Ribotypes and New Virulent Strains Across Europe.

Clostridioides (formerly Clostridium) difficile is a major bacterial cause of post-antibiotic diarrhoea. The epidemiology of C. difficile infections (CDIs) has dramatically changed since the early 2000s, with an increasing incidence and severity across Europe. This trend is partly due to the emergence and rapid worldwide spread of the hypervirulent and epidemic PCR ribotype 027. Profiles of patients with CDI have also evolved, with description of community-acquired (CA) infections in patients with no traditional risk factors for CDI. However, epidemiological studies indicated that some European countries have successfully controlled the dissemination of the 027 clone whereas other countries reported the emergence of other virulent or unusual strains. The aims of this review are to summarize the current European CDI epidemiology and to describe the new virulent C. difficile strains circulating in Europe, as well as other potential emerging strains described elsewhere. Standardized typing methods and surveillance programmes are mandatory for a better understanding and monitoring of CDI in Europe.

Prevalence and risk factors of toxigenic Clostridioides difficile asymptomatic carriage in 11 French hospitals.

Clostridioides difficile infection (CDI) incidence has increased over the last 20 years. Studies suggest that asymptomatic carriers may be an important reservoir of C. difficile in healthcare settings. We conducted a point prevalence study to estimate the toxigenic C. difficile asymptomatic carriage rate and the associated risk factors in patients >3 years old. Between September 16, 2019 and January 15, 2020, all patients hospitalized in 11 healthcare facilities in the Paris urban area were included in the study. They were screened on the day of the survey for toxigenic C. difficile carriage by rectal swab and interviewed. Isolates were characterized by PCR ribotyping and multiplex PCR targeting toxin genes. A logistic regression model was used to determine the risk factors associated with toxigenic C. difficile asymptomatic carriage using uni- and multivariate analysis in the subpopulation of patients >3 years old. During the study period, 2,389 patients were included and screened. The median age was 62 years (interquartile range 35-78 years) and 1,153 were male (48.3%). Nineteen patients had a previous CDI (0.9%). Overall, 185/2389 patients were positive for C. difficile (7.7%), including 93 toxigenic strains (3.9%): 77 (82.8%) were asymptomatic (prevalence 3.2%) whereas 12 (12.9%) were diarrheic. Prevalences of toxigenic C. difficile were 3.5% in patients >3 years old and 7.0% in ≤3 years old subjects, respectively. Toxigenic strains mainly belonged to PCR ribotypes 106 (n = 14, 15.0%), 014 (n = 12, 12.9%), and 020 (n = 10, 10.8%). Among toxigenic strains, 6 (6.4%) produced the binary toxin. In multivariate analysis, two factors were positively associated with toxigenic C. difficile asymptomatic carriage in patients >3 years old: multidrug-resistant organisms co-carriage [adjusted Odd Ratio (aOR) 2.3, CI 95% 1.2-4.7, p = 0.02] and previous CDI (aOR 5.8, CI 95% 1.2-28.6, p = 0.03). Conversely, consumption of raw milk products were associated with reduced risk of toxigenic C. difficile colonization (aOR 0.5, CI 95% 0.2-0.9, p = 0.01). We showed that there was a low prevalence of asymptomatic toxigenic C. difficile carriage in hospitalized patients. Consumption of raw milk prevents toxigenic C. difficile colonization, probably due to the barrier effect of milk-associated bacteria.

Investigation of a Mycobacterium fortuitum catheter-related bloodstream infection in an oncology unit.

We describe a case of healthcare-associated bloodstream infection due to Mycobacterium fortuitum. Whole-genome sequencing showed that the same strain was isolated from the shared shower water of the unit. Nontuberculous mycobacteria frequently contaminate hospital water networks. Preventative actions are needed to reduce the exposure risk for immunocompromised patients.

[Clostridioides difficile: updated recommendations]. / Clostridioides difficile : des recommandations actualisées.

CLOSTRIDIOIDES DIFFICILE: UPDATED RECOMMENDATIONS Clostridioides difficile is a spore-forming anaerobic enteropathogen responsible for a wide spectrum of clinical features ranging from mild uncomplicated diarrhoea to severe debilitating disease, toxic megacolon, or even perforation and sometimes death. Risk factors for CDI include age >65 years, previous hospitalization and recent antibiotic therapy. Main virulence factors of C. difficile are toxins A (TcdA) and B (TcdB). The emergence and dissemination of a new hypervirulent strain (027/NAP/BI) in 2005 has stimulated clinical and basic research on C. difficile. Major advances have been made regarding the CDI epidemiology (better recognition of community acquired CDI), diagnosis (molecular tests) and therapy (new drugs such as fidaxomicin, bezlotoxumab, and fecal microbiota transplantation) aspects. These advances have allowed the updating of management recommendations, under the aegis of the European Society of Clinical Microbiology and Infectious Diseases (ESCMID). Antibiotic treatment of CDI depends on both the severity of the infection, and the risk/number of recurrences. Prevention of CDI requires an antimicrobial stewardship policy and the implementation of contact precautions for the infected patients.

CLOSTRIDIOIDES DIFFICILE: DES RECOMMANDATIONS ACTUALISÉES Clostridioides difficile est un bacille à Gram positif anaérobie sporulé responsable d'un large spectre d'infections digestives : de la diarrhée simple spontanément résolutive à la colite pseudomembraneuse qui peut se compliquer de mégacôlon toxique, de perforation et entraîner le décès du patient. Les principaux facteurs de risque d'infections à C. difficile (ICD) sont l'âge supérieur à 65 ans, l'administration d'antibiotiques et les antécédents d'hospitalisation. La virulence des souches est liée à la production de deux toxines, TcdA et TcdB. L'émergence et la dissémination rapide d'un clone dit « hypervirulent ¼ (027/ NAP/BI) en 2005 a stimulé la recherche clinique et fondamentale. Des avancées majeures ont été réalisées tant sur le plan épidémiologique (meilleure reconnaissance des formes communautaires d'ICD), diagnostique (nouveaux tests moléculaires) que thérapeutique (nouveaux traitements comme la fidaxomicine, le bezlotoxumab, ou la transplantation de microbiote fécal) ; ces progrès ont permis la mise à jour des recommandations de prise à charge, sous l'égide de la Société européenne de microbiologie clinique et des maladies infectieuses (ESCMID). Le traitement antibiotique des ICD dépend à la fois de la sévérité de l'infection, du risque et du nombre de récidives. Le contrôle de l'infection requiert, d'une part, la maîtrise de la consommation d'antibiotiques et, d'autre part, la mise en œuvre de précautions « contact ¼ vis-à-vis des patients infectés.

Environmental severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) contamination in hospital rooms during the first and third coronavirus disease 2019 (COVID-19) waves.

We investigated the frequency, distribution, and risk factors of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) environmental contamination around infected patients during the first and third wave of the coronavirus disease 2019 pandemic. The shedding of SARS-CoV-2 in rooms of infected patients was limited in our hospital setting.

Gut Microbiota Diversity of Preterm Neonates Is Associated With Clostridioides Difficile Colonization.

In adults, Clostridioides difficile infections are associated with alterations of the intestinal bacterial populations. Although preterm neonates (PN) are frequently colonized by C. difficile, limited data are available regarding the relationship between C. difficile and the intestinal microbiota of this specific population. Therefore, we studied the intestinal microbiota of PN from two multicenter cohorts using high-throughput sequencing of the bacterial 16S rRNA gene. Our results showed that alpha diversity was significantly higher in children colonized by C. difficile than those without colonization. Beta diversity significantly differed between the groups. In multivariate analysis, C. difficile colonization was significantly associated with the absence of postnatal antibiotherapy and higher gestational age. Taxa belonging to the Lachnospiraceae, Enterobacteriaceae, Oscillospiraceae families and Veillonella sp. were positively associated with C. difficile colonization, whereas Bacteroidales and Bifidobacterium breve were negatively associated with C. difficile colonization. After adjustment for covariables, Clostridioides, Rothia, Bifidobacterium, Veillonella, Eisenbergiella genera and Enterobacterales were more abundant in the gut microbiota of colonized children. There was no significant association between C. difficile colonization and necrotizing enterocolitis in PN. Our results suggest that C. difficile colonization in PN is related to the establishment of physiological microbiota.

Molecular epidemiology and antimicrobial resistance patterns of Clostridioides difficile isolates in Algerian hospitals.

INTRODUCTION: Clostridioides difficile is a major pathogen responsible for hospital-associated diarrhoea. This study investigated the molecular epidemiology and antibiotic resistance of C. difficile isolates in five Algerian hospitals. METHODOLOGY: Between 2016 and 2019, faecal specimens were collected from in-patients and were cultured for C. difficile. Isolates were characterised by toxin genes detection, Polymerase Chain Reaction (PCR)-ribotyping, Multilocus Sequence Typing (MLST), antimicrobial susceptibility testing against a panel of antibiotics, and screened for antimicrobial resistance genes. RESULTS: Out of 300 patient stools tested, 18 (6%) were positive for C. difficile by culture, and were found to belong to 11 different ribotypes (RT) and 12 sequence types (ST): RT 085/ST39, FR 248/ST259, FR 111/ST48, RT 017/ST37, RT 014/ST2, RT 014/ST14, FR 247/new ST, RT 005/ST6, RT 029/ST16, RT 039/ST26, RT 056/ST34 and RT 446/ST58. MLST analysis assigned the isolates to two clades, 1 and 4. Clade 4 was more homogeneous, as it mainly included non-toxigenic isolates. Three toxin gene profiles were detected, two toxigenic, A+B+CDT- (33.3%) and A-B+CDT- (11%); and one non-toxigenic, A-B-CDT- (55.5%). All C. difficile isolates were susceptible to metronidazole, vancomycin and moxifloxacin. CONCLUSIONS: Overall prevalence of C. difficile in our healthcare settings was 6%. Antibiotic resistance rates ranged from 72.2% (clindamycin) to 16.6% (tetracycline). This study highlighted a relatively high genetic diversity in term of ribotypes, sequence types, toxin and antibiotic resistance patterns, in the C. difficile isolates. Further larger studies are needed to assess the true extent of C. difficile infections in Algeria.

Investigation of healthcare-associated COVID-19 in a large French hospital group by whole-genome sequencing.

OBJECTIVES: Despite the quick implementation of infection prevention and control procedures and the use of personal protective equipment within healthcare facilities, many cases of nosocomial COVID-19 transmission have been reported. We aimed to estimate the frequency and impact of healthcare-associated COVID-19 (HA-COVID-19) and evaluate the contribution of whole-genome sequencing (WGS) in cluster investigation. METHODS: We estimated the frequency and mortality of HA-COVID-19 infections from September 1 to November 30, 2020, with a focus on the evolution of hospitalized community-associated COVID-19 (CA-COVID-19) cases and cases detected among healthcare workers (HCWs) within the Sorbonne University Hospital Group (Paris, France). We thoroughly examined 12 clusters through epidemiological investigations and WGS. RESULTS: Overall, 209 cases of HA-COVID-19 were reported. Evolution of HA-COVID-19 incidence closely correlated with the incidence of CA-COVID-19 and COVID-19 among HCWs. During the study period, 13.9 % of hospitalized patients with COVID-19 were infected in the hospital and the 30-day mortality rate of HA-COVID-19 was 31.5 %. Nosocomial transmission of SARS-CoV-2 led to clusters involving both patients and HCWs. WGS allowed the exclusion of one-third of cases initially assigned to a cluster. CONCLUSIONS: WGS analysis combined with comprehensive epidemiological investigations is essential to understand transmission routes and adapt the IPC response to protect both patients and HCWs.

Outbreak of OXA-48-producing Enterobacterales in a haematological ward associated with an uncommon environmental reservoir, France, 2016 to 2019.

The hospital water environment, including the wastewater drainage system, is increasingly reported as a potential reservoir for carbapenemase-producing Enterobacterales (CPE). We investigated a persistent outbreak of OXA-48 CPE (primarily Citrobacter freundii) in a haematological ward of a French teaching hospital by epidemiological, microbiological and environmental methods. Between January 2016 and June 2019, we detected 37 new OXA-48 CPE-colonised and/or ­infected patients in the haematological ward. In October 2017, a unit dedicated to CPE-colonised and/or ­infected patients was created. Eleven additional sporadic acquisitions were identified after this date without any obvious epidemiological link between patients, except in one case. Environmental investigations of the haematological ward (June-August 2018) identified seven of 74 toilets and one of 39 drains positive for OXA-48 CPE (seven C. freundii, one Enterobacter sakazakii, one Escherichia coli). Whole genome comparisons identified a clonal dissemination of OXA-48-producing C. freundii from the hospital environment to patients. In addition to strict routine infection control measures, an intensive cleaning programme was performed (descaling and bleaching) and all toilet bowls and tanks were changed. These additional measures helped to contain the outbreak. This study highlights that toilets can be a possible source of transmission of OXA-48 CPE.

Characterization of Non-Toxigenic Clostridioides difficile Strains Isolated from Preterm Neonates and In Vivo Study of Their Protective Effect.

In a previous monocentric study in preterm neonates (PN), we described a high Clostridioides difficile colonization rate (74%) with two uncommon non-toxigenic strains (NTCD) belonging to PCR-ribotype (RT) (CE)847 and (CE)032. To determine the extent of carriage of both NTCD in other spatio-temporal settings, strains isolated in PN stools from two multicenter cohorts were characterized by PCR-ribotyping, MLVA and MLST. We also evaluated the protective role of two NTCD from these RT against C. difficile infection in a hamster caecitis model. Animals were administered either each NTCD alone (n = 7), or followed by a 027 strain (n = 9). A control group received only the 027 strain (n = 8). Clinical activity and colonization by C. difficile in stools were monitored daily until death or sacrifice at D20. We isolated 18 RT(CE)032 (ST-83) strains and 2 RT(CE)847 (ST-26) strains among 247 PN from both cohorts. Within each RT, strains were genetically related. The survival rate was significantly increased when animals received a RT(CE)847 or (CE)032 strain before the 027 strain (4/9 deaths, p = 0.029; 1/9 death, p = 0.0004, respectively). We describe two predominant uncommon NTCD strains, in a PN population from different healthcare facilities. Both NTCD provide a potential protection against C. difficile infection.

Transmission of Legionnaires' Disease through Toilet Flushing.

We describe 2 cases of healthcare-associated Legionnaires' disease in patients in France hospitalized 5 months apart in the same room. Whole-genome sequencing analyses showed that clinical isolates from the patients and isolates from the room's toilet clustered together. Toilet contamination by Legionella pneumophila could lead to a risk for exposure through flushing.

Characterization of Clostridioides difficile strains isolated from manure and digestate in five agricultural biogas plants.

Clostridioides difficile strains were isolated from manure and digestate samples from five biogas plants in France. The objective of this study was to characterize these isolates using PCR ribotyping, wgMLST, a multiplex PCR targeting genes encoding for the main virulence factors, i.e. tcdA, tcdB, cdtA and cdtB, and antimicrobial susceptibility assays. The 54 strains characterized were all positive for tcdA and tcdB and 83% (45/54) were positive for the binary toxin genes. PCR ribotypes 126 (59%) and 078 (37%) were predominant, and wgMLST analysis of 18 isolates showed close proximity of strains within a single biogas plant. Samples from the biogas plant supplied with cattle and poultry manure displayed the largest variety in PCR ribotypes. The in vitro activities of nine antimicrobial agents were determined. All the strains were susceptible to vancomycin and metronidazole, which are currently considered first-line treatments for C. difficile infection in humans. All the strains were resistant to clindamycin. The results of this study show that a high percentage of C. difficile strains present in the French biogas plants investigated are toxigenic strains from PCR ribotypes also commonly found in humans.

Diagnosing Clostridioides difficile infections with molecular diagnostics: multicenter evaluation of revogene C. difficile assay.

Clostridioides difficile infections are a significant threat to our healthcare system, and rapid and accurate diagnostics are crucial to implement the necessary infection prevention and control measurements. Nucleic acid amplification tests are such reliable diagnostic tools for the detection of toxigenic Clostridioides difficile strains directly from stool specimens. In this multicenter evaluation, we determined the performance of the revogene C. difficile assay. The analysis was conducted on prospective stool specimens collected from six different sites in Europe. The performance of the revogene C. difficile assay was compared to the different routine diagnostic methods and, for a subset of the specimens, against toxigenic culture. In total, 2621 valid stool specimens were tested, and the revogene C. difficile assay displayed a sensitivity/specificity of 97.1% [93.3-99.0] and 98.9% [98.5-99.3] for identification of Clostridioides difficile infection. Discrepancy analysis using additional methods improved this performance to 98.8% [95.8-99.9] and 99.6% [99.2-99.8], respectively. In comparison to toxigenic culture, the revogene C. difficile assay displayed a sensitivity/specificity of 93.0% [86.1-97.1] and 99.5% [98.7-99.9], respectively. These results indicate that the revogene C. difficile assay is a robust and reliable aid in the diagnosis of Clostridioides difficile infections.

Epidemiology of Clostridioides difficile infections, France, 2010 to 2017.

BackgroundClostridioides difficile is a leading cause of healthcare-associated diarrhoea in middle and high-income countries. Up to 2018, there has been no systematic, annual surveillance for C. difficile infections (CDI) in France.AimsTo provide an updated overview of the epidemiology of CDI in France between 2010 and 2017 based on five different data sources.MethodsThis is a descriptive study of retrospective surveillance and alerts data. Incidence of CDI cases was estimated through the CDI incidence survey (2016) and data from the French National Uniform Hospital Discharge Database (PMSI; 2010-16). Testing frequency for CDI was estimated through the CDI incidence survey and point prevalence studies on healthcare-associated infections (HAI; 2012 and 2017). The national early warning response system for HAI (HAI-EWRS, 2012-17) and National Reference Laboratory data (2012-17) were used to follow the number of severe CDI cases and/or outbreaks.ResultsIn 2016, CDI incidence in acute care was 3.6 cases per 10,000 patient days (PD). There was a statistically significant increase in CDI incidence between 2010 and 2016 (+ 14% annually) and testing frequency was 47.4 per 10,000 PD. The number of CDI HAI-EWRS notifications decreased between 2015 and 2017 with only a few large outbreaks reported.ConclusionThe CDI incidence estimate increased from 2010, but remained below the European average of 7 per 10,000 PD in 2014; there were fewer severe cases or clusters reported in France. The consistency between PMSI and laboratory-based estimated CDI incidence could allow for more routine monitoring of CDI incidence.

Local outbreak of Clostridioides difficile PCR-Ribotype 018 investigated by multi locus variable number tandem repeat analysis, whole genome multi locus sequence typing and core genome single nucleotide polymorphism typing.

The prevalence of Clostridioides difficile PCR-ribotype (RT) 018 is low in Europe but variations are observed across countries. We report here the first RT 018-related outbreak in France that took place in 4 geriatric units (GU) in Strasbourg, France. From January to December 2017, 38 patients were diagnosed with C. difficile infection (CDI). Strains were first characterized by PCR ribotyping: 19 out of 38 (50%) strains belonged to RT 018. These strains as well as 12 RT 018 isolated in other French healthcare facilities and 2 strains of RT 018 isolated in the GU in 2015 were characterized by multi locus variable-number tandem repeat (VNTR) analysis (MLVA), whole genome multi locus sequence typing (wgMLST) and core genome single nucleotide polymorphism typing (cgSNP). The MLVA indicated that 15 out of 19 epidemic strains of RT 018 were included in 2 Clonal Complexes (CC). Four RT 018 strains from the outbreak did not belong to the CC. The wgMLST and cgSNP typing analysis revealed a single CC that included 19 strains from the geriatric unit (17 from GU in 2017 and 2 from GU in 2015) and 4 strains (33%) from other healthcare facilities (HCF). Our results suggest that a specific RT 018 clone has spread in the geriatric unit and has evolved slowly over time. MLVA, wgMLST and cgSNP typing results provided fairly consistent information but wgMLST and cgSNP typing better separated epidemic strains from non-epidemic strains. Compared to wgMLST, the cgSNP typing did not provide additional information.

Carriage and colonization of C. difficile in preterm neonates: A longitudinal prospective study.

BACKGROUND: Premature neonates (PN) present multiple risk factors for high frequencies and high levels of colonization by C. difficile, yet data is missing about this specific pediatric population. Here, we investigated PN C. difficile carriage and colonization dynamics, analyzed the impact of perinatal determinants on colonization, and characterized the isolates. METHODS: A one year longitudinal monocentric prospective cohort study was performed on 121 PN. C. difficile strains isolated from fecal samples on selective medium were identified and characterized by PCR (tpi housekeeping gene; tcdA and tcdB, and binary toxin genes), capillary gel-based electrophoresis PCR-ribotyping, and Multi-Locus Variable-number tandem-repeat Analysis (MLVA). RESULTS: Of the 379 samples analyzed, 199 (52%) were C. difficile culture positive with the mean levels of C. difficile colonization decreasing significantly (P = .027) over time. During hospitalization, C. difficile colonization frequency increased up to 61% with 95% of the strains belonging to both non-toxigenic PCR-ribotypes (RTs) FR082 (35%) and 032 (60%). After hospital discharge, if a higher diversity in RTs was observed, RTs FR082 and 032 remained predominant (respectively 40% and 28%). MLVA showed clonal relationship within each FR082 and 032 RTs. Ten toxigenic strains (5%) were isolated, all tcdA+/tcdB+ except for one tcdA-/tcdB+, and all being acquired after hospitalization. At 1 week, the only factors found to be linked with a higher frequency of C. difficile colonization were a higher gestational age (P = 0.006) and a higher birth weight (P = 0.016). CONCLUSION: The dynamics of C. difficile colonization in PN followed a specific pattern. C. difficile colonization rapidly occurred after birth with a low diversity of non-toxigenic RTs. After hospitalization, non-toxigenic RTs diversity increased. Sporadic carriage of toxigenic strains was observed after hospitalization.

[Interactions between intestinal microbiota and Clostridioides difficile]. / Microbiote intestinal : le modèle de l'infection à Clostridioides difficile.

Interactions between intestinal microbiota and clostridioides difficile. Clostridioides difficile is a spore-forming anaerobic Gram-positive bacillus that is responsible for diarrhea and post-antibiotic colitis. Approximately 20,000 inpatients are infected by C. difficile in France per year. This bacterium is recognized as an emerging pathogen responsible for community-acquired diarrhea. Antibiotic therapy is the main risk factor for C. difficile infection (CDI) because it leads to intestinal dysbiosis and loss of "colonization resistance". C. difficile from endogenous or exogenous origin can then establish, multiply and produce its two toxins causing enterocyte lesions and a significant inflammatory reaction. The loss of colonization resistance has been associated with the loss of microbial diversity, particularly of some taxa that play a protective role. These variations of bacterial communities lead to changes in functions that can be explored by metabolomic or metagenomic approaches. Data from these experiments led to mechanistic assumptions about resistance or susceptibility to CDI. Microbiota studies have also pushed physicians to develop therapeutic approaches based on biotherapies. These therapies aim at repopulating the colon by a healthy microbiota either by fecal microbiota transplantation or by the administration of strains and cocktails of strains to restore the colonization resistance effect.

Microbiote intestinal : le modèle de l'infection à clostridioides difficile. Clostridioides difficile est un bacille à Gram positif anaérobie, sporulé, qui est responsable de diarrhées et de colites post-antibiotiques. Environ 20 000 patients hospitalisés sont infectés chaque année en France. C. difficile est reconnu comme un pathogène émergent responsable de diarrhée communautaire. Le principal facteur de risque est l'antibiothérapie qui entraîne une dysbiose intestinale et une perte de la résistance à la colonisation. C. difficile d'origine endogène ou exogène peut alors s'implanter, se multiplier et produire ses deux toxines à l'origine de lésions entérocytaires et d'une réaction inflammatoire importante. La perte de la résistance à la colonisation a été associée à la perte de la diversité microbienne, en particulier de certains taxons jouant un rôle protecteur. Ces variations de communautés bactériennes entraînent des changements de fonctions explorées par des approches métabolomiquesou métagénomiques. Celles-ci ont permis d'émettre des hypothèses mécanistiques concernant la résistance ou la sensibilité à l'infection par C. difficile. Les études sur le microbiote ont également poussé les cliniciens à développer des approches thérapeutiques fondées sur des biothérapies visant à reconstituer un microbiote sain soit par transplantation de microbiote fécal, soit par l'administration de souches et de cocktails de souches restaurant l'effet de barrière.

Ribotypes and New Virulent Strains Across Europe.

Clostridium difficile is a major bacterial cause of post-antibiotic diarrhoea. The epidemiology of C. difficile infections (CDI) has dramatically changed since the early 2000s, with an increasing incidence and severity across Europe. This trend is partly due to the emergence and rapid worldwide spread of the hypervirulent and epidemic PCR ribotype 027. Profiles of patients with CDI have also evolved, with description of community-acquired (CA) infections in patients with no traditional risk factors for CDI. However, recent epidemiological studies indicated that some European countries have successfully controlled the dissemination of the 027 clone whereas other countries recently reported the emergence of other virulent or unusual strains. The aims of this review are to summarize the current European CDI epidemiology and to describe the new virulent C. difficile strains circulating in Europe, as well as other potential emerging strains described elsewhere. Standardized typing methods and surveillance programmes are mandatory for a better understanding and monitoring of CDI in Europe.

Spatio-temporal variability of the epidemic 027 Clostridium difficile strains in France based on MLVA typing.

MLVA analysis of 103 PCR ribotype 027 strains showed a regional specificity and the persistence of the same clone within a hospital several years apart. Capillary electrophoresis PCR ribotyping led to the identification of seven 027 variant strains and five 176 strains, four of them being implicated in an outbreak.