Published on in Vol 6, No 12 (2022): December
Preprints (earlier versions) of this paper are
available at
https://preprints.jmir.org/preprint/37587, first published
.
![Pilot Evaluation of Possible Airborne Transmission in a Geriatric Care Facility Using Carbon Dioxide Tracer Gas: Case Study Pilot Evaluation of Possible Airborne Transmission in a Geriatric Care Facility Using Carbon Dioxide Tracer Gas: Case Study](https://asset.jmir.pub/assets/c65031b07198318e7aef67b6160cb40c.png 480w,https://asset.jmir.pub/assets/c65031b07198318e7aef67b6160cb40c.png 960w,https://asset.jmir.pub/assets/c65031b07198318e7aef67b6160cb40c.png 1920w,https://asset.jmir.pub/assets/c65031b07198318e7aef67b6160cb40c.png 2500w)
Journals
- ISHIGAKI Y, KATO T. Proposal and Implementation of a Survey for Prevention of Aerosol Infection:. Journal of Occupational Safety and Health 2023;16(2):173 View
- Yokogawa S, Ishigaki Y, Kitamura H, Saito A, Kawauchi Y, Hiraide T. Estimation of air change rate by CO<sub>2</sub> sensor network in workplace with COVID-19 outbreak. Environmental and Occupational Health Practice 2023;5(1):n/a View
- Ishigaki Y, Yokogawa S, Singh R. Monitoring the ventilation of living spaces to assess the risk of airborne transmission of infection using a novel Pocket CO2 Logger to track carbon dioxide concentrations in Tokyo. PLOS ONE 2024;19(5):e0303790 View