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1.
Eur J Clin Microbiol Infect Dis ; 42(5): 607-619, 2023 May.
Article in English | MEDLINE | ID: mdl-36940050

ABSTRACT

Recurrent cases of Clostridioides difficile infection (rCDI) remain one of the most common and serious challenges faced in the management of CDI. The accurate distinction between a relapse (caused by infection with the same strain) and reinfection (caused by a new strain) has implications for infection control and prevention, and patient therapy. Here, we used whole-genome sequencing to investigate the epidemiology of 94 C. difficile isolates from 38 patients with rCDI in Western Australia. The C. difficile strain population comprised 13 sequence types (STs) led by ST2 (PCR ribotype (RT) 014, 36.2%), ST8 (RT002, 19.1%) and ST34 (RT056, 11.7%). Among 38 patients, core genome SNP (cgSNP) typing found 27 strains (71%) from initial and recurring cases differed by ≤ 2 cgSNPs, suggesting a likely relapse of infection with the initial strain, while eight strains differed by ≥ 3 cgSNPs, suggesting reinfection. Almost half of patients with CDI relapse confirmed by WGS suffered episodes that occurred outside the widely used 8-week cut-off for defining rCDI. Several putative strain transmission events between epidemiologically unrelated patients were identified. Isolates of STs 2 and 34 from rCDI cases and environmental sources shared a recent evolutionary history, suggesting a possible common community reservoir. For some rCDI episodes caused by STs 2 and 231, within-host strain diversity was observed, characterised by loss/gain of moxifloxacin resistance. Genomics improves discrimination of relapse from reinfection and identifies putative strain transmission events among patients with rCDI. Current definitions of relapse and reinfection based on the timing of recurrence need to be reconsidered.


Subject(s)
Clostridioides difficile , Clostridium Infections , Humans , Anti-Bacterial Agents/pharmacology , Anti-Bacterial Agents/therapeutic use , Western Australia/epidemiology , Reinfection , Clostridioides difficile/genetics , Recurrence , Clostridium Infections/drug therapy , Clostridium Infections/epidemiology , Clostridium Infections/microbiology , Genomics
2.
Environ Microbiol ; 24(3): 1221-1230, 2022 03.
Article in English | MEDLINE | ID: mdl-34693624

ABSTRACT

Clostridium difficile isolates from the environment are closely related to those from humans, indicating a possible environmental transmission route for C. difficile infection (CDI). In this study, C. difficile was isolated from 47.3% (53/112) of lake/pond, 23.0% (14/61) of river, 20.0% (3/15) of estuary and 0.0% (0/89) of seawater samples. The most common toxigenic strain isolated was C. difficile PCR ribotype (RT) 014/020 (10.5%, 8/76). All water isolates were susceptible to fidaxomicin, metronidazole, rifaximin, amoxicillin/clavulanic acid, moxifloxacin and tetracycline. Resistance to vancomycin, clindamycin, erythromycin and meropenem was detected in 5.3% (4/76), 26.3% (20/76), 1.3% (1/76) and 6.6% (5/76) of isolates, respectively. High-resolution core-genome analysis was performed on RT 014/020 isolates of water origin and 26 clinical RT 014/020 isolates from the same year and geographical location. Notably, both human and water strains were intermixed across three sequence types (STs), 2, 13 and 49. Six closely related groups with ≤10 core-genome single nucleotide polymorphisms were identified, five of which comprised human and water strains. Overall, 19.2% (5/26) of human strains shared a recent genomic relationship with one or more water strains. This study supports the growing hypothesis that environmental contamination by C. difficile plays a role in CDI transmission.


Subject(s)
Clostridioides difficile , Clostridium Infections , Anti-Bacterial Agents/pharmacology , Clostridioides difficile/genetics , Humans , Microbial Sensitivity Tests , Ribotyping , Water , Whole Genome Sequencing
3.
J Appl Microbiol ; 133(3): 1183-1196, 2022 Sep.
Article in English | MEDLINE | ID: mdl-35184359

ABSTRACT

BACKGROUND AND AIMS: Clostridium (Clostridiodes) difficile clade 3 ribotype (RT) 023 strains that fail to produce black colonies on bioMérieux ChromID agar have been reported, as well as variant strains of C. difficile that produce only toxin A. We have recently isolated strains of C. difficile from the environment in Western Australia (WA) with similar characteristics. The objective of this study was to characterize these strains. It was hypothesized that a putative ß-glucosidase gene was lacking in these strains of C. difficile, including RT 023, leading to white colonies. METHODS AND RESULTS: A total of 17 environmental isolates of C. difficile from garden soil and compost, and gardening shoe soles in Perth, WA, failed to produce black colonies on ChromID agar. MALDI-TOF MS analysis confirmed these strains as C. difficile. Four strains contained only a tcdA gene (A+ B- CDT- ) by PCR and were a novel RT (QX 597). All isolates were susceptible to all antimicrobials tested except one with low-level resistance to clindamycin (MIC = 8 mg/L). The four tcdA-positive strains were motile. All isolates contained neither bgl locus but only bgl K or a putative ß-glucosidase gene by PCR. Whole-genome sequencing showed the 17 strains belonged to novel multi-locus sequence types 632, 848, 849, 850, 851, 852 and 853, part of the evolutionarily divergent clade C-III. Four isolates carried a full-length tcdA but not tcdB nor binary toxin genes. CONCLUSIONS: ChromID C. difficile agar is used for the specific detection of C. difficile in the samples. To date, all strains except RT 023 strains from clinical samples hydrolyse esculin. This is the first report to provide insights into the identification of esculin hydrolysis negative and TcdA-only producing (A+ B- CDT- ) strains of C. difficile from environmental samples. SIGNIFICANCE AND IMPACT OF THE STUDY: White colonies of C. difficile from environmental samples could be overlooked when using ChromID C. difficile agar, leading to false-negative results, however, whether these strains are truly pathogenic remains to be proven.


Subject(s)
Bacterial Toxins , Cellulases , Clostridioides difficile , Agar , Bacterial Toxins/genetics , Clostridioides , Clostridioides difficile/genetics , Clostridium , Esculin , Hydrolysis , Western Australia
4.
J Appl Microbiol ; 133(3): 1156-1168, 2022 Sep.
Article in English | MEDLINE | ID: mdl-34894035

ABSTRACT

AIMS: To investigate if Clostridium (Clostridioides) difficile infection (CDI), traditionally thought of as hospital-acquired, can be genomically linked to hospital or community environmental sources, and to define possible importation routes from the community to the hospital. METHODS AND RESULTS: In 2019, C. difficile was isolated from 89/300 (29.7%) floor and 96/300 (32.0%) shoe sole samples at a tertiary hospital in Western Australia. Non-toxigenic C. difficile ribotype (RT) 010 predominated among floor (96.6%) and shoe sole (73.2%) isolates, while toxigenic RT 014/020 was most prevalent among contemporaneous clinical cases (33.0%) at the hospital. Whole-genome sequencing and high-resolution core genome single nucleotide polymorphism (cgSNP) analysis on C. difficile strains from hospital and community sources showed no clinical C. difficile RT 014/020 strains were genetically related, and evidence of frequent long-distance, multi-directional spread between humans, animals and the environment. In addition, cgSNP analysis of environmental RT 010 strains suggested transportation of C. difficile via shoe soles. CONCLUSIONS: While C. difficile RT 014/020 appears to spread via routes outside the healthcare system, RT 010 displayed a pattern of possible importation from the community into the hospital. SIGNIFICANCE AND IMPACT OF STUDY: These findings suggest developing community-based infection prevention and control strategies could significantly lower rates of CDI in the hospital setting.


Subject(s)
Clostridioides difficile , Clostridium Infections , Animals , Clostridioides , Clostridioides difficile/genetics , Clostridium , Clostridium Infections/drug therapy , Clostridium Infections/epidemiology , Hospitals , Humans , Ribotyping
5.
Anaerobe ; 73: 102505, 2022 Feb.
Article in English | MEDLINE | ID: mdl-34973432

ABSTRACT

OBJECTIVES: The aim of this study was to investigate antimicrobial-resistant Bacteroides fragilis in Thailand and possible effects of such strains on human health and disease. METHODS: Phenotypic antimicrobial susceptibility testing was performed on 17 clinical B. fragilis isolates. The genome of one isolate was sequenced and analysed to explore its resistance genotype. An in vitro growth assay was conducted to evaluate the inhibitory effect of B. fragilis on Clostridioides difficile. RESULTS: There was a high prevalence of clindamycin (71%), meropenem (47%) and moxifloxacin (29%) resistance. Most strains remained susceptible to metronidazole, but one had high-level metronidazole resistance conferred by a nimD-containing plasmid. B. fragilis displayed an in vitro inhibitory effect on the growth of C. difficile and a drug-resistant strain retained this inhibition in the presence of clindamycin. CONCLUSIONS: Antimicrobial resistance was seen in Thai B. fragils isolates, which may help protect the host against C. difficile infection.


Subject(s)
Anti-Infective Agents , Clostridioides difficile , Anti-Bacterial Agents/pharmacology , Anti-Bacterial Agents/therapeutic use , Anti-Infective Agents/pharmacology , Bacteroides fragilis , Clostridioides , Clostridioides difficile/genetics , Humans , Microbial Sensitivity Tests , Thailand/epidemiology
6.
J Clin Microbiol ; 58(9)2020 08 24.
Article in English | MEDLINE | ID: mdl-32580954

ABSTRACT

Little is known about the clinical characteristics of Clostridium difficile infection (CDI) in Asia in general, and Thailand specifically, with a few studies suggesting that the disease may be milder than elsewhere. This study aimed to describe CDI in Thailand, evaluate treatment options and their outcomes, and explore possible protective factors responsible for any unique disease characteristics. From 2015 to 2018, 469 patients were included in the study. All patients had their stools tested for the tcdB gene by direct PCR and detection of toxigenic C. difficile by culture. C. difficile isolates were subjected to toxin gene profiling and ribotyping, and patient medical records were reviewed retrospectively. There were 248 and 221 patients included in CDI and control groups, respectively. The CDI group had a higher overall 30-day mortality rate than the control group (21% versus 14%, P = 0.046), but only 2 deaths (1%) were directly attributable to CDI. Metronidazole treatment was not inferior to vancomycin in this population, and vancomycin was associated with a higher 30-day mortality rate (P = 0.047). The prevalence of severe CDI and disease outcomes were not different between patients infected with A-B+ C. difficile and A+B+ C. difficile strains or between patients with and without colonization by nontoxigenic C. difficile Besides C. difficile-specific tests, neither a single laboratory result nor a combination of results was predictive of CDI. In conclusion, CDI in Thailand was relatively mild, and metronidazole remained an effective treatment option for these mild infections.


Subject(s)
Bacterial Toxins , Clostridioides difficile , Clostridium Infections , Anti-Bacterial Agents/therapeutic use , Bacterial Toxins/genetics , Clostridioides difficile/genetics , Clostridium Infections/diagnosis , Clostridium Infections/drug therapy , Clostridium Infections/epidemiology , Humans , Retrospective Studies , Ribotyping , Thailand
7.
Anaerobe ; 66: 102290, 2020 Dec.
Article in English | MEDLINE | ID: mdl-33137436

ABSTRACT

Despite being incapable of causing Clostridium difficile infection, non-toxigenic C. difficile (NTCD) may still be relevant. This study explored the role of NTCD as a reservoir of accessory antimicrobial resistance (AMR) genes in NTCD from Southeast Asia. This region has high rates of antimicrobial use, a high prevalence of NTCD and phenotypic AMR in such strains. More than half of the 28 NTCD strains investigated had at least one accessory AMR gene on mobile genetic elements (MGEs) which were similar to the elements found in other bacteria, including Erysipelothrix rhusiopathiae and Streptococcus suis, both of which are found in the pig gut. Thus, C. difficile may facilitate the movement of AMR genes between different hosts within a wide range of pathogenic bacteria. C. difficile ß-lactamases were not located on MGEs and were unlikely to be transferred. Concordance between the MLSB resistance genotype and phenotype was low, suggesting multiple resistance mechanisms, many of which remain unknown. On the contrary, there was a high concordance between resistance genotype and phenotype for both fluoroquinolones and rifaximin. From an epidemiological perspective, NTCD populations in Southeast Asia comprised members of evolutionary clades 1 and 4, which are thought to have originated from Europe and Asia, respectively. This population structure reflects the close relationship between the people of the two regions.


Subject(s)
Anti-Bacterial Agents/pharmacology , Clostridioides difficile/drug effects , Clostridioides difficile/genetics , Drug Resistance, Multiple, Bacterial/genetics , Animals , Asia, Southeastern/epidemiology , Clostridium Infections/microbiology , Genetic Association Studies , Genome, Bacterial , Genotype , Humans , Interspersed Repetitive Sequences , Swine , beta-Lactamases/genetics
8.
Anaerobe ; 57: 4-10, 2019 Jun.
Article in English | MEDLINE | ID: mdl-30862468

ABSTRACT

Studies on the prevalence and diversity of Clostridium difficile in Thailand have been limited to those derived from a few tertiary hospitals in Central Thailand. In this study, 145 C. difficile isolates collected in 13 provinces in Thailand during 2006-2018 were characterized by ribotyping and detection of toxin genes. Minimum inhibitory concentrations of eight antimicrobial agents were determined also for all 100 C. difficile strains collected from 2006 until 2015. Of the 145 strains of C. difficile, 71 (49%) were non-toxigenic, 46 (32%) were toxin A-negative, toxin B-positive (A-B+) and 28 (19%) were A+B+. No binary toxin-positive strain was found. The most common ribotype (RT) was RT 017 (A-B+CDT-, 19%, 28/145). Besides RT 017, 20 novel non-toxigenic and A-B+ ribotyping profiles, which may be related to RT 017 by the similarity of ribotyping profile, were identified. All C. difficile strains remained susceptible to metronidazole and vancomycin, however, a slight increase in MIC for metronidazole was seen in both toxigenic and non-toxigenic strains (overall MIC50/90 0.25/0.25 mg/L during 2006-2010 compared to overall MIC50/90 1.0/2.0 mg/L during 2011-2015). There was a high rate of fluoroquinolone resistance among RT 017 strains (77%), but there was little resistance among non-toxigenic strains. These results suggest that RT 017 is endemic in Thailand, and that the misuse of fluoroquinolones may lead to outbreaks of RT 017 infection in this country. Further studies on non-toxigenic C. difficile are needed to understand whether they have a role in the pathogenesis of C. difficile infection in Asia.


Subject(s)
Bacterial Proteins/genetics , Bacterial Toxins/genetics , Clostridioides difficile/genetics , Clostridium Infections/microbiology , Enterotoxins/genetics , Genetic Variation , Anti-Bacterial Agents/pharmacology , Clostridioides difficile/classification , Clostridioides difficile/isolation & purification , Clostridium Infections/epidemiology , Genotype , Humans , Microbial Sensitivity Tests , Prevalence , Ribotyping , Thailand/epidemiology
10.
Front Microbiol ; 15: 1416665, 2024.
Article in English | MEDLINE | ID: mdl-38966395

ABSTRACT

Clostridioides difficile is an emerging pathogen of One Health significance. Its highly variable genome contains mobile genetic elements (MGEs) such as transposons and prophages that influence its biology. Systematic deletion of each genetic element is required to determine their precise role in C. difficile biology and contribution to the wider mobilome. Here, Tn5397 (21 kb) and ϕ027 (56 kb) were deleted from C. difficile 630 and R20291, respectively, using allele replacement facilitated by CRISPR-Cas9. The 630 Tn5397 deletant transferred PaLoc at the same frequency (1 × 10-7) as 630 harboring Tn5397, indicating that Tn5397 alone did not mediate conjugative transfer of PaLoc. The R20291 ϕ027 deletant was sensitive to ϕ027 infection, and contained two unexpected features, a 2.7 kb remnant of the mutagenesis plasmid, and a putative catalase gene adjacent to the deleted prophage was also deleted. Growth kinetics of R20291 ϕ027 deletant was similar to wild type (WT) in rich medium but marginally reduced compared with WT in minimal medium. This work indicates the commonly used pMTL8000 plasmid series works well for CRISPR-Cas9-mediated gene deletion, resulting in the largest deleted locus (56.8 kb) described in C. difficile. Removal of MGEs was achieved by targeting conjugative/integrative regions to promote excision and permanent loss. The deletants created will be useful strains for investigating Tn5397 or ϕ027 prophage contribution to host virulence, fitness, and physiology, and a platform for other mutagenesis studies aimed at functional gene analysis without native transposon or phage interference in C. difficile 630 and R20291.

11.
Access Microbiol ; 5(6)2023.
Article in English | MEDLINE | ID: mdl-37424568

ABSTRACT

A card game called BactoBattle has been developed to help medical students who have just started learning medical bacteriology to improve their learning efficacy and satisfaction, especially on the topic of antimicrobial resistance. Copies of the game were placed in the students' study room (approximately 1 set per 12 students) and made available to the students throughout the study period so that they could choose to play the game during their free time if desired. After the study period had ended, the students were asked to complete a questionnaire and a post-test. In total, 33 students completed the questionnaire, and were split into 2 groups: the player group, comprising 12 (36.4 %) students who had played the game, and the non-player group. The player group perceived that they could memorize more knowledge compared to the non-player group and indeed recorded higher post-test scores than the non-player group (10.4 vs 8.3 out of 15 points, P=0.031). However, there was no difference in learning motivation (P=0.441) or enjoyment (P=0.562) between the two groups. A majority of the players said they would continue playing the game after the study period and would recommend the game to other students. In short, the BactoBattle game can be a useful tool to improve the learning efficacy of students, but its effect on learning satisfaction remains unclear.

12.
Microb Drug Resist ; 27(11): 1505-1512, 2021 Nov.
Article in English | MEDLINE | ID: mdl-33956520

ABSTRACT

Antimicrobial resistance (AMR) plays an important role in the pathogenesis and spread of Clostridioides difficile infection (CDI). Many antimicrobials, such as fluoroquinolones, have been associated with outbreaks of CDI globally. This study characterized AMR among clinical C. difficile strains in Thailand, where antimicrobial use remains inadequately regulated. Stool samples were screened for tcdB and positives were cultured. C. difficile isolates were characterized by toxin profiling and PCR ribotyping. Antimicrobial susceptibility testing was performed by agar incorporation, and whole-genome sequencing and AMR genotyping were performed on a subset of strains. There were 321 C. difficile strains isolated from 326 stool samples. The most common toxigenic ribotype (RT) was RT 017 (18%), followed by RTs 014 (12%) and 020 (7%). Resistance to clindamycin, erythromycin, moxifloxacin, and rifaximin was common, especially among RT 017 strains. AMR genotyping revealed a strong correlation between resistance genotype and phenotype for moxifloxacin and rifaximin. The presence of erm-class genes was associated with high-level clindamycin and erythromycin resistance. Point substitutions in the penicillin-binding proteins were not sufficient to confer meropenem resistance, but a Y721S substitution in PBP3 was associated with a 4.37-fold increase in meropenem minimal inhibitory concentration. No resistance to metronidazole, vancomycin, or fidaxomicin was observed.


Subject(s)
Anti-Bacterial Agents/pharmacology , Clostridioides difficile/drug effects , Clostridioides difficile/genetics , Drug Resistance, Multiple, Bacterial/genetics , Bacterial Toxins/genetics , Genes, Bacterial , Humans , Microbial Sensitivity Tests , Thailand
13.
Elife ; 102021 06 11.
Article in English | MEDLINE | ID: mdl-34114561

ABSTRACT

Clostridioides difficile infection (CDI) remains an urgent global One Health threat. The genetic heterogeneity seen across C. difficile underscores its wide ecological versatility and has driven the significant changes in CDI epidemiology seen in the last 20 years. We analysed an international collection of over 12,000 C. difficile genomes spanning the eight currently defined phylogenetic clades. Through whole-genome average nucleotide identity, and pangenomic and Bayesian analyses, we identified major taxonomic incoherence with clear species boundaries for each of the recently described cryptic clades CI-III. The emergence of these three novel genomospecies predates clades C1-5 by millions of years, rewriting the global population structure of C. difficile specifically and taxonomy of the Peptostreptococcaceae in general. These genomospecies all show unique and highly divergent toxin gene architecture, advancing our understanding of the evolution of C. difficile and close relatives. Beyond the taxonomic ramifications, this work may impact the diagnosis of CDI.


Subject(s)
Bacterial Toxins/genetics , Clostridioides difficile/classification , Clostridioides difficile/genetics , Clostridium Infections/genetics , Bayes Theorem , Clostridioides/genetics , Clostridium Infections/epidemiology , Genome, Bacterial , Humans , Phylogeny
14.
Expert Rev Anti Infect Ther ; 18(1): 17-25, 2020 01.
Article in English | MEDLINE | ID: mdl-31800331

ABSTRACT

Introduction: Antimicrobial resistance (AMR) played an important role in the initial outbreaks of Clostridium difficile infection (CDI) in the 1970s. C. difficile ribotype (RT) 017 has emerged as the major strain of C. difficile in Asia, where antimicrobial use is poorly regulated. This strain has also caused CDI outbreaks around the world for almost 30 years. Many of these outbreaks were associated with clindamycin and fluoroquinolone resistance. AMR and selective pressure is likely to be responsible for the success of this RT and may drive future outbreaks.Areas covered: This narrative review summarizes the prevalence and mechanisms of AMR in C. difficile RT 017 and transmission of these AMR mechanisms. To address these topics, reports of outbreaks due to C. difficile RT 017, epidemiologic studies with antimicrobial susceptibility results, studies on resistance mechanisms found in C. difficile and related publications available through Pubmed until September 2019 were collated and the findings discussed.Expert opinion: Primary prevention is the key to control CDI. This should be achieved by developing antimicrobial stewardship in medical, veterinary and agricultural practices. AMR is the key factor that drives CDI outbreaks, and methods for the early detection of AMR can facilitate the control of outbreaks.


Subject(s)
Anti-Bacterial Agents/pharmacology , Clostridioides difficile/drug effects , Clostridium Infections/drug therapy , Animals , Antimicrobial Stewardship , Clostridioides difficile/genetics , Clostridioides difficile/isolation & purification , Clostridium Infections/epidemiology , Clostridium Infections/microbiology , Disease Outbreaks , Drug Resistance, Bacterial , Humans , Microbial Sensitivity Tests , Ribotyping
15.
Emerg Microbes Infect ; 8(1): 796-807, 2019.
Article in English | MEDLINE | ID: mdl-31138041

ABSTRACT

Clostridium difficile ribotype (RT) 017 is an important toxigenic C. difficile RT which, due to a deletion in the repetitive region of the tcdA gene, only produces functional toxin B. Strains belonging to this RT were initially dismissed as nonpathogenic and circulated largely undetected for almost two decades until they rose to prominence following a series of outbreaks in the early 2000s. Despite lacking a functional toxin A, C. difficile RT 017 strains have been shown subsequently to be capable of causing disease as severe as that caused by strains producing both toxins A and B. While C. difficile RT 017 strains can be found in almost every continent today, epidemiological studies suggest that the RT is endemic in Asia and that the global spread of this MLST clade 4 lineage member is a relatively recent event. C. difficile RT 017 transmission appears to be mostly from human to human with only a handful of reports of isolations from animals. An important feature of C. difficile RT 017 strains is their resistance to several antimicrobials and this has been documented as a possible factor driving multiple outbreaks in different parts of the world. This review summarizes what is currently known regarding the emergence and evolution of strains belonging to C. difficile RT 017 as well as features that have allowed it to become an RT of global importance.


Subject(s)
Clostridioides difficile/genetics , Clostridium Infections/microbiology , Evolution, Molecular , Animals , Asia/epidemiology , Clostridioides difficile/classification , Clostridioides difficile/isolation & purification , Clostridioides difficile/physiology , Clostridium Infections/epidemiology , Humans , Phylogeny , Ribotyping
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