National Institute for Health Research Oxford Biomedical Research Centre, John Radcliffe Hospital, Oxford, United Kingdom.
PLoS Med. 2012 Feb;9(2):e1001172. doi: 10.1371/journal.pmed.1001172. Epub 2012 Feb 7.
Clostridium difficile infection (CDI) is a leading cause of antibiotic-associated diarrhoea and is endemic in hospitals, hindering the identification of sources and routes of transmission based on shared time and space alone. This may compromise rational control despite costly prevention strategies. This study aimed to investigate ward-based transmission of C. difficile, by subdividing outbreaks into distinct lineages defined by multi-locus sequence typing (MLST).
All C. difficile toxin enzyme-immunoassay-positive and culture-positive samples over 2.5 y from a geographically defined population of ~600,000 persons underwent MLST. Sequence types (STs) were combined with admission and ward movement data from an integrated comprehensive healthcare system incorporating three hospitals (1,700 beds) providing all acute care for the defined geographical population. Networks of cases and potential transmission events were constructed for each ST. Potential infection sources for each case and transmission timescales were defined by prior ward-based contact with other cases sharing the same ST. From 1 September 2007 to 31 March 2010, there were means of 102 tests and 9.4 CDIs per 10,000 overnight stays in inpatients, and 238 tests and 15.7 CDIs per month in outpatients/primary care. In total, 1,276 C. difficile isolates of 69 STs were studied. From MLST, no more than 25% of cases could be linked to a potential ward-based inpatient source, ranging from 37% in renal/transplant, 29% in haematology/oncology, and 28% in acute/elderly medicine to 6% in specialist surgery. Most of the putative transmissions identified occurred shortly (≤ 1 wk) after the onset of symptoms (141/218, 65%), with few >8 wk (21/218, 10%). Most incubation periods were ≤ 4 wk (132/218, 61%), with few >12 wk (28/218, 13%). Allowing for persistent ward contamination following ward discharge of a CDI case did not increase the proportion of linked cases after allowing for random meeting of matched controls.
In an endemic setting with well-implemented infection control measures, ward-based contact with symptomatic enzyme-immunoassay-positive patients cannot account for most new CDI cases.
艰难梭菌感染(CDI)是抗生素相关性腹泻的主要原因,在医院中普遍存在,这使得仅基于共享时间和空间来确定来源和传播途径变得困难。尽管采取了昂贵的预防策略,但这可能会影响合理的控制。本研究旨在通过将暴发分为基于多位点序列分型(MLST)定义的不同谱系,来研究病房内艰难梭菌的传播。
在一个地理上定义的约 60 万人的人群中,对 2.5 年以上的所有艰难梭菌毒素酶免疫测定阳性和培养阳性样本进行 MLST。将序列类型(ST)与来自一个综合医疗保健系统的入院和病房移动数据相结合,该系统包含 3 家医院(1700 张病床),为所定义的地理人群提供所有急性护理。为每个 ST 构建病例和潜在传播事件网络。通过与其他共享相同 ST 的病例在病房中的先前接触,确定每个病例的潜在感染源和传播时间范围。从 2007 年 9 月 1 日至 2010 年 3 月 31 日,每位住院患者的平均过夜住宿次数为 102 次测试和 9.4 次 CDI,每位门诊/初级保健患者的平均测试次数和 CDI 次数为 238 次和 15.7 次。总共研究了 69 个 ST 的 1276 株艰难梭菌分离株。通过 MLST,只有不到 25%的病例可以与潜在的病房内住院源相关联,从肾脏/移植的 37%,血液学/肿瘤学的 29%,急性/老年医学的 28%到专业手术的 6%。大多数确定的假定传播发生在症状出现后不久(≤1 周)(141/218,65%),很少有超过 8 周(21/218,10%)。大多数潜伏期≤4 周(132/218,61%),很少有超过 12 周(28/218,13%)。在允许 CDI 病例出院后的病房持续污染的情况下,即使允许匹配对照随机相遇,与相关病例的关联比例也不会增加。
在感染控制措施实施良好的地方性环境中,与有症状的酶免疫测定阳性患者进行病房接触不能解释大多数新的 CDI 病例。
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