doses, according to Heather Patisaul, a biologist at North Carolina State University who studies toxicological effects of hormone-disrupting compounds.

She was not involved in Hrubec’s studies.

“Complaining that the dose is too high and the sample size is too low is a common industry response,” Patisaul told EHN via email. In this case, she said the dosage was particularly high for some groups. However, Patisaul also notes that Hrubec saw birth defects in fetuses when the father was fed less than 1/15 the dose Hostetler mentioned, which she said is more compelling evidence that quats might cause harm.

Still, “neither [dose] is anywhere near a human-relevant range,” Patisaul said, so the results do not definitively show that quats could harm human health with normal levels of use.

The doses were high in order to determine whether quats warrant more research, said Hrubec, adding that many mice that were not fed quats, but were merely present in rooms where quats were used, were also found to develop birth defects. To her, this suggests that the disinfectants present in the lab from regular disinfecting were still enough to trigger health problems.

States take notice

Hrubec has been a constant figure at regulatory meetings on quats. She presented her research during a March 2020 meeting with California’s Biomonitoring Program. During the meeting, other researchers also presented data on quat’s potential for causing occupational asthma and endocrine disruption.

After considering data from researchers and industry, the advisory panel for Biomonitoring California voted unanimously to add quats to the list of chemicals that could be considered for biomonitoring studies, and they plan to discuss quats as potential high-priority chemicals in March 2021, according to Shoba Iyer, a toxicologist for the California Office of Environmental Health Hazard Assessment who works with the biomonitoring program.

The program’s board does not have the authority to ban quats — the purpose of adding quats to the monitoring list and completing biomonitoring studies is to learn more about chemical exposures and inform public health policies and regulations, Iyer told EHN.

Officials from one agency in Massachusetts also have their eye on quats — and they say the pandemic and the resulting increase in disinfectant use has caused them to examine the chemicals more closely. “That’s why we finally decided to take up [quats], because people are using it constantly to try to keep themselves and their workers and customers safe,” Liz Harriman, Deputy Director of the Toxics Use Reduction Institute (TURI) in Massachusetts, told EHN.

Massachusetts state law requires companies that manufacture certain chemicals, or use them to make products, to report use levels of the chemicals and submit plans for safe use. The Scientific Advisory Board for TURI makes recommendations to state agencies on which chemicals to examine, and they are focusing on two classes of quats, both of which are used in surface cleaners, according to Heather Tenney, who heads the board.

In January, the advisory board discussed several categories of research on quats, including birth defects and respiratory conditions like asthma, as well as environmental effects of quats like the potential for microbial resistance. The board did not reach a vote, and will reconvene in March to continue discussing potential action on quats.

Hostetler, the industry representative who has published letters challenging Hrubec’s research, also presented at both the March Biomonitoring California presentation and the TURI meeting in January. At the TURI board meeting, he emphasized that the U.S. Environmental Protection Agency has independently concluded that quats do not have effects on developmental or reproductive health, based on tests that follow agency guidelines.

Manufacturers maintain that their disinfecting products available for purchase have been tested extensively. “They’ve done a lot of research on their formulations. What they put on the market, they know to be safe and efficacious,” James Kim, a Vice President of the American Cleaning Institute, a trade organization that represents manufacturers, told EHN.

Alternatives are available

Despite increased attention from states, quats will likely remain available on the market in surface disinfectants for the foreseeable future. But for consumers looking to avoid quats in their cleaning supplies, alternatives are available.

“Given the huge concern for reproductive toxicity and birth defects in humans, it really makes sense to take a precautionary approach,” Samara Geller, a research analyst for Environmental Working Group, an advocacy organization that pushes for regulation of chemicals in consumer products, told EHN.

While a large portion of disinfectants on the market include either quats or bleach as their main ingredient, there are other options available. Geller said EWG recommends products that contain citric acid, lactic acid, or hydrogen peroxide as their main ingredients. EWG also publishes a guide to cleaning products that aggregates safety data where consumers can check for options.

Consumers can reference the EPA’s list of disinfectants that are expected to be effective against coronavirus, which lists products by active ingredient.

Liz Harriman, the Massachusetts TURI official, said she also urges the public to consider alternative products to those that contain quats. “It’s not so much that we’re dead set against quats,” said Harriman, “But if there are safer alternatives you can use to accomplish the same thing, why wouldn’t you use those?”

Originally published by Environmental Health News.

Drastically reduces the number of hospital-grade disinfectants needed for a hospital-sized setting!

Supply Chain Security

The only ingredients the operator needs to procure are water and salt. No special filtration on the water is necessary so municipal taps are approved to use.

Many of the largest supply chain risks are completely eliminated from your facility by employing our equipment. Without in-house production, your facility risks supply interruptions due to many different events that could happen at any time.

Weather events, natural disasters like fires and earthquakes, political strife, transportation labor issues, and so on.

Secure & Green Procurement & Distribution

All the ingredients to make our Hospital-Grade EPA registered disinfectant, which is approved and effective against SARS-CoV-2, and to kill C Diff spores, are from Mother Earth: Water and salt are the only ingredients!

When these break down, they break back down into their exact form, water, and salt.

Eliminate Excess Packaging & Pollution

The only ingredients the operator needs to procure are water and salt. No special filtration on the water is necessary so municipal taps are approved to use.

Many of the largest supply chain risks are completely eliminated from your facility by employing our equipment. Without in-house production, your facility risks supply interruptions due to many different events that could happen at any time.

Weather events, natural disasters like fires and earthquakes, political strife, transportation labor issues, and so on.

360 ROOM SPRAYER



The optional rolling cart dispenses the NIXALL Hospital-Grade Disinfectant with an electrostatic spray system. The cart automatically sprays 360° on a timer — in a wide radius– within the room to be treated. The cart add-on also includes a handheld wand to allow for disinfection of areas where the automatic spinning head may not have reached.

Electrostatic Hand Sprayer



Utilizes a TRIPLE ATTACK TECHNOLOGY™ that is based on the Science of Disinfection. Our mission is to help you 'Hunt and Destroy' pathogens like CORONAVIRUS is about OXIDIZING the positively charged RNA shell of the virus to destroy it, or our professional teams can provide the on-site service for you.

Employs three of the four common oxidizing agents available (not UVC light, as it requires close proximity and time exposure). The fact is, in order to achieve an ATTRACTION at a molecular, the oxidants need to have a NEGATIVE IONIC CHARGE - opposite to the positive RNA - so they are attracted, not repelled.

CORONAVIRUS, BACTERIA and SPORES all hold a positive charge. Our TRIPLE ATTACK TECHNOLOGY blasts all three oxidation agents with a NEGATIVE charge.

Eliminate Excess Costs by Reducing HAI's

Eliminating all packaging and distribution costs will allow you to produce fresh NIXALL Hospital-Grade Disinfectant at a fraction of the cost of procuring disinfectants of this quality.

NIXALL Hospital-Grade Disinfectant is the only one of its kind approved to fight against SARS-CoV-2 (On EPA’s “List N” of approved disinfectants) as well as C Diff Spores, which has become a huge problem for many facilities.

Introducing the active ingredient



Hypochlorous Acid
 is naturally found in the human body and replicated by scientists by running an electrical charge through a combination of salt and water.

This electro-chemical reaction produces hypochlorous acid within a solution now known as anolyte water and paves the way for a new generation of health and cleanliness.

Hypochlorous acid, produced naturally in the human body, works to break down the cells that are creating the infection by destroying the cell membrane and its DNA, thus halting the replication or growth process.

Hypochlorous acid (in a stabilized form) is a weapon to use against the countless invaders that threaten the systems of your body or the cleanliness of your environment. Our homes, workplaces, kids, pets, farms, and food are all vulnerable to germs, bacteria, infection, or disease. Your body naturally produces hypochlorous acid to fight the battle against these harmful invaders from within. Now you can make and bottle hypochlorous acid with the help of the Annihilyzer to fight off these invaders on the outside.

Let us help keep you safe

From our office located in Southern California, we serve the entire globe with quality sanitizing and disinfecting supplies. Is your property properly Cleaned, Sanitized and Disinfected? Call us to discuss how your facility can use naturally-derived disinfectants and high-tech electrostatic sprayers.

Contact Us Today

SANITIZE Home and Office
69930 Highway 111, Suite 210
Rancho Mirage, CA 92270
USA 1-760-413-9274


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