Are the steps required to use a given disinfectant practical for your facility? Some applications require multiple steps that may not always be feasible. Water hardness is one factor that can impact the effectiveness of some disinfectant formulas.
Sani-Spritz Spray cleans and disinfects in just one step, making it a top choice for an easy, ready-to-use use disinfectant that addresses a broad spectrum of bacteria, viruses, fungi and mildew in hospitals, institutions, and industry. Having the right products on hand along with a solid plan to prevent disease and infection will save effort and expense down the road, and give added peace of mind to you, your staff and any visitors that come through your doors.
Tags: disinfectant , disinfectants , hydrogen peroxide. Join thousands of facility maintenance professionals who receive news updates and information to help them on the job. How do Disinfectants Work? Main Types of Disinfectants, Categorically Speaking Several broad categories of disinfectants are used in commercial and industrial facility maintenance. Hydrogen Peroxide When formulated as ready-to-use disinfectants, hydrogen peroxide-based products are viewed as being safe, green, and sustainable for the environment.
This is because they break down into naturally-occurring elements of water and oxygen. H 2 O 2 disinfectants tend to kill a broad spectrum of bacteria and viruses quickly, are mildly acidic, and are effective cleaners. Users should use caution with concentrated hydrogen peroxide however, as it can be unstable and dangerous. Quaternary Ammonium Compounds Quats Quats are a top choice for disinfection in hospital and institutional settings because of their low cost and quick action against a wide range of microorganisms.
Quats can be formulated with a variety of detergents to provide both cleaning and disinfecting ability. Chlorine Compounds Kills an array of organisms including resistant viruses, and is highly recommended for cleaning bodily fluids. Chlorine-based disinfectants are inexpensive and have relatively quick kill times, however they can be corrosive and cause discoloration as well as irritation if not used as directed. Chlorine Sanitizer II is an example of a chlorine disinfectant, ideal for use in healthcare settings and food preparation processing.
Alcohols When diluted in water, alcohols are effective against a wide range of bacteria, though higher concentrations are often needed to disinfect wet surfaces. Aldehydes Very effective against the bacteria that cause Tuberculosis, yet they need a high part per million ppm ratio to be effective for disinfection. Some bacteria have developed a resistance to aldehydes, and have been found to cause asthma and other health problems.
They can also leave greasy residue and must be in an alkaline solution. Iodophors Can be used for disinfecting some semi-critical medical equipment but they can stain surfaces and have an unpleasant odor think Iodine. Bathrooms can be bacteria and virus hotspots because of toilets. Always remember, disinfectants are chemical substances and need to be treated with care — always read the product labels carefully before using.
Now that you know more about disinfectants and how they work, find out how you can keep the rest of your home clean here.
Some bacteria can divide every 20 minutes — which means in only 8 hours a single bacterium can grow to nearly 17,, bacteria? Download the free self-care app today - check symptoms, get advice, track your health. Skip to main content. Children Parents Recommended products. How do we remove and inactivate viruses? How we kill bacteria We kill bacteria by causing damage to proteins within the outer layers of the bacterial cell and the whole cell consequently simply splits open and dies.
What areas in your home need disinfecting? Fatal postoperative wound infections with Clostridium have occurred when alcohols were used to sterilize surgical instruments contaminated with bacterial spores Alcohols have been used effectively to disinfect oral and rectal thermometers , , hospital pagers , scissors , and stethoscopes Alcohols have been used to disinfect fiberoptic endoscopes , but failure of this disinfectant have lead to infection , Alcohol towelettes have been used for years to disinfect small surfaces such as rubber stoppers of multiple-dose medication vials or vaccine bottles.
Furthermore, alcohol occasionally is used to disinfect external surfaces of equipment e. In contrast, three bloodstream infection outbreaks have been described when alcohol was used to disinfect transducer heads in an intensive-care setting The documented shortcomings of alcohols on equipment are that they damage the shellac mountings of lensed instruments, tend to swell and harden rubber and certain plastic tubing after prolonged and repeated use, bleach rubber and plastic tiles and damage tonometer tips by deterioration of the glue after the equivalent of 1 working year of routine use Tonometer biprisms soaked in alcohol for 4 days developed rough front surfaces that potentially could cause corneal damage; this appeared to be caused by weakening of the cementing substances used to fabricate the biprisms Corneal opacification has been reported when tonometer tips were swabbed with alcohol immediately before measurement of intraocular pressure Alcohols are flammable and consequently must be stored in a cool, well-ventilated area.
They also evaporate rapidly, making extended exposure time difficult to achieve unless the items are immersed. Hypochlorites, the most widely used of the chlorine disinfectants, are available as liquid e. The most prevalent chlorine products in the United States are aqueous solutions of 5. They have a broad spectrum of antimicrobial activity, do not leave toxic residues, are unaffected by water hardness, are inexpensive and fast acting , remove dried or fixed organisms and biofilms from surfaces , and have a low incidence of serious toxicity Sodium hypochlorite at the concentration used in household bleach 5.
The microbicidal activity of chlorine is attributed largely to undissociated hypochlorous acid HOCl. A potential hazard is production of the carcinogen bis chloromethyl ether when hypochlorite solutions contact formaldehyde and the production of the animal carcinogen trihalomethane when hot water is hyperchlorinated After reviewing environmental fate and ecologic data, EPA has determined the currently registered uses of hypochlorites will not result in unreasonable adverse effects to the environment Alternative compounds that release chlorine and are used in the health-care setting include demand-release chlorine dioxide, sodium dichloroisocyanurate, and chloramine-T.
The advantage of these compounds over the hypochlorites is that they retain chlorine longer and so exert a more prolonged bactericidal effect. Sodium dichloroisocyanurate tablets are stable, and for two reasons, the microbicidal activity of solutions prepared from sodium dichloroisocyanurate tablets might be greater than that of sodium hypochlorite solutions containing the same total available chlorine. Second, solutions of sodium dichloroisocyanurate are acidic, whereas sodium hypochlorite solutions are alkaline, and the more microbicidal type of chlorine HOCl is believed to predominate Chlorine dioxide-based disinfectants are prepared fresh as required by mixing the two components base solution [citric acid with preservatives and corrosion inhibitors] and the activator solution [sodium chlorite].
In vitro suspension tests showed that solutions containing about ppm chlorine dioxide achieved a reduction factor exceeding 10 6 of S. The potential for damaging equipment requires consideration because long-term use can damage the outer plastic coat of the insertion tube In another study, chlorine dioxide solutions at either ppm or 30 ppm killed Mycobacterium avium-intracellulare within 60 seconds after contact but contamination by organic material significantly affected the microbicidal properties The main products of this water are hypochlorous acid e.
As with any germicide, the antimicrobial activity of superoxidized water is strongly affected by the concentration of the active ingredient available free chlorine One manufacturer generates the disinfectant at the point of use by passing a saline solution over coated titanium electrodes at 9 amps.
The product generated has a pH of 5. Although superoxidized water is intended to be generated fresh at the point of use, when tested under clean conditions the disinfectant was effective within 5 minutes when 48 hours old Unfortunately, the equipment required to produce the product can be expensive because parameters such as pH, current, and redox potential must be closely monitored.
The solution is nontoxic to biologic tissues. Although the United Kingdom manufacturer claims the solution is noncorrosive and nondamaging to endoscopes and processing equipment, one flexible endoscope manufacturer Olympus Key-Med, United Kingdom has voided the warranty on the endoscopes if superoxidized water is used to disinfect them As with any germicide formulation, the user should check with the device manufacturer for compatibility with the germicide.
Additional studies are needed to determine whether this solution could be used as an alternative to other disinfectants or antiseptics for hand washing, skin antisepsis, room cleaning, or equipment disinfection e. The exact mechanism by which free chlorine destroys microorganisms has not been elucidated. Inactivation by chlorine can result from a number of factors: oxidation of sulfhydryl enzymes and amino acids; ring chlorination of amino acids; loss of intracellular contents; decreased uptake of nutrients; inhibition of protein synthesis; decreased oxygen uptake; oxidation of respiratory components; decreased adenosine triphosphate production; breaks in DNA; and depressed DNA synthesis , The actual microbicidal mechanism of chlorine might involve a combination of these factors or the effect of chlorine on critical sites Low concentrations of free available chlorine e.
Higher concentrations 1, ppm of chlorine are required to kill M. One study reported that 25 different viruses were inactivated in 10 minutes with ppm available chlorine Several studies have demonstrated the effectiveness of diluted sodium hypochlorite and other disinfectants to inactivate HIV Chlorine ppm showed inhibition of Candida after 30 seconds of exposure Because household bleach contains 5.
A chlorine dioxide generator has been shown effective for decontaminating flexible endoscopes but it is not currently FDA-cleared for use as a high-level disinfectant Chlorine dioxide can be produced by mixing solutions, such as a solution of chlorine with a solution of sodium chlorite In , a chlorine dioxide product was voluntarily removed from the market when its use caused leakage of cellulose-based dialyzer membranes, which allowed bacteria to migrate from the dialysis fluid side of the dialyzer to the blood side However, the biocidal activity of this disinfectant decreased substantially in the presence of organic material e.
No bacteria or viruses were detected on artificially contaminated endoscopes after a 5-minute exposure to superoxidized water and HBV-DNA was not detected from any endoscope experimentally contaminated with HBV-positive mixed sera after a disinfectant exposure time of 7 minutes Hypochlorites are widely used in healthcare facilities in a variety of settings. A — dilution of 5. For small spills of blood i. Because hypochlorites and other germicides are substantially inactivated in the presence of blood 63, , , , large spills of blood require that the surface be cleaned before an EPA-registered disinfectant or a final concentration solution of household bleach is applied If a sharps injury is possible, the surface initially should be decontaminated 69, , then cleaned and disinfected final concentration Extreme care always should be taken to prevent percutaneous injury.
At least ppm available chlorine for 10 minutes is recommended for decontaminating CPR training manikins Full-strength bleach has been recommended for self-disinfection of needles and syringes used for illicit-drug injection when needle-exchange programs are not available. The difference in the recommended concentrations of bleach reflects the difficulty of cleaning the interior of needles and syringes and the use of needles and syringes for parenteral injection Clinicians should not alter their use of chlorine on environmental surfaces on the basis of testing methodologies that do not simulate actual disinfection practices , Other uses in healthcare include as an irrigating agent in endodontic treatment and as a disinfectant for manikins, laundry, dental appliances, hydrotherapy tanks 23, 41 , regulated medical waste before disposal , and the water distribution system in hemodialysis centers and hemodialysis machines Chlorine long has been used as the disinfectant in water treatment.
Water disinfection with monochloramine by municipal water-treatment plants substantially reduced the risk for healthcare—associated Legionnaires disease , Chlorine dioxide also has been used to control Legionella in a hospital water supply.
Thus, if a user wished to have a solution containing ppm of available chlorine at day 30, he or she should prepare a solution containing 1, ppm of chlorine at time 0. Sodium hypochlorite solution does not decompose after 30 days when stored in a closed brown bottle The use of powders, composed of a mixture of a chlorine-releasing agent with highly absorbent resin, for disinfecting spills of body fluids has been evaluated by laboratory tests and hospital ward trials.
The inclusion of acrylic resin particles in formulations markedly increases the volume of fluid that can be soaked up because the resin can absorb — times its own weight of fluid, depending on the fluid consistency. One problem with chlorine-releasing granules is that they can generate chlorine fumes when applied to urine Formaldehyde is used as a disinfectant and sterilant in both its liquid and gaseous states.
Liquid formaldehyde will be considered briefly in this section, and the gaseous form is reviewed elsewhere The aqueous solution is a bactericide, tuberculocide, fungicide, virucide and sporicide 72, 82, OSHA indicated that formaldehyde should be handled in the workplace as a potential carcinogen and set an employee exposure standard for formaldehyde that limits an 8-hour time-weighted average exposure concentration of 0. The standard includes a second permissible exposure limit in the form of a short-term exposure limit STEL of 2 ppm that is the maximum exposure allowed during a minute period Ingestion of formaldehyde can be fatal, and long-term exposure to low levels in the air or on the skin can cause asthma-like respiratory problems and skin irritation, such as dermatitis and itching.
For these reasons, employees should have limited direct contact with formaldehyde, and these considerations limit its role in sterilization and disinfection processes. Formaldehyde inactivates microorganisms by alkylating the amino and sulfhydral groups of proteins and ring nitrogen atoms of purine bases Varying concentrations of aqueous formaldehyde solutions destroy a wide range of microorganisms. Four percent formaldehyde is a tuberculocidal agent, inactivating 10 4 M.
The formaldehyde solution required 2 hours of contact to achieve an inactivation factor of 10 4 , whereas glutaraldehyde required only 15 minutes. For these reasons and others—such as its role as a suspected human carcinogen linked to nasal cancer and lung cancer , this germicide is excluded from Table 1. When it is used, , direct exposure to employees generally is limited; however, excessive exposures to formaldehyde have been documented for employees of renal transplant units , , and students in a gross anatomy laboratory Formaldehyde is used in the health-care setting to prepare viral vaccines e.
To minimize a potential health hazard to dialysis patients, the dialysis equipment must be thoroughly rinsed and tested for residual formaldehyde before use.
Paraformaldehyde, a solid polymer of formaldehyde, can be vaporized by heat for the gaseous decontamination of laminar flow biologic safety cabinets when maintenance work or filter changes require access to the sealed portion of the cabinet. Glutaraldehyde is a saturated dialdehyde that has gained wide acceptance as a high-level disinfectant and chemical sterilant Aqueous solutions of glutaraldehyde are acidic and generally in this state are not sporicidal. Once activated, these solutions have a shelf-life of minimally 14 days because of the polymerization of the glutaraldehyde molecules at alkaline pH levels.
This polymerization blocks the active sites aldehyde groups of the glutaraldehyde molecules that are responsible for its biocidal activity. Novel glutaraldehyde formulations e. However, antimicrobial activity depends not only on age but also on use conditions, such as dilution and organic stress.
However, two studies found no difference in the microbicidal activity of alkaline and acid glutaraldehydes 73, The biocidal activity of glutaraldehyde results from its alkylation of sulfhydryl, hydroxyl, carboxyl, and amino groups of microorganisms, which alters RNA, DNA, and protein synthesis.
The mechanism of action of glutaraldehydes are reviewed extensively elsewhere , The in vitro inactivation of microorganisms by glutaraldehydes has been extensively investigated and reviewed , Spores of C. Microorganisms with substantial resistance to glutaraldehyde have been reported, including some mycobacteria M.
Two percent alkaline glutaraldehyde solution inactivated 10 5 M.
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