1Public Health Ontario,Toronto,Canada.
7Faculty of Environmental Sciences,McGill University,Toronto,Canada.
Infect Control Hosp Epidemiol. 2018 Aug;39(8):917-923. doi: 10.1017/ice.2018.103.
Clostridium difficile spores play an important role in transmission and can survive in the environment for several months. Optimal methods for measuring environmental C. difficile are unknown. We sought to determine whether increased sample surface area improved detection of C. difficile from environmental samples.
Samples were collected from 12 patient rooms in a tertiary-care hospital in Toronto, Canada.
Samples represented small surface-area and large surface-area floor and bedrail pairs from single-bed rooms of patients with low (without prior antibiotics), medium (with prior antibiotics), and high (C. difficile infected) shedding risk. Presence of C. difficile in samples was measured using quantitative polymerase chain reaction (qPCR) with targets on the 16S rRNA and toxin B genes and using enrichment culture.
Of the 48 samples, 64·6% were positive by 16S qPCR (geometric mean, 13·8 spores); 39·6% were positive by toxin B qPCR (geometric mean, 1·9 spores); and 43·8% were positive by enrichment culture. By 16S qPCR, each 10-fold increase in sample surface area yielded 6·6 times (95% CI, 3·2-13) more spores. Floor surfaces yielded 27 times (95% CI, 4·9-181) more spores than bedrails, and rooms of C. difficile-positive patients yielded 11 times (95% CI, 0·55-164) more spores than those of patients without prior antibiotics. Toxin B qPCR and enrichment culture returned analogous findings.
Clostridium difficile spores were identified in most floor and bedrail samples, and increased surface area improved detection. Future research aiming to understand the role of environmental C. difficile in transmission should prefer samples with large surface areas.
艰难梭菌孢子在传播中起着重要作用,并且可以在环境中存活数月。目前还不清楚测量环境中艰难梭菌的最佳方法。我们试图确定增加样本表面积是否能提高从环境样本中检测艰难梭菌的能力。
样本取自加拿大多伦多一家三级保健医院的 12 间病房。
样本代表来自低(无先前抗生素)、中(有先前抗生素)和高(艰难梭菌感染)脱落风险患者单人房间的小面积和大面积地板和床栏对。使用针对 16S rRNA 和毒素 B 基因的定量聚合酶链反应(qPCR)以及富集培养法来测量样本中艰难梭菌的存在情况。
在 48 个样本中,64.6%通过 16S qPCR 呈阳性(几何平均值为 13.8 个孢子);39.6%通过毒素 B qPCR 呈阳性(几何平均值为 1.9 个孢子);43.8%通过富集培养呈阳性。通过 16S qPCR,样本表面积每增加 10 倍,孢子数量就会增加 6.6 倍(95%CI,3.2-13)。与床栏相比,地板表面的孢子数量多 27 倍(95%CI,4.9-181),而艰难梭菌阳性患者的房间比没有先前使用抗生素的患者的房间多 11 倍(95%CI,0.55-164)。毒素 B qPCR 和富集培养得到了类似的结果。
大多数地板和床栏样本都检测到了艰难梭菌孢子,增加表面积可以提高检测能力。未来旨在了解环境中艰难梭菌在传播中作用的研究应优先选择表面积较大的样本。
