Assessment of temporal and spatial distribution patterns of aerosol produced by air-puff non-contact tonometer.

PURPOSE

To assess the distribution pattern of aerosol in the aspect of time and direction during the intraocular pressure (IOP) measurement by air-puff non-contact tonometer (NCT) and further offer references for protection from coronavirus disease-19 (COVID-19) in the routine ophthalmic examination.

METHOD

A single-center observational study was conducted in the ophthalmology clinics of Peking University Third Hospital. Two air quality detectors were equipped to assess the generated particulate matter (PM) concentration simultaneously within 30 s after IOP measurement in the outpatient hall. Detector A was fixed next to the NCT as a reference, while Detector B was fixed 1 meter away. The participants were divided into two groups depending on the position of Detector B. The generation of aerosol was compared within different groups and time intervals.

RESULTS

144 participants were enrolled in the final analysis. At a 1 m distance from the NCT, the PM concentration significantly increased at the 30 s ( = 2.898, Bonferroni-corrected  = 0.038) while the PM concentration increased immediately after the IOP measurement ( = 2.967, Bonferroni-corrected  = 0.030). The PM and PM concentrations at 1 m were significantly higher immediately ( = -2.183,  = 0.029;  = -2.502,  = 0.012) and 30 s ( = -2.021,  = 0.043;  = -2.071,  = 0.038) after the IOP measurements when the Detector B was vertical to the air jet on the lateral side.

CONCLUSIONS

NCT may produce aerosol after the IOP measurement by air-puff. The generated PM had a prolonged existence compared with PM at a 1 m distance. The lateral side of the air-puff direction may be of higher exposure risk to aerosol.