In some cases, you can clean and disinfect at the same time, but this depends on how dirty the surfaces you are cleaning/disinfecting are—the dirtier the surface the less effective the disinfectant. Disinfectants need to contact the area to disinfect and cannot do this effectively with a barrier of dirt or grime in the way. Once the dirt has been wiped away the disinfectant can get to work. Under lightly soiled conditions, you can clean and disinfect in the same step with just Vital Oxide. (NOTE: EPA requires all disinfectants carry the following label direction: “For heavily soiled areas, a pre-cleaning step is required.”)
A food-contact sanitizer, at a minimum, reduces the level of Staphylococcus aureus and Escherichia coli by 99.999% on a food contact surface within one minute. A potable water rinse is not allowed after sanitation of a food-contact surface.
A non-food-contact sanitizer, at a minimum, reduces the level of Staphylococcus aureus and Klebsiella pneumoniae or Enterobacter aerogenes by 99.9% on non-food contact surfaces within 5 minutes.
A substance, or mixture of substances, intended to reduce the number of microorganisms on inanimate surfaces or in water or air (FIFRA § 4(i)(4)(C)(i)).
As part of the EPA registration process, disinfectant products are put through rigorous testing to prove their efficacy and measure toxicity. The EPA registers three types of disinfectants: Limited, General, and Hospital. All three disinfectants destroy or irreversibly inactivate certain microorganisms on hard, inanimate surfaces and objects. You can determine a “limited,” “general,” or “hospital” disinfectant by the microorganisms listed on the label.
Limited must be supported by efficacy testing against either Salmonella cholerasuis or Staphylococcus aureus. Limited disinfectants are found mostly in household use.
General must be supported by efficacy testing against both Salmonella cholerasuis and Staphylococcus aureus. General disinfectants are used in commercial areas.
Hospital must be supported by AOAC Use Dilution or AOAC Germicidal Spray efficacy testing against Staphylococcus aureus, Salmonella cholerasuis and Pseudomonas aeruginosa. The bacteria Pseudomonas aeruginosa hides behind biofilm and is difficult to eliminate. Killing this bacterium is required for “Hospital Disinfectant”.
Also, as part of this evaluation process, products are assigned to a toxicity category: The categories range from category 1 (highly toxic) to category 4 (no exposure warnings required on the label). Vital Oxide received an EPA category 4 rating for all exposure routes with the exception of mild eye irritation.
Cleaners are not registered with the EPA and cannot make public health claims on their label such as killing germs or having any anti-microbial action.
The easiest way to answer this question is simply, not all disinfectants are created equal. When evaluating and comparing disinfectant products, take a close look at their core ingredients. Vital Oxide uses a unique chemical compound called chlorine dioxide. While other competitors and manufacturers have attempted to copy and produce a form of stabilized chlorine dioxide similar to Vital Oxide, our revolutionary formula is simply unequaled. Chlorine dioxide has been used during Anthrax attacks, in the aftermath of Hurricane Katrina, to purify drinking water, and most recently to kill MRSA in schools and hospitals. Also consider carefully what kind of chemicals you want around your children, employees, patients, students, and close family members. Most disinfectants and mold removers on the market are extremely toxic, but Vital Oxide gives you peace of mind that you are using an effective product that does not come with alarming safety warnings and precautions.
The quickest way to disinfect a hospital room, an entire basement, or a school gym is by using a fogger or electrostatic sprayer that can create a fine mist to treat objects, walls, floors, and ceilings in a matter of just a few minutes. Electrostatic sprayers and foggers can dramatically cut the time to disinfect large areas. Vital Oxide is one of the few disinfectants that can be dispersed in this manner because Vital Oxide is non-corrosive to treated surfaces and objects.
Yes. Vital Oxide is an excellent disinfectant to use in homes. Some of the best places to use Vital Oxide at home are in musty basements, in bathrooms where mildew has accumulated (or on surfaces to protect against mold and mildew), and in the kitchen to keep food-contact surfaces clean. Vital Oxide has also been tested on carpets and can be used around the house to sanitize carpets.
No. While chlorine dioxide has chlorine in its name, its chemistry is very different from the corrosive chemistry of chlorine bleach. The primary differences are that chlorine dioxide is less caustic, safer, and gentler than bleach and many other antiseptics and antimicrobials, plus it remains effective under organic load. Further, chlorine bleach produces harmful by-products to the environment, including trihalomethanes (THM) and haloacetic acids (HAAS). Vital Oxide breaks down to a simple salt, producing no harmful by-products.