揭示全髋关节置换术术中污染的动态变化:微粒污染与微生物污染在手术部位感染风险中的差异。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-01 DOI:10.1186/s42836-024-00272-0
Toshiyuki Tateiwa, Toshinori Masaoka, Yasuhito Takahashi, Tsunehito Ishida, Takaaki Shishido, Kengo Yamamoto
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引用次数: 0

摘要

背景:手术部位感染(SSI)是全髋关节置换术(THA)后的一个主要问题。本研究调查了手术团队在层流气流(LAF)通风手术室(OR)内穿全身排气服(太空服)这一标准术中常规操作对环境污染的影响。我们的主要目的是确定潜在的可改变的术中因素,以便更好地控制这些因素,将 SSI 风险降至最低:方法:我们采用了一种方法,在实际的初级无骨水泥 THA 手术过程中同时连续进行空气采样。这种方法从患者进入手术室进行手术到拔管,同时监测空气中的颗粒物和微生物污染水平:结果:当手术团队未穿太空服时,空气中的微粒和微生物污染在第一次和第二次患者复位(体位改变)时明显增加。然而,在核心手术过程中,即在切口和缝合之间,当外科医生穿上太空服时,它们的浓度表现出不一致的变化。微生物生物传感器从铺巾到缝合期间检测到的微生物中位数为零。与此相反,粒子计数器显示,在头部切除和杯压装过程中,空气中的粒子含量很高,这表明这些程序可能会产生更多无法存活的粒子:这项研究发现,在核心手术过程中,有很大一部分空气传播的微粒是不能存活的,这表明仅监测微粒计数可能不足以估计 SSI 风险。我们的研究结果强烈支持外科医生使用太空服,以尽量减少 LAF 通风手术室内的术中微生物污染。因此,最大限度地减少未经消毒人员的不必要流动和移动至关重要。此外,由于我们的数据表明患者重新定位时污染会增加,因此有效控制首次体位改变时的污染对于在整个手术过程中保持较低的微生物污染水平起着关键作用。在最初的操作过程中使用无菌袍可能会进一步减少 SSI。有必要进一步研究无菌服对 SSI 的影响。
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Unveiling the dynamics of intraoperative contamination in total hip arthroplasty: the discrepancy between particulate and microbial contamination in surgical site infection risk.

Background: Surgical site infection (SSI) is a major problem following total hip arthroplasty (THA). This study investigated the impact of a standard intraoperative routine where the surgical team wears full-body exhaust suits (space suits) within a laminar airflow (LAF)-ventilated operating room (OR) on environmental contamination. Our primary objective was to identify potential modifiable intraoperative factors that could be better controlled to minimize SSI risk.

Methods: We implemented an approach involving simultaneous and continuous air sampling throughout actual primary cementless THA procedures. This method concurrently monitored both airborne particle and microbial contamination levels from the time the patient entered the OR for surgery until extubation.

Results: Airborne particulate and microbial contamination significantly increased during the first and second patient repositionings (postural changes) when the surgical team was not wearing space suits. However, their concentration exhibited inconsistent changes during the core surgical procedures, between incision and suturing, when the surgeons wore space suits. The microbial biosensor detected zero median microbes from draping to suturing. In contrast, the particle counter indicated a significant level of airborne particles during head resection and cup press-fitting, suggesting these procedures might generate more non-viable particles.

Conclusions: This study identified a significant portion of airborne particles during the core surgical procedures as non-viable, suggesting that monitoring solely for particle counts might not suffice to estimate SSI risk. Our findings strongly support the use of space suits for surgeons to minimize intraoperative microbial contamination within LAF-ventilated ORs. Therefore, minimizing unnecessary traffic and movement of unsterile personnel is crucial. Additionally, since our data suggest increased contamination during patient repositioning, effectively controlling contamination during the first postural change plays a key role in maintaining low microbial contamination levels throughout the surgery. The use of sterile gowns during this initial maneuver might further reduce SSIs. Further research is warranted to investigate the impact of sterile attire on SSIs.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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