Emergency & waiting rooms
Provide healthier & cleaner environments
Inactivate airborne and surface pathogens & reduce pollutants in the ER
Reduce allergens like dander, pollen, mold spores, and dust
Reduce transmission of viruses like SARS-CoV-2, influenza and norovirus
Inactivate airborne and surface bacteria including superbugs like MRSA, TB, and C.diff
Air disinfection for healthcare environments
Wherever people are coming and going, pathogens and pollutants are being introduced to the indoor environment. WellAir's portable air disinfection devices and air cleaning systems use our patented NanoStrikeTM Technology to inactivate aerosolized viruses, bacteria, and fungi. Our Defend range of FDA-cleared 510(k) Class II medical devices combines our powerful NanoStrike Technology with a triple-stage filtration system. These devices not only inactivate pathogens but clear the air of pollutants such as pollen, particulate matter (PM), volatile organic compounds (VOCs), gases, chemicals, and odors.
UVC surface disinfection for healthcare environments
NuvaWave puts the power of hospital-grade surface disinfection in the palm of your hand. It is an instant UVC device proven to disinfect surfaces against deadly pathogens in one second with its targeted UVC light and portable, handheld design. NuvaWave is designed to be safe, fighting pathogens without needing to clear the room of patients and staff.
The Importance of WellAir Air Cleaning and Purification Devices in Intensive Care Units
This peer-reviewed study was published in the Journal of Hospital Infection reports on WellAir Air Cleaning and Purification Devices in an ICU. This first-of-its-kind study highlights the number of microorganisms in the air and evaluates the effectiveness of air purifiers in reducing the rate of nosocomial infections within the ICU.
The Defend 400 Significantly Reduces Airborne Bacteria in an Urgent Care Outpatient Facility
An urgent care outpatient facility located in New Jersey that was running at normal capacity and actively treating patients tested the Defend 400 at one of their three locations in November 2021. Testing was carried out in a breakroom, examination room, nurse station and waiting room.
During the 5 consecutive days, the Defend 400 significantly reduced total bacterial count by 52%, including a 60% reduction in opportunistic pathogens and a 43% reduction in pathogenic bacteria.
Why Disinfect the Air
Healthcare-acquired infection (HAI) is a serious and widespread problem with an estimated 1 in 10 patients acquiring an infection during a hospital stay. In American hospitals alone, the Centers for Disease Control (CDC) estimates that HAIs account for an estimated 1.7 million infections and 99,000 associated deaths each year.
Over 30% of healthcare-acquired infections possibly involve airborne transmission at some point.
When we found out about WellAir and what NanoStrike Technology could do for our dental practice, we added multiple devices to improve our air disinfection protocols. We don’t have to pay for or dispose of replacement filters with the Protect 900 and Protect 200 units. The units have been very quiet, effective and show our patients that we take their safety and the safety of our staff seriously.
Dr. Louis R. Kaufman, DDS, FAGD, MBA
"After the initial COVID-19 crisis period had ended, 60 pulmonology workers were screened for SARS-CoV-2 antibodies. Nationally, 8% of Hungary’s healthcare professionals had been infected; in the Uzsoki COVID-19 department, not a single staff member tested positive for antibodies, an outcome the hospital’s chief COVID-19 nurse attributes in part to continuous air disinfection"
We installed and tested WellAir's Air Disinfection Units in St George's Hospital, Mumbai. The devices have been working 24/7 since early May 2020 in COVID-19 ICU wards. The Microbiology Department conducted bio-burden tests in the COVID-19 ICU wards at regular intervals (air settle plates method) for one month and found that the CFU count was always within permissible limits when [the WellAir] devices were working.
The devices are silent and safe for use around patients and effective in improving and maintaining acceptable air quality levels, reducing the chance of transmission of coronavirus, and protecting frontline healthcare workers.
In the case of the air samples collected during the period of operation of the system, the number of colony-forming units was up to 96% lower than in the case of air samples collected before the system started to be used for strains of both bacteria and fungi. The hospital staff found the WellAir air disinfection system to be: tolerable, easy to use, and safe for patients and staff. The WellAir air purification system complements existing measures to combat infections and does not require additional interventions to ensure that it functions without interruption.
Hospital of Infectious and Tropical Diseases “Dr. Victor Babes,” Bucharest, Romania
Not a single infection occurred after the installation of the WellAir disinfection devices. WellAir helped to reassure mothers over safety concerns and contributed to increased revenue by differentiating us from other hospitals that don’t offer the technology. Furthermore, during the periodical test by the Public Health Inspectors for air quality, WellAir exceeded our expectations and we managed to get approval without any problem.
Korea Medical Hub, H-Cube Neonatal Centre
The microbiological tests of the air in the areas where the devices were installed revealed a significant reduction in the number of microorganisms. Moreover, the elimination of unwanted odors in the tested rooms was noted. The devices tested in our facility deserve to be widely used in healthcare institutions, particularly in sites of high epidemiological risk.
Specialized Hospital, Chorzów, Poland
The operation of the devices has clearly improved air quality, significantly decreasing and eliminating the unpleasant smells that were present previously. The noise emitted by the equipment is insignificant, it does not disturb the patients. The [test] results reveal that apart from reducing the number of organic molecules causing the smells, the equipment also significantly decreased the quantity of pathogenic organisms.
University of Szeged, Hungary