Neva Healthcare

Introducing Neva Healthcare

Neva Healthcare has developed the new and most comprehensive proprietary infectious monitoring and eradication technology for commercial environments to date. It’s initial Phase I Smart Air Sensor Monitor System (SAM) and Bio-Safety Air and Surface Sterilizing (BASS) platforms which measures unhealthy and hazardous air will be brought to market later this year. Neva’s Phase 2 monitoring and sterilization system (SAT) provides air quality monitoring and real time telehealth data which records and delivers pattern recognition of respiratory conditions. SAT Will be brought to market in year 2023 to 2024.

Innovative Technology Designed for Today’s New World

Neva’s systems identify and eradicate existing and future pathogens, bacteria, fungi, yeast and viruses in a wide range of environments using 222nm UVC wavelengths and leading-edge environmental sensor platforms.

Dental Offices

Airborne and equipment eradication in minutes

Hotel and Resorts

5-to-10-minute eradication times when cleaning staff is present, with Energy Star certifications

School Classrooms

Automated volume measurements with human counts ensure safe environments for in-person education learning goals.

Government Facilities

Our designs provide unique solutions for pathogen and disaster conditions to ensure operational control.

Medical Facilities

Medical facilities are at high risk of infection, requiring safety and efficacy, employing Class II FDA design controls.

Senior Living Facilities

Local in-space eradication provides cost-effective protocols with closed-looped HVAC facilities for higher at-risk populations.

Offices

Providing peace-of-mind to employers and employees that cutting-edge eradication technology is employed for their safety.

Government Health Organizations' Position on UVC for Eradicating SARS-CoV-2

Columbia University Irving Medical Center

U.S. Food & Drug Administration

National Institute of Health

Fortune Magazine

Centers for Disease Control and Prevention

Far-222nm UVC Light Safety Kills Airborne Coronaviruses

More than 99.9% of seasonal coronaviruses present in airborne droplets were killed when exposed to a particular wavelength of ultraviolet light that is safe to use around humans, a new study at the Vagelos College of Physicians and Surgeons at Columbia University Irving Medical Center has found.

UV Lights & Lamps: Ultraviolet-C Radiation, Disinfection, & Coronavirus

Given the current outbreak of Coronavirus Disease 2019 (COVID-19) disease caused by the novel coronavirus SARS-CoV-2, consumers may be interested in purchasing ultraviolet-C (UVC) lamps to disinfect surfaces in the home or similar spaces. The FDA is providing answers to consumers' questions about the use of these lamps for disinfection during the COVID-19 pandemic.

Reduces Viral Aerosol or Surface-based Transmissions

We found that SARS-CoV-2 can be inactivated effectively using a broad range of UVC wavelengths, and 222 nm provided the best disinfection performance. Interestingly, 222-nm irradiation has been found to be safe for human exposure up to thresholds that are beyond those effective for inactivating viruses.

There's a third way to minimize COVID exposure besides masks and distancing. Let's start using it.

In addition to the two widely publicized methods of minimizing exposure to the virus (wearing a mask or face covering over your nose and mouth, and social distancing) is a third, fairly new, yet rarely mentioned method: cleansing the air. One effective way to cleanse the indoor air around us is with far-UVC light at a 222-nanometer wavelength. This short wavelength on the far end of the ultraviolet spectrum is not harmful to humans.

Upper-Room Ultraviolet Germicidal Irradiation (UVGI)

CDC recommends a layered strategy to reduce exposures to SARS-CoV-2, the virus that causes COVID-19. A layered strategy combines multiple prevention strategies such as consistent and correct use of masks, ventilation, physical distancing, cleaning and disinfection, and hygiene. Ventilation interventions can help reduce the number of infectious viral particles (e.g. SARA-CoV-2) in the air. Ventilation interventions include opening windows, using fans, adding high-efficiency particle air (HEPA) fan/filter systems, and adding upper-room ultraviolet germicidal irradiation (UVGI).

600

Annual Infection Disease Cost

6.5

Annual Healthcare Associated Infections in the U.S.

Annual Healthcare Associated Infections in Europe

200000

Annual Staph Infections

Comparison of Costs & Benefits to Chemical Cleaning

Reoccurring cleaning materials costs
Repeating labor costs for cleaning protocols
Cost and errors within manual history records to document cleaning events
Analysis of space type that needs to be cleaned using different protocols
Time spent training and onboarding
Salaries, benefits and general overhead costs
Potential misaligned hires

Continuous disinfection efficiency for air, surfaces and objects at lower cost point
Lighter workloads across end-user verticals
99.9% kill rate of pathogens in room
Higher quality sterilization practices
Automatic disinfection history records, shared usage data in real time, full transparency via simple dashboards
New areas of expertise
Decreased risk across all end users
No chemical effects
Less waste (1000 square foot room manual disinfection generate 500-700kg of waste to landfill vs Neva 6-10kg
Reduces carbon footprint by around 90% ¹

¹ Disinfection with UVC sterilization is not a replacement for cleaning. Cleaning must happen before disinfection activity. In some cases, end-users may choose to still use chemicals to ensure high touch surfaces or hard to reach places are disinfected, where independently verified study examined UVC sterilization as an appropriate replacement for any chemical-based disinfection.

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Providing Intelligent Air Monitoring & Infection Eradication Systems