COVID-19epidemic rebound in France before summer

The EOLIS Air Manager is uniquely effective due to its triple-action technology: combining HEPA filtration, UV-C sterilization, and the patented DEEP Clean ozone technology. Unlike most air purifiers that focus only on air filtration, NatéoSanté’s system also provides comprehensive surface disinfection, ensuring maximum virus protection. Built during the COVID-19 pandemic, the EOLIS Air Manager has been used in over 60 countries, including high-risk environments like hospitals, schools, and offices.

Ozone technology, as used in the EOLIS Air Manager, is particularly effective for surface disinfection. It disrupts the virus’s cellular structure, ensuring up to 99% virus reduction in just 60 minutes. This makes it a critical tool for protecting environments against COVID-19 and preventing virus transmission through contaminated surfaces.

While air purifiers like the EOLIS Air Manager significantly reduce airborne particles, they work best when combined with other preventive measures, such as mask-wearing, ventilation, and social distancing. The triple-action technology of HEPA, UV-C, and ozone creates an optimal solution for reducing COVID-19 spread indoors, especially in enclosed spaces with high traffic.

Yes, the UV-C technology in the EOLIS Air Manager is safe for use in occupied rooms. The UV-C light operates within the purifier to disinfect air as it passes through, without directly exposing people to harmful rays. This technology is effective against SARS-CoV-2, the virus that causes COVID-19, making it a trusted solution in healthcare and public spaces.

The EOLIS Air Manager is ideal for environments with high virus transmission risks, including healthcare facilities, offices, schools, and public spaces. Its ability to continuously purify air and disinfect surfaces makes it invaluable in combating COVID-19 and other viruses in spaces where people frequently gather.

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HEPA filters capture airborne particles, including viruses like SARS-CoV-2, preventing them from circulating. By filtering out these particles, HEPA filters reduce the viral load in indoor spaces, ensuring cleaner air and lowering the risk of COVID-19 transmission.

In hospitals, maintaining a high standard of air quality is crucial for preventing the spread of nosocomial infections (also known as hospital-acquired infections, or HAIs). Air purifiers equipped with HEPA filters, UV-C technology, and ozone disinfection can significantly reduce the risk of airborne transmission of pathogens. By removing harmful particles and deactivating viruses and bacteria in the air and on surfaces, devices like the EOLIS Air Manager help control the spread of infections in high-risk areas such as ICUs, surgical wards, and waiting rooms. This is particularly important for protecting immunocompromised patients who are more vulnerable to HAIs.

Nosocomial infections are infections that patients acquire while receiving treatment in healthcare facilities. These infections can be caused by bacteria, viruses, and fungi, and are often transmitted through airborne particles. Controlling the air quality with advanced air purifiers reduces the number of pathogens circulating in the hospital environment. The use of air purification technology that incorporates HEPA filtration, UV-C disinfection, and ozone technology is essential to maintaining a clean and safe environment, particularly in surgical rooms, intensive care units, and isolation wards.

Read the article on nosocomial infections

A mobile or compact air purifier like the EOLIS Air Manager is particularly valuable in hospitals because it allows for localized air treatment in specific areas where the risk of infection is highest, such as ICUs, emergency rooms, and operating theaters. These portable devices can be easily moved to different rooms as needed, ensuring that critical areas are continuously purified without relying solely on the hospital’s centralized air renewal system. This flexibility is crucial for controlling the environment, especially during times of heightened infection risks like the COVID-19 pandemic. Mobile systems also offer a faster response to localized outbreaks, as they can immediately treat the air in affected areas.

During the COVID-19 pandemic, many hospitals discovered the limitations of relying solely on centralized air renewal systems. These systems, while essential for overall ventilation, were not always sufficient to filter out airborne viruses and bacteria in real time, leading to an increased risk of pathogen spread in enclosed spaces. Centralized systems can also inadvertently circulate contaminated air throughout the facility. In contrast, localized air purifiers like the EOLIS Air Manager offer real-time air filtration and surface disinfection, ensuring that high-risk areas are treated immediately, which reduces the risk of cross-contamination.

Poor air quality in hospitals can lead to increased rates of nosocomial infections, prolonged patient recovery times, and heightened healthcare costs. Hospital-acquired infections contribute to significant morbidity and mortality globally. The World Health Organization (WHO) estimates that up to 1 in 10 patients acquires an infection while receiving care, with airborne transmission being one of the key routes of infection. Installing effective air purification systems can drastically reduce the concentration of pathogens in the air, leading to a healthier environment for both patients and healthcare workers. Moreover, controlling airborne transmission is critical for reducing the burden on healthcare systems, especially during pandemics like COVID-19.

During pandemics, airborne viruses like COVID-19 pose a significant threat to both patients and healthcare staff. Localized air purification systems, such as the EOLIS Air Manager, play a crucial role in mitigating the spread of viruses within specific areas of a hospital. By offering targeted HEPA filtration, UV-C disinfection, and ozone technology, these systems ensure that air is purified and surfaces are disinfected in real-time, reducing the risk of viral transmission. This approach complements centralized air systems, which may not filter airborne pathogens as efficiently or quickly in certain high-risk zones.

Nosocomial infections (hospital-acquired infections, HAIs) are caused by bacteria, viruses, and fungi, often transmitted through contaminated hands, surfaces, medical equipment, and airborne particles. To reduce the risk, hospitals must adopt stringent hygiene protocols, including regular hand hygiene, sterilization of medical instruments, surface disinfection, and ensuring good air quality. Advanced air purification systems with HEPA filters, UV-C light, and ozone technology are key in reducing airborne transmission of pathogens in high-risk areas such as ICUs and surgical rooms. Hospitals should also implement localized air purifiers to complement their centralized HVAC systems.

Airborne pathogens such as viruses, bacteria, and fungal spores can remain suspended in the air for long periods, particularly in enclosed or poorly ventilated areas. These particles can spread nosocomial infections by being inhaled by patients or by settling on surfaces where they can contaminate medical equipment. Installing air purification systems with HEPA filtration and UV-C sterilization can help trap and kill these pathogens, significantly reducing the risk of airborne transmission in healthcare settings.

Read the full article about nosocomial infections

Relying solely on centralized air renewal systems in hospitals poses several risks. While these systems ensure overall ventilation, they often do not filter out airborne pathogens effectively in real-time. Moreover, they can potentially spread contaminated air from one area of the hospital to another, increasing the risk of cross-infection, as observed during the COVID-19 pandemic. To mitigate these risks, hospitals should deploy localized air purification systems like the EOLIS Air Manager, which offer real-time air filtration and disinfection in high-risk areas, ensuring a cleaner and safer environment.

Mobile air purification systems are crucial in healthcare settings because they allow localized air treatment in high-risk areas like operating rooms, ICUs, and emergency rooms. Portable units like the EOLIS Air Manager can be moved easily between spaces, ensuring that air in these areas is continuously purified. This is especially important in situations where rapid, localized air purification is needed to prevent the spread of airborne infections. These systems also complement centralized HVAC systems by providing focused air cleaning, which is vital for infection control during pandemics or outbreaks of airborne diseases like COVID-19.

During pandemics, such as COVID-19, controlling the spread of airborne pathogens is essential to protect both patients and healthcare workers. Air purification systems equipped with HEPA filters, UV-C light, and ozone technology provide a multi-layered defense against airborne viruses. These systems are particularly effective in high-traffic areas and enclosed spaces where the risk of airborne transmission is high. By filtering and deactivating viruses like SARS-CoV-2, they reduce the viral load in the air, making the environment safer and limiting the spread of nosocomial infections.

Surface decontamination systems, especially those using ozone and UV-C technology, complement air purification by addressing another critical vector for virus transmission—contaminated surfaces. While air purifiers clean the air, surface disinfection technologies destroy pathogens that have settled on surfaces, preventing indirect transmission. Systems like the EOLIS Air Manager offer 99% surface decontamination in just 60 minutes, ensuring that both air and surfaces are free from COVID-19, nosocomial bacteria, and other dangerous pathogens.

Multi-drug-resistant bacteria (MDR bacteria) can spread in hospitals via airborne particles and contaminated surfaces. Air treatment systems with HEPA filters capture these bacteria in the air, while UV-C light and ozone can destroy them by damaging their cellular structure. By continuously treating the air and surfaces in high-risk areas like surgical theaters and ICUs, air purifiers can help reduce the overall presence of MDR bacteria, complementing antibiotic treatments and helping prevent the development of more resistant strains.

Poor air quality in hospitals contributes to higher rates of nosocomial infections, prolonged recovery times for patients, increased healthcare costs, and a greater strain on healthcare systems. For example, during the COVID-19 pandemic, inadequate air filtration and ventilation systems were linked to increased transmission of the virus in healthcare facilities. Improving air quality through the use of HEPA filters, UV-C light, and ozone decontamination can significantly reduce these risks, improving patient outcomes and creating a safer working environment for healthcare staff.