手术室人流量增加气溶胶粒子并降低空气质量：模拟研究。

Operating Room Traffic Increases Aerosolized Particles and Compromises the Air Quality: A Simulated Study.

机构信息

The Rothman Institute at Thomas Jefferson University, Philadelphia, Pennsylvania.

出版信息

J Arthroplasty. 2018 Mar;33(3):851-855. doi: 10.1016/j.arth.2017.10.012. Epub 2017 Oct 16.

DOI:10.1016/j.arth.2017.10.012

PMID:29174409

Abstract

BACKGROUND

Strategies to prevent bacterial fallout and reduce particle count in the operating room (OR) are key components of preventing periprosthetic joint infection. Although OR traffic control is an important factor, a quantitative study has not been performed to investigate the influence of personnel and door opening on OR air quality. This simulated study aimed to examine the influence of these 2 factors on particle density in OR with and without the laminar air flow (LAF).

METHODS

Both experiments took place within an empty OR of an arthroplasty unit equipped with an LAF system. First, the number of particles in the air was counted using a particle counting apparatus while 9 persons entered the room, one every 15 minutes. Second, the door was opened and closed starting with zero door openings per minute and increasing to 4 in 15-minute increments. Both experiments were performed once with the LAF turned on and once without.

RESULTS

The number of personnel in the OR and the number of door openings per minute correlate with the density of particles. Both relationships were significantly reduced by turning the LAF on (correlation coefficients <0.4). With the LAF being turned on, the particle density per person decreased from 211.19 to 18.19 particles/ft (P < .001) and the particle density per rate of door openings declined from 117.80 to 1.90 particles/ft (P = .017).

CONCLUSION

This study confirms that personnel and door opening are a major source of particles in the OR air. Controlling traffic is critical for reduction of particles and is likely to be a key preventative strategy in reducing periprosthetic joint infection. LAF is protective against the negative influence of number of people and door openings.

摘要

背景

在手术室（OR）中预防细菌沉降和减少粒子计数的策略是预防假体周围关节感染的关键组成部分。尽管 OR 交通管制是一个重要因素，但尚未进行定量研究来调查人员和门打开对 OR 空气质量的影响。这项模拟研究旨在检查这两个因素在有无层流气流（LAF）的情况下对 OR 中粒子密度的影响。

方法

这两个实验都在配备有 LAF 系统的关节置换单元的空 OR 内进行。首先，使用粒子计数仪在 9 个人每 15 分钟进入房间时对空气中的粒子数量进行计数。其次，从每分钟 0 次开门开始，以每 15 分钟增加 1 次的方式打开和关闭门。这两个实验都在打开和关闭 LAF 各进行了一次。

结果

OR 中的人员数量和每分钟开门次数与粒子密度相关。这两种关系通过打开 LAF 都显著降低（相关系数<0.4）。打开 LAF 时，每人的粒子密度从 211.19 个/ft 降至 18.19 个/ft（P<.001），每分钟开门次数的粒子密度从 117.80 个/ft 降至 1.90 个/ft（P=0.017）。

结论

这项研究证实，人员和开门是 OR 空气中粒子的主要来源。控制交通对于减少粒子至关重要，并且可能是减少假体周围关节感染的关键预防策略。LAF 可防止人员数量和开门次数的负面影响。

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手术室人流量增加气溶胶粒子并降低空气质量：模拟研究。

Operating Room Traffic Increases Aerosolized Particles and Compromises the Air Quality: A Simulated Study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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