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5 Ways to Improve Hospital Disinfection

Microorganisms are all around us in our daily lives.  While some bacteria can have positive benefits; in a hospital setting they can cause infection and sometimes death.  Unfortunately, pathogenic bacteria are capable of lingering on surfaces for months or even years!  This can be very dangerous especially when inhabiting high-touch surfaces in hospitals that are difficult to disinfect regularly or effectively. Shared objects that come in contact with one patient after another are at risk of fostering cross-contamination.

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Tags: Managing Disinfection, Pathogenic Bacteria, Healthcare Technology, Infection Prevention, Methods of Decontamination, Healthcare Acquired Infection, Healthcare, Mobile Devices in OR, HAI, Tablets, Health IT, Cell Phones in OR, Tablet Disinfection, Patient Health

A Deeper Look At The Meaning Of High-Touch

The Frequency of Touch in Hospitals

High-touch surfaces. This is a phrase that gets thrown around quite a lot in the world of healthcare, but we are rarely told how many touches are considered “high-touch.” The Society for Healthcare Epidemiology of America offered this answer to the question in a report titled “A Quantitative Approach to Defining ‘High-Touch’ Surfaces in Hospitals.”

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Tags: Managing Disinfection, Infection Prevention, Healthcare Acquired Infection, CleanMe, HAI, BYOD, Tablet Disinfection

What To Consider When Disinfecting Hospital Rooms With UVC Light

It is well established in infection prevention practice that surfaces in hospital rooms are continually contaminated by infectious pathogens. The sources of these dangerous pathogens range from people who enter the room with contaminated hands and compromised clothing, from contaminated instruments and items that are brought in and out of the room like personal and enterprise issued mobile devices, and from the patient themselves. In addition, the air entering the room is not sterile and deposits pathogen containing fomites which settle onto all the surfaces adding to the degree of bio burden compromise.

It is also well established that the accumulated pathogens residing on high touch surfaces are then transferred onto bare or gloved hands and clothing of nurses, doctors, visitors, and environmental workers when touched, which in turn puts patients at great risk since they or their immediate surroundings are consequently contaminated by touch transfer mechanisms. Hence, even perfect attention to between patient visit hand sanitation by healthcare workers (HCWs); 100% compliance, and effective sanitization of hands to – 4 log10 inactivation, (99.99%); which is not currently achieved), will leave the hands contaminated while performing tasks within the room. This situation is judged to be unavoidable.

Accordingly, the ultimate solution espoused by WHO is hand sanitation immediately prior to patient contact; the Five Special Moments (‘FSM’), so that patients or the patient’s surroundings are not contaminated as a result of attention or care from a healthcare worker, attendant, or a visitor. Currently, the use of alcohol rubs just prior to contact is recommended by WHO for hand sanitation despite the fact that during a shift 100 or more alcohol rub hand sanitations, each taking at least 30 seconds, almost one hour dedicated to hand sanitation per shift, would be required. Moreover alcohol rub is not free of hand irritation and is totally ineffective on spores such as C. diff and some viruses. Hand washing is usually less effective, takes more time and is generally more irritating. There is no currently available product that can meet the WHO FSM requirement so it remains an objective, but not yet a reality.

As a response to problematic hand hygiene, a number of companies are now offering UV-C-based, room disinfection devices which have as their purpose to supplement terminal cleaning. They nominally sanitize room surfaces in as little as 15 minutes, and by lowering bio burden levels, help to minimize additional contamination of hands and clothing when the surfaces are contacted later. This sanitation process must be carried out in a vacant room due to the dangers UV-C poses to unprotected eyes, so it is generally performed only after patient discharge and cleaning by environmental workers.

To understand the efficacy of this approach, it is important to recognize that to inactivate pathogens, especially hardy C. difficile endospores, to the nominal – 4 log10 or 99.99% sanitation level in 15 minutes, typically requires a direct, continuous, line of sight UV-C dose for the entire 900 second period on the entire surface area. Keeping in mind that UV-C intensity of a source falls off with dramatically with distance from that source. This approach could be effective in sanitizing most of a room’s surfaces from normal incidence rays falling directly on these surfaces. This would be the case for walls, which are actually not touch surfaces in most cases.

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Tags: Managing Disinfection, Healthcare Technology, Methods of Decontamination, Tablet Disinfection

[Infographic] The Ability of Bacteria to Linger on Mobile Devices

In one of our recent blog articles we posted the question, when is the last time you disinfected your mobile device? The ability for bacteria to linger and multiply on the surfaces of these devices make that a very important question for those working in germ sensitive environments.

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Tags: Infection Prevention, Tablet Disinfection

The Drawbacks of Chemical Disinfection for High-Touch Surfaces

Chemical disinfection of high-touch surfaces, when performed, is the de facto standard in most hospitals.

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Tags: Tablet Disinfection

What is Growing on Your Mobile Devices?

When was the last time you cleaned your phone or tablet? Be honest.

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Tags: Tablet Disinfection

The Importance of Disinfecting Tablets & Other High Touch Surfaces

Most people enter the hospital hoping to feel better after they leave, but for 1.7 million Americans every year, this simply isn’t the case. Hospital Acquired Infections, also called HAIs or nosocomial infections, are infections that a hospital patient can develop as a result of their hospital stay (Martin & McFerran, 2008). The Centers for Disease Control and Prevention (CDC) estimate that roughly 99,000 deaths each year are related to HAIs (Klevens et al., 2007). 

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Tags: Managing Disinfection, Healthcare Technology, Infection Prevention, Healthcare Acquired Infection, Healthcare, HAI, Health IT, BYOD, Tablet Disinfection