Best Air Purifier For Infection Prevention & Cross Infection Control In Hospital

Learn about infection prevention & cross-infection control in hospitals with the help of medical-grade air purifiers.
Best Air Purifier For Infection Prevention & Cross Infection Control In Hospital

 

Best Air Purifier for Hospitals Regarding Infection Prevention & Cross Infection Control in Hospital

Atlanta Healthcare MEDIPURE® is the best air quality management machine & is more than an air purifier, which is the best for hospitals & other medical institutions like nursing homes, dental clinics, clinics, IVF labs, diagnostic centers & much more. 

Welcome to a world where microorganisms are lurking around every corner, waiting to attack our bodies and cause havoc.

As per WHO Infection prevention and control is an essential aspect of healthcare that protects patients, visitors, and staff from the spread of infectious diseases.

With the ongoing COVID-19 pandemic highlighting the importance of infection control measures, it's more critical than ever to understand how we can prevent infections in various settings such as hospitals, clinics, schools, or even in our homes.

This blog post will explore what infection prevention and control means, why it's important and different ways you can protect yourself against harmful pathogens. So let's dive into this exciting topic together!

 

Types of infection at Home

There are many types of infections that can occur in the home.

Some of the more common types include:

  • Respiratory infections such as influenza, bronchitis, and pneumonia.
  • Gastrointestinal infections such as food poisoning, gastroenteritis, and salmonellosis.
  • Skin infections such as cellulitis, impetigo, and MRSA.
  • Genital infections such as candidiasis, chlamydia, and gonorrhea.

It is important to be aware of the signs and symptoms of these infections so that you can seek treatment early if you or a family member develop them.

It is also important to practice good hygiene to help prevent the spread of infection.

 

Types of infection in offices

There are three main types of infection that can occur in offices: respiratory, gastrointestinal, and skin.

Respiratory infections are the most common type of infection in offices. They are caused by viruses, bacteria, or fungi and can be spread through coughing and sneezing.

The best way to prevent respiratory infections is to encourage good hygiene practices, such as regular hand-washing and avoiding close contact with people who are sick.

Gastrointestinal infections are usually caused by bacteria and can be spread through contaminated food or water.

The best way to prevent gastrointestinal infections is to practice good food hygiene, such as washing hands before eating and avoiding contaminated food and water.

Skin infections are usually caused by bacteria or fungi and can be spread through contact with contaminated surfaces or objects.

The best way to prevent skin infections is to practice good hygiene, such as washing hands regularly and avoiding close contact with people who have skin infections.

 

Types of infection in Hospitals

Hospitals are places where people with various types of infections are treated. There are many different types of infections that can be acquired in a hospital, and some of these infections are more serious than others.

It is important for hospital staff to be aware of the different types of infections that can occur in patients so that they can take steps to prevent these infections from occurring.

One type of infection that can occur in hospitals is called a nosocomial infection. Nosocomial infections are those that occur in patients while they are being treated in a hospital setting.

These types of infections can be very serious, and they can often lead to death.

Nosocomial infections are often caused by bacteria or viruses that are present on the surfaces of hospital equipment or the hands of hospital staff members.

These microorganisms can then enter the body of a patient through an open wound or through contact with mucous membranes.

Another type of infection that can occur in hospitals is called an opportunistic infection.

Opportunistic infections typically occur in patients who have weakened immune systems. These types of infections can often be more serious than nosocomial infections, and they can also lead to death.

Opportunistic infections are often caused by bacteria or viruses that normally do not cause disease in healthy individuals.

 

Hospital-acquired infection

Hospital-acquired infections (HAIs) are a major healthcare problem worldwide. They are a leading cause of morbidity and mortality, accounting for an estimated 4 million deaths each year.

HAIs are infections that patients acquire while in the hospital. The most common types of HAIs are bloodstream infections, pneumonia, surgical site infections, and urinary tract infections.

Most HAIs are caused by bacteria, but viruses and fungi can also cause them.

HAIs can be spread in a number of ways, including:

  • Through contact with contaminated surfaces or equipment
  • Exposure to contaminated air or water
  • Direct contact with infected patients or healthcare workers

There are many steps that hospitals can take to prevent the spread of HAIs.

These include using infection control measures such as hand hygiene, decontaminating equipment and surfaces, and isolating patients with infectious diseases.

 

Role of air purifier in controlling cross infection in Hospitals

Air purifiers play an important role in controlling cross-infection in hospitals. They help remove airborne contaminants like bacteria and viruses, which can cause infections.

Air purifiers also help reduce the spread of infection by trapping particles that could contain pathogens. Hospitals are places where people with different types of infections are treated.

This means that there is a higher risk of cross-infection. Air purifiers can help reduce the risk of cross-infection by removing contaminants from the air.

This can help to create a cleaner environment for patients and staff. Air purifiers can also help to reduce the spread of infection by trapping particles that could contain pathogens.

The use of air purifiers is just one part of a hospital's infection prevention and control strategy. Other measures, such as good hand hygiene and cleaning of surfaces, are also important.

 

Why Atlanta Healthcare Commercial Air Purifier is the best in controlling cross-infection in Hospitals?

The Atlanta Healthcare commercial air purifier is the best in controlling cross-infection in hospitals because it uses a unique iCluster technology to remove contaminants from the air.

The first stage of filtration removes large particles such as dust and pollen.

The second stage of filtration removes smaller particles such as bacteria and viruses.

The third stage of filtration removes ultrafine particles such as smoke and chemicals.

This three-stage filtration system is effective in removing contaminants from the air and preventing cross-infection in hospitals.

Every stage of filtration combines multiple sets of filters for an effective filtration process.

 

Filters used

Activated Carbon Filter

Activated carbon is a type of carbon that has been treated with oxygen to create millions of tiny pores between carbon atoms.

These pores give activated carbon a very large surface area, which makes it ideal for adsorbing pollutants from the air.

When an activated carbon filter is used in an air purifier, the polluted air is forced through the filter where the activated carbon adsorbs the pollutants onto its surface.

The clean air then passes through and is released back into the room.

Activated carbon filters are very effective at removing a wide range of pollutants, including:

  • Volatile organic compounds (VOCs)
  • Smoke
  • Odors
  • and gases

They are often used in combination with other types of filters, such as HEPA filters, to provide the best possible air quality.

Medical Grade HEPA Filter

A HEPA filter is designed to remove 99.97% of particles that are 0.3 microns in size from the air that passes through it. The way it works is by using a series of very fine mesh screens to trap the particles.

The first screen filters out the largest particles, and each successive screen filters out smaller and smaller particles. The last screen in the series is made of cloth that is so tightly woven that it can filter out particles that are just 0.3 microns in size.

When the air passes through the HEPA filter, the vast majority of harmful particles are removed, leaving only clean air to pass through.

Ultraviolet

Ultraviolet (UV) germicidal irradiation is a disinfection method that uses short-wavelength ultraviolet (UV-C) light to kill or inactivate microorganisms by destroying nucleic acids and disrupting their DNA, leaving them unable to perform vital cellular functions.

UV germicidal irradiation has been used for more than 100 years to disinfect water and air, and it is now gaining popularity as a way to help prevent the spread of healthcare-associated infections (HAIs).

UV germicidal irradiation can be used to disinfect hospital rooms, operating rooms, patient bathrooms, and other areas where infection control is a concern.

It is a safe and effective way to reduce the risk of HAIs, and it has the potential to save lives.

Photo Catalyst Filter

A photo catalyst filter is a type of filter that uses light to catalyze a reaction that breaks down pollutants in the air.

The filter consists of a photocatalytic material, typically titanium dioxide, that is exposed to UV light.

When the photocatalytic material is exposed to UV light, it creates an oxidation reaction that breaks down pollutants such as VOCs, bacteria, and viruses into harmless by-products such as water and carbon dioxide.

Electrostatic Precipitator (ESP)

An electrostatic precipitator (ESP) is a type of air filter that uses an electrical charge to remove particles from the air.

ESPs are used in a variety of settings, including hospitals, to remove contaminants from the air and improve indoor air quality.

How does an ESP work?

An ESP consists of two electrodes, typically made of metal, that are charged with opposite charges.

As contaminated air passes through the ESP, the charged particles are attracted to the electrodes and are trapped on them.

The clean air that remains is then passed through the ESP and into the room.

ESPs are effective at removing a variety of particle types, including:

  • Dust
  • Pollen
  • Smoke
  • and bacteria

They can be used in conjunction with other air purification methods, such as filters, to further improve indoor air quality.

 

Other advantages of Atlanta Healthcare Commercial Air Purifier

There are numerous advantages of Atlanta Healthcare Commercial Air Purifiers when it comes to cross-infection control in hospitals.

Higher CADR

When it comes to cross-infection control, CADR is an important metric to consider in an air purifier.

CADR stands for Clean Air Delivery Rate and is a measure of how quickly and effectively an air purifier can remove specific airborne contaminants from the air.

The higher the CADR rating, the more effective the air purifier will be at removing contaminants and improving air quality.

Atlanta Healthcare Commercial Air Purifier Pure Zone 1001 comes with CADR 550 m3 /hr.

As per AHAM, there are three main types of CADR ratings: smoke, dust, and pollen. To find the overall CADR rating for an air purifier, simply add together the ratings for each type.

While the overall CADR rating is a good general indicator of an air purifier's performance, it's important to keep in mind that different people have different sensitivities to different airborne contaminants.

So, if you're particularly sensitive to smoke or dust, you'll want to look for an air purifier with a high CADR rating for those specific contaminants.

In general, higher CADR ratings are always better when it comes to cross-infection control. However, it's important to choose an air purifier that's right for your specific needs and budget.

 

Highly Customized

Atlanta Healthcare Commercial Air Purifier Pure Zone 1001 is highly customized.

There could be a different level of purification requirement in one establishment like a hospital.

Hospital OTs may need a different set of filters to curb cross-infection & bacteria whereas in reception the need is to filter dust, smell, bacteria & virus.

Other applications of Pure Zone 1001:

  • Cinema halls
  • Smoke rooms
  • OT
  • Large reception areas
  • Restaurants
  • Server rooms
  • Hotels
  • Offices
  • Institutions & commercial buildings
  • IVF labs
  • Large ICUs
  • Schools & universities
  • Manufacturing units
  • & more

 

Conclusion

In conclusion, infection prevention and cross-infection control in hospitals are incredibly important. The role of air purifiers is essential in helping to reduce the risk of airborne pathogens, while also improving overall air quality.

By utilizing effective infection control measures and implementing regular cleaning protocols, healthcare facilities can ensure that their space remains as safe as possible for both patients and staff.

Air purifiers may be a valuable addition to any hospital or clinic's arsenal against potential infections, so make sure you consider these devices when creating your own prevention plan.


Leave a comment

Please note, comments must be approved before they are published

Search our site

Shopping Cart

Your cart is currently empty.