How to obtain a more effective disinfection with Certiklör?

disinfection

How to obtain a more effective disinfection with Certiklör?

What is Certiklör? The name of a new chemical? A new government certification?

None of the above! Simply put, Certiklör technology is the insurance for you, your patients and all Canadians to achieve a better, more efficient and high quality disinfection. Certiklör is a proprietary technology developed by Lalema for you. This technology ensures that you have in the bottle, an effective stabilized hypochlorite, and here to stay!

Stabilized hypochlorite?

Yes, yes! Let me explain. The hypochlorite that is found in bleach for example, flies away usually at a fast rate of more than 1% per month. This means that after 12 months, there will remain only small amounts of the active ingredient: the hypochlorite found in bleach! Imagine how fast this bleach goes away when it’s on the surface to be disinfected in the open air when it does so quickly when, in a closed container!

The difference with our Certiklör stabilized hypochlorite?

The name says it all: stabilized hypochlorite!

Our multidisciplinary team of skilled scientists took 2 years to stabilize the hypochlorite solution. What is the secret? I’m afraid that’s like a little like the Caramilk’s secret! All I can say is that the ingredients that uses this technology have been carefully selected and expertly designed to give hypochlorite increased stability.
And who says stabilized hypochlorite, says better disinfection, less smell and increased cleaning!

How to know if a product uses Certiklör stabilized hypochloritetechnology?

Now, how can you determine which Lalema products use this technology ? Easy! Look at the product label! For now, look at Ali-Flex RTU and Ali-Flex LF.
So if you care about your health, life quality and efficiency at work, think Certiklör stabilized hypochlorite!

Biofilm: The Next Big Thing in Disinfection

biofilm

The Next Big Thing in Disinfection: Biofilm

Have you ever wondered what are the main factors affecting the efficacy of disinfection and sterilization in the healthcare facility? U.S. Centers for Disease Control and Prevention lists seven major causes of microbiological persistence on surfaces:

  1. Number of microorganisms
  2. Microbial resistance to biocides
  3. Concentration and Potency of Disinfectants
  4. Duration of Exposure
  5. Chemical and Physical Factors
  6. Presence of Organic or Inorganic Matter
  7. Biofilms

For many experienced healthcare professionals, these factors are well known and often well dealt with. However, did you know the difference between soil (organic and inorganic matter) and biofilm? They both can significantly lower the efficacy of disinfection, but the biofilm is much harder to remove and control.

What is biofilm and how does it form?

Biofilm is an aggregation of microbial cells, surrounded by a protective layer of extracellular polymeric matrix, which attaches itself to any surface found in the hospital environment and becomes a source of contamination. Formation of complex, multicellular communities by microorganisms is a natural phenomenon which helps bacteria or fungi to survive environmental stress such as cleaning and disinfection.

Many pathogens require a presence of conditioning layer made from organic soil to settle and start extracellular matrix synthesis. But there are bacteria which don’t really need much help to start a biofilm community. When pathogens settle down and surround themselves in an extracellular polymeric substance (EPS), they are much harder to kill.

It has been reported that bacteria found in biofilm can be up to 1,000 times more resistant to biocides than their planktonic counterparts.

How to outsmart and fight biofilm?

Despite biofilms’ rigid structure and resistance mechanisms, biofilm cells can still be outsmarted. Since EPS is the ultimate protective barrier and communication route for pathogens, the control of biofilm should start with disruption of the EPS itself, followed by an application of a biocide.

MERS-CoV: Practical Tips for Disinfection

mers-cov

MERS-CoV: Practical Tips for Disinfection

The Middle East Respiratory Syndrome Coronavirus (MERS-CoV) is slowly spreading through the Middle East and Asia. Transmission, so far, seems to happen when a close contact with an infected individual occurs. This type of transmission has led to many healthcare associated infections to this day. As an example, a patient that waited for 2.5 days in a Seoul emergency department, end up transmitting the disease to 55 persons.

So far, the case-fatality rate is around 36 %, which is very high. However, this number may not be representative of a normal population and its kill rate is likely to be overestimated. A bias might exist when looking at the population who acquired the virus in Korea. Of the 171 cases, many had underlying medical conditions and have a median age of 55.

Official recommendations

CDC and Health Canada issued a few recommendations on infection control and prevention so far, and more is likely to be available soon. Regardless of their recommendations few data are available on environmental hygiene and disinfection practice regarding MERS-CoV in healthcare settings. Also, the transmission through the environment is not well known for this virus.

How to disinfect?

Regarding disinfection few information are available.  Coronaviruses are non-enveloped virus which makes them more resistant to certain disinfectant. As an example, it is known that a 400 ppm solution of quaternary ammonium compounds is ineffective against those viruses. Sodium hypochlorite at a minimum of 1,000 ppm seems to be sufficient, however a higher concentration would be optimal in healthcare settings. Very few data exist regarding other disinfectant technology.

At this moment, isolation with contact-droplets precaution is advised. In spite of the fact that it was suggested during the SARS outbreak that this type isolation might not be sufficient. Even though these two viruses are similar, we must remember that many differences exist. Thus we must be careful with extrapolation of data.

The Dallas case rises a question: Should protocols for infection control be revised?

protocol-ebola

A nurse from the Texas Health Presbyterian Hospital, where a patient was treated for Ebola, contracted the disease. This is the first case of Ebola transmission in North America. Although the authorities are reassuring, the question arises in hospitals: Are protocols in place really effective?

The nurse in question, Ms. Nina Pham wore protective equipment as directed by the hospital. Indeed, she claims to have followed protocol at all times and she is unable to identify how she could have contracted the virus. It is assumed that methods of environmental control were in place so the room was disinfected daily with sodium hypochlorite as prescribed.

A breach of protocol?

The director of the CDC (Center for Disease Control), Dr. Thomas R. Frieden believes that treatment protocols were not followed to the letter “Clearly there was a breach in protocol. We have the ability to prevent the spread of Ebola by caring safely for patients.”

CDCs are investigating in order to identify how Ms. Pham may have acquired the infection. Protocols are of course being examined. They would be sufficient to protect healthcare workers from infection by the virus if followed properly. Nevertheless, removing the protective equipment is always pointed out as a critical step. In Europe, another investigation is under way to understand how a Spanish nurse found herself in the same situation.

No reported case in Quebec, yet

The Ministère de la Santé et des Services sociaux in collaboration with the Institut nationale de santé publique du Québec has issued recommendations in case of an outbreak. It is important that each healthcare center that can receive a potentially infectious patient put in place appropriate precautionary measures. Thus, it is important to have the required equipment for this type of care.

At Lalema, we can help you by providing all the necessary protective equipment and disinfectant ! For any special needs, please contact us.

Ebola, How to disinfect surfaces

ebola-disinfect-surface-ali-flex-rtu

The Ebola outbreak in West Africa is slowly becoming an epidemic that is spreading beyond Africa. Although the risk of transmission is relatively low, it is the largest ever recorded outbreak of Ebola. WHO, CDC and other NGOs have declared a state of emergency and fight tirelessly to limit the outbreak.

Importance of hygiene when it comes to Ebola

The debate today is polarized on the ethical use of experimental drugs. However, few media state of the propagation modes and the importance of hygiene against this virus. Although transmission is being achieved mainly by direct contact between two people, contaminated objects and surfaces can present a risk that is hard to assessed. Thus, the CDC and WHO suggest that objects in direct contact with the patient must be decontaminated properly and that medical or objects contaminated with body fluids must be incinerated.

Stabilized Sodium Hypochlorite

All well and good, but what product can be used to disinfect appropriately? Ebola Virus Outbreak Guidelines written by members of the Ministry of Public Health of Gabon suggest the use of sodium hypochlorite.

We do not always know the microbial threats we face, but if in doubt use a disinfectant caliber is required.

Cleaning in Hospitals (part 4)

Work_Organization

How can proper work organization contribute to the cleanliness of a hospital? How to be in the right place with the right equipment? Here are the questions we are going to answer in this post of the Cleaning in Hospitals series.

Evaluation of production needs

First, we need to assess the needs in hygiene and cleanliness. In order to do this, a standard evaluation is preferable but it needs to be adjusted based on the type of place, units, and traffic.

It is during the evaluation of needs that the hygiene and cleanliness estimate (see Cleaning in Hospitals part 2) is going to be determined. All daily, weekly, monthly, and annual tasks have to be considered.

Usually, the results are presented by production yields (square meters/hour) or FTE (Full Time Equivalent).

How to reduce time waste

How to measure productivity in a context where an important aspect of the task is moving? Actually, hygiene and cleanliness departments are almost always in the basement, whereas most of their work happens on the floors!

We increase productivity by reducing traveling.

It is for this reason that the cleaning cart needs to be as complete as possible and the water sources or janitor’s closets well stocked with supplies (i.e.: paper products or waste bags), equipment, and sanitary products.
Moreover, it is important to remember that a good entrance carpet can greatly reduce dirt.

Have a successful day!

Here are a few hints on how to have a successful day:

  • Establish a sequence of actions to perform in a day/week/month
  • Define a sequential order of rooms
  • Integrate linked and periodical tasks (monthly)
  • Make sure to have time gaps to focus on periodical tasks (dusting of high surfaces, polishing, etc.)
  • Minimize traveling
  • Work by space and not by task
  • Distribute tasks equitably
  • One look is worth a thousand words: choose a colorful plan together with some graphics instead of a list of tasks on a word file!

This is all for this series of posts on Cleaning in Hospitals! Don’t forget that we’re always here to help, don’t hesitate to book an appointment by calling 514.645.2753 or subscribe to one of our training seminars. I really hope that you liked this serie of posts!

 

References:
Hygiène et salubrité en milieux de soins – Démarche pour le développement de stratégies d’entretien des surfaces, MSSS, 2010, 52 pages.

Cleaning in Hospitals (part 3)

cleaning-hospital-staff

The hygiene and cleanliness staff represents a key element in the fight against infections in hospital environments. Often little valued, their role in the global strategy of surface cleaning is extremely important.

The hygiene that comes from the work of the cleaning staff requires a high performance level. In order to reach that, the executing staff and the managers need to master all the different elements representing this profession.

Cleaning products and equipment are undeniably crucial in order to ensure performance during the environment asepsis of any establishment. Therefore, it is important to associate the day-to-day actions of the cleaning staff with a range of products and equipment that favor the quality of their performance.

Since several years, partly due to the devotion and the involvement of many members in the healthcare system, we take into consideration new factors:

  • Provincial training
  • Establishment of an AEP hygiene and cleanliness in healthcare environments of 630 hours now offered by many school boards
  • Provincial day of hygiene and cleanliness
  • Etc.

Having said this, the hygiene and cleanliness staff deserves our deepest gratitude. Thank you so much!

The next post is going to talk more in detail about one aspect of their profession: work organization.

Don’t miss any posts about this series, subscribe to this blog!

References:

Hygiène et salubrité en milieux de soins – Démarche pour le développement de stratégies d’entretien des surfaces, MSSS, 2010, 52 pages.

Cleaning in Hospitals (part 2)

cleaning-hospitals

Cleaning in hospitals allows reducing risks of infection among patients. This is not the only factor, of course: good personal hygiene habits such as washing hands and the use of protective equipment such as overalls, gloves, masks, or protective glasses are also important elements.

For this reason, interventions must be well coordinated in order to have a good surface maintenance plan. The manager of hygiene and cleanliness should therefore take into account:

  • The type of place associated to the level of risk
  • The tasks to perform
  • The required cleaning frequency

If well applied, a detailed estimate allows validating the cleaning performance.

 

The global approach is going to be determined by type of place:

  • Regular eradication (e.g.: operating rooms)
  • Keeping environmental effects as light as possible (e.g.: low infection risk such as individual office spaces)
  • Balance of microorganisms. This approach is based on the competition between good and bad microbes. The presence of good microbes guarantees less space for bad microbes to grow (e.g.: living environments)
  • Green cleaning. Approach that uses less toxic products
  • Review and improve arrangements and/or surfaces (during conception or renovation)

The next post of this series is going to talk about another key factor: the hygiene and cleanliness staff.

References:

Le nettoyage dans les hôpitaux du 21e siècle by Dr. Stephanie J. Dancer, Medical, Microbiology, Hairmyres Hospital, UK appeared on the magazine Le Nettoyage professionnel, July/August 2012.

Hygiène et salubrité en milieux de soins – Démarche pour le développement de stratégies d’entretien des surfaces, MSSS, 2010, 52 pages.

Cleaning in Hospitals (part 1)

hospital-cleaning

For a long time, cleaning has been all about the look; fresh smell and the absence of stains or dirt were the criteria to determine that a place is clean. Today, these criteria are still generally accepted in environments such as offices and classrooms.

It’s common knowledge, however, that microbes (bacteria or viruses) invisible to the human eye represent a risk for spreading infections. Take the example of the influenza virus: it can survive for up to 48 hours on a hard surface!

Without cleaning and disinfection procedures or a quality check procedure, microbes can survive in hospital environments.

Three key elements have to be considered in order to perform an infective risk analysis:

  • Is the patient carrying a disease agent? Disease agents are classified based on their spreading capacity and their virulence. The choice of a disinfectant will be based on this.
  • Do the functional activities of a sector represent a risk of spreading infections from the environment? E.g.: food service, offices, Intensive Care, etc.
  • The intensity of contact is related to the traffic and the surfaces that are more likely to be touched. E.g.: bathroom fittings.

Have you already performed an infective risk analysis? The next post is going to explain how cleaning allows reducing risks of infection among patients.

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References:

Le nettoyage dans les hôpitaux du 21e siècle by Dr. Stephanie J. Dancer, Medical, Microbiology, Hairmyres Hospital, UK appeared on the magazine Le Nettoyage professionnel, July/August 2012.

Hygiène et salubrité en milieux de soins – Démarche pour le développement de stratégies d’entretien des surfaces, MSSS, 2010, 52 pages.