Clifford Robert, Sparks Michael, Hosford Eve, Ong Ana, Richesson Douglas, Fraser Susan, Kwak Yoon, Miller Sonia, Julius Michael, McGann Patrick, Lesho Emil
Multidrug-resistant organism Repository and Surveillance Network, Walter Reed Army Institute of Research, Silver Spring, Maryland, United States of America.
Department of Infectious Diseases and Infection Control, Fort Belvoir Community Hospital, Fort Belvoir, Virginia, United States of America.
PLoS One. 2016 May 19;11(5):e0155779. doi: 10.1371/journal.pone.0155779. eCollection 2016.
The most efficient approach to monitoring and improving cleaning outcomes remains unresolved. We sought to extend the findings of a previous study by determining whether cleaning thoroughness (dye removal) correlates with cleaning efficacy (absence of molecular or cultivable biomaterial) and whether one brief educational intervention improves cleaning outcomes.
Before-after trial.
Newly built community hospital.
90 minute training refresher with surface-specific performance results.
Dye removal, measured by fluorescence, and biomaterial removal and acquisition, measured with culture and culture-independent PCR-based assays, were clandestinely assessed for eight consecutive months. At this midpoint, results were presented to the cleaning staff (intervention) and assessments continued for another eight consecutive months.
1273 surfaces were sampled before and after terminal room cleaning. In the short-term, dye removal increased from 40.3% to 50.0% (not significant). For the entire study period, dye removal also improved but not significantly. After the intervention, the number of rooms testing positive for specific pathogenic species by culturing decreased from 55.6% to 36.6% (not significant), and those testing positive by PCR fell from 80.6% to 53.7% (P = 0.016). For nonspecific biomaterial on surfaces: a) removal of cultivable Gram-negatives (GN) trended toward improvement (P = 0.056); b) removal of any cultivable growth was unchanged but acquisition (detection of biomaterial on post-cleaned surfaces that were contaminant-free before cleaning) worsened (P = 0.017); c) removal of PCR-based detection of bacterial DNA improved (P = 0.046), but acquisition worsened (P = 0.003); d) cleaning thoroughness and efficacy were not correlated.
At this facility, a minor intervention or minimally more aggressive cleaning may reduce pathogen-specific contamination, but not without unintended consequences.
监测和改善清洁效果的最有效方法仍未得到解决。我们试图通过确定清洁彻底性(染料去除)是否与清洁效果(无分子或可培养生物材料)相关,以及一次简短的教育干预是否能改善清洁效果,来扩展先前一项研究的结果。
前后对照试验。
新建的社区医院。
进行90分钟的培训复习,并提供特定表面的性能结果。
通过荧光测量染料去除情况,通过培养和基于PCR的非培养检测方法测量生物材料的去除和获取情况,连续八个月进行秘密评估。在这个中点,将结果呈现给清洁人员(干预),并继续连续评估另外八个月。
在终末病房清洁前后对1273个表面进行了采样。短期内,染料去除率从40.3%提高到50.0%(无统计学意义)。在整个研究期间,染料去除率也有所提高,但无统计学意义。干预后,通过培养检测出特定致病菌种呈阳性的房间数量从55.6%降至36.6%(无统计学意义),通过PCR检测呈阳性的房间数量从80.6%降至53.7%(P = 0.016)。对于表面的非特异性生物材料:a)可培养革兰氏阴性菌(GN)的去除有改善趋势(P = 0.056);b)任何可培养生长物的去除没有变化,但获取(在清洁前无污染的清洁后表面检测到生物材料)情况恶化(P = 0.了017);c)基于PCR的细菌DNA检测的去除有所改善(P = 0.046),但获取情况恶化(P = 0.003);d)清洁彻底性和效果不相关。
在该机构,一次小的干预或稍微更积极的清洁可能会减少病原体特异性污染,但并非没有意外后果。