Department of Ophthalmology, 66482Peking University Third Hospital, Beijing, China.
Beijing Key Laboratory of Restoration of Damaged Ocular Nerve, 66482Peking University Third Hospital, Beijing, China.
Eur J Ophthalmol. 2022 Sep;32(5):3012-3018. doi: 10.1177/11206721211054727. Epub 2021 Dec 3.
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.
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.
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.
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.
评估气动式非接触眼压计(NCT)在眼压(IOP)测量过程中时间和方向方面的气溶胶分布模式,并为常规眼科检查中预防新型冠状病毒病(COVID-19)提供参考。
这是一项在北京大学第三医院眼科门诊进行的单中心观察性研究。在门诊大厅内,使用两台空气质量探测器同时评估 NCT 测量后 30 秒内产生的颗粒物(PM)浓度。探测器 A 固定在 NCT 旁边作为参考,而探测器 B 则固定在 1 米远处。根据探测器 B 的位置将参与者分为两组。比较不同组和时间间隔内气溶胶的产生情况。
最终纳入 144 名参与者进行分析。在距 NCT 1 米处,30 秒时 PM 浓度明显升高( = 2.898,Bonferroni 校正后 = 0.038),而在 IOP 测量后立即 PM 浓度升高( = 2.967,Bonferroni 校正后 = 0.030)。1 米处的 PM 和 PM 浓度立即( = -2.183, = 0.029; = -2.502, = 0.012)和 30 秒( = -2.021, = 0.043; = -2.071, = 0.038)后显著升高,当探测器 B 垂直于侧方气喷时。
NCT 在气动式眼压测量后可能会产生气溶胶。与 1 米处的 PM 相比,生成的 PM 存在时间更长。气喷方向的侧面可能具有更高的气溶胶暴露风险。
