Last data update: Oct 07, 2024. (Total: 47845 publications since 2009)
Records 1-22 (of 22 Records) |
Query Trace: Gargis AS[original query] |
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Carbapenem-resistant and extended-spectrum β-Lactamase-producing enterobacterales in children, United States, 2016-2020
Grome HN , Grass JE , Duffy N , Bulens SN , Ansari U , Campbell D , Lutgring JD , Gargis AS , Masters T , Kent AG , McKay SL , Smith G , Wilson LE , Vaeth E , Evenson B , Dumyati G , Tsay R , Phipps E , Flores K , Wilson CD , Czaja CA , Johnston H , Janelle SJ , Lynfield R , O'Malley S , Vagnone PS , Maloney M , Nadle J , Guh AY . Emerg Infect Dis 2024 30 (6) 1104-1114 |
Complete genome sequences of Clostridioides difficile surveillance isolates representing the top 10 ribotypes from the Emerging Infections Program, United States, 2016
Adamczyk M , Vlachos N , Breaker E , Orazi G , Paulick AL , Rowe LA , McAllister G , Machado MJ , Korhonen L , Guh AY , Rasheed JK , Karlsson M , McKay SL , Lutgring JD , Gargis AS . Microbiol Resour Announc 2024 e0112823 Ten Clostridioides difficile isolates representing the top 10 ribotypes collected in 2016 through the Emerging Infections Program underwent long-read sequencing to obtain high-quality reference genome assemblies. These isolates are publicly available through the CDC & FDA Antibiotic Resistance Isolate Bank. |
Reply to Gonzales-Luna et al
Gargis AS , Karlsson M , Kamile Rasheed J , Kent AG , McKay SL , Paulick AL , Anderson KF , Adamczyk M , Campbell D , Korhonen LC , McAllister G , Vlachos N , Halpin AL , Lutgring JD , Guh AY , Clifford McDonald L , Elkins CA . Clin Infect Dis 2023 76 (11) 2039-2041 We thank Gonzales-Luna and colleagues [1] for their comments. We agree that laboratories must have access to accurate and standardized methods for antimicrobial susceptibility testing (AST) results to be clinically meaningful. The reference method for performing Clostridioides difficile AST is agar dilution according to Clinical and Laboratory Standards Institute (CLSI) guidelines [2]. The CLSI method for performing AST for anaerobic bacteria recommends that 5 μg/mL of hemin be incorporated into agar dilution plates and that the hemin stock solution should be protected from light and stored at 4°C–8°C for no longer than 1 month [2]. The susceptibility testing done by Gargis et al [3] was performed according to these guidelines, and the hemin stock solution was protected from light. | | Nevertheless, we read with interest the research in recent years [4–6] related to heme-dependent metronidazole resistance, including the reported association between isolates characterized as heme dependent and metronidazole resistant and the presence of a T to G mutation (PnimBG) in the −10 promoter region of the nitroimidazole reductase gene, nimB [5]. While Olaitan et al [5] found that not all heme-dependent metronidazole-resistant isolates contained the PnimBG mutation, Olaitan et al [5] indicate that most do; therefore, the presence of PnimBG may be predictive of resistance. We determined that the nimB mutation was present in 20% of our study isolates (116 of 593), of which 99% (115 of 116) belonged to RT027 (Table 1). The remaining isolate was RT014, the only RT014 isolate containing the PnimBG mutation among the 65 evaluated. |
Comparison of carbapenem-susceptible and carbapenem-resistant Enterobacterales at nine sites in the USA, 2013-2016: a resource for antimicrobial resistance investigators
Lutgring JD , Kent AG , Bowers JR , Jasso-Selles DE , Albrecht V , Stevens VA , Pfeiffer A , Barnes R , Engelthaler DM , Johnson JK , Gargis AS , Rasheed JK , Limbago BM , Elkins CA , Karlsson M , Halpin AL . Microb Genom 2023 9 (11) Carbapenem-resistant Enterobacterales (CRE) are an urgent public health threat. Genomic sequencing is an important tool for investigating CRE. Through the Division of Healthcare Quality Promotion Sentinel Surveillance system, we collected CRE and carbapenem-susceptible Enterobacterales (CSE) from nine clinical laboratories in the USA from 2013 to 2016 and analysed both phenotypic and genomic sequencing data for 680 isolates. We describe the molecular epidemiology and antimicrobial susceptibility testing (AST) data of this collection of isolates. We also performed a phenotype-genotype correlation for the carbapenems and evaluated the presence of virulence genes in Klebsiella pneumoniae complex isolates. These AST and genomic sequencing data can be used to compare and contrast CRE and CSE at these sites and serve as a resource for the antimicrobial resistance research community. |
Rapid Detection of Genetic Engineering, Structural Variation, and Antimicrobial Resistance Markers in Bacterial Biothreat Pathogens by Nanopore Sequencing (preprint)
Gargis AS , Cherney B , Conley AB , McLaughlin HP , Sue D . bioRxiv 2019 730093 Widespread release of Bacillus anthracis (anthrax) or Yersinia pestis (plague) would prompt a public health emergency. During an exposure event, high-quality whole genome sequencing (WGS) can identify genetic engineering, including the introduction of antimicrobial resistance (AMR) genes. Here, we developed rapid WGS laboratory and bioinformatics workflows using a long-read nanopore sequencer (MinION) for Y. pestis (6.5h) and B. anthracis (8.5h) and sequenced strains with different AMR profiles. Both salt-precipitation and silica-membrane extracted DNA were suitable for MinION WGS using both rapid and field library preparation methods. In replicate experiments, nanopore quality metrics were defined for genome assembly and mutation analysis. AMR markers were correctly detected and >99% coverage of chromosomes and plasmids was achieved using 100,000 raw sequencing reads. While chromosomes and large and small plasmids were accurately assembled, including novel multimeric forms of the Y. pestis virulence plasmid, pPCP1, MinION reads were error-prone, particularly in homopolymer regions. MinION sequencing holds promise as a practical, front-line strategy for on-site pathogen characterization to speed the public health response during a biothreat emergency. |
Reference Susceptibility Testing and Genomic Surveillance of Clostridioides difficile, United States, 2012-17.
Gargis AS , Karlsson M , Paulick AL , Anderson KF , Adamczyk M , Vlachos N , Kent AG , McAllister GA , McKay SL , Halpin AL , Albrecht V , Campbell D , Korhonen L , Elkins CA , Rasheed JK , Guh AY , McDonald LC , Lutgring JD . Clin Infect Dis 2022 76 (5) 890-896 BACKGROUND: Antimicrobial susceptibility testing (AST) is not routinely performed for Clostridioides difficile and data evaluating minimum inhibitory concentrations (MICs) are limited. We performed AST and whole genome sequencing (WGS) for 593 C. difficile isolates collected between 2012-2017 through the Centers for Disease Control and Prevention's Emerging Infections Program. METHODS: MICs to six antimicrobial agents (ceftriaxone, clindamycin, meropenem, metronidazole, moxifloxacin, and vancomycin) were determined using the reference agar dilution method according to Clinical and Laboratory Standards Institute guidelines. WGS was performed on all isolates to detect the presence of genes or mutations previously associated with resistance. RESULTS: Among all isolates, 98.5% displayed a vancomycin MIC ≤ 2 μg/mL and 97.3% displayed a metronidazole MIC ≤ 2 μg/mL. Ribotype 027 (RT027) isolates displayed higher vancomycin MICs (MIC50: 2 μg/mL; MIC90: 2 μg/mL) than non-RT027 isolates (MIC50: 0.5 μg/mL; MIC90: 1 μg/mL) (P < 0.01). No vanA/B genes were detected. RT027 isolates also showed higher MICs to clindamycin and moxifloxacin and were more likely to harbor associated resistance genes or mutations. CONCLUSIONS: Elevated MICs to antibiotics used for treatment of C. difficile infection were rare and there was no increase in MICs over time. The lack of vanA/B genes or mutations consistently associated with elevated vancomycin MICs suggests there are multifactorial mechanisms of resistance. Ongoing surveillance of C. difficile using reference AST and WGS to monitor MIC trends and the presence of antibiotic resistance mechanisms is essential. |
Are vancomycin non-susceptible clostridioides difficile strains emerging
Lutgring JD , McKay SL , Gargis AS , Halpin AL , McDonald LC . Clin Infect Dis 2022 75 (9) 1677-1678 TO THE EDITORWe read with concern the report by Darkoh and colleagues describing vancomycin resistance in Clostridioides difficile isolates recovered from patients in Houston, Texas, and Nairobi, Kenya [1]. The authors suggested that vancomycin resistance, which they found to be common, may lead to therapeutic failure for patients infected with C. difficile and that routine antimicrobial susceptibility testing (AST) should be expanded. The authors report that 26% of C. difficile toxin gene-positive patients in Houston and 67% of sequential hospitalized patients in Nairobi with acute diarrhea had growth on primary screening media containing 4g/mL vancomycin. This alarmingly high proportion of a vancomycin resistant phenotype exceeds initial treatment failure rates reported in the literature [2], calling into question the reliability of these findings. |
Risk-Factors for Exposure Associated With SARS-CoV-2 Detection After Recent Known or Potential COVID-19 Exposures Among Patients Seeking Medical Care at a Large Urban, Public Hospital in Fulton County, Georgia - A Cross-Sectional Investigation.
Smith-Jeffcoat SE , Sleweon S , Koh M , Khalil GM , Schechter MC , Rebolledo PA , Kasinathan V , Hoffman A , Rossetti R , Shragai T , O'Laughlin K , Espinosa CC , Bankamp B , Bowen MD , Paulick A , Gargis AS , Folster JM , da Silva J , Biedron C , Stewart RJ , Wang YF , Kirking HL , Tate JE . Front Public Health 2022 10 809356 We aimed to describe frequency of COVID-19 exposure risk factors among patients presenting for medical care at an urban, public hospital serving mostly uninsured/Medicare/Medicaid clients and risk factors associated with SARS-CoV-2 infection. Consenting, adult patients seeking care at a public hospital from August to November 2020 were enrolled in this cross-sectional investigation. Saliva, anterior nasal and nasopharyngeal swabs were collected and tested for SARS-CoV-2 using RT-PCR. Participant demographics, close contact, and activities ≤14 days prior to enrollment were collected through interview. Logistic regression was used to identify risk factors associated with testing positive for SARS-CoV-2. Among 1,078 participants, 51.8% were male, 57.0% were aged ≥50 years, 81.3% were non-Hispanic Black, and 7.6% had positive SARS-CoV-2 tests. Only 2.7% reported COVID-19 close contact ≤14 days before enrollment; this group had 6.79 adjusted odds of testing positive (95%CI = 2.78-16.62) than those without a reported exposure. Among participants who did not report COVID-19 close contact, working in proximity to ≥10 people (adjusted OR = 2.17; 95%CI = 1.03-4.55), choir practice (adjusted OR = 11.85; 95%CI = 1.44-97.91), traveling on a plane (adjusted OR = 5.78; 95%CI = 1.70-19.68), and not participating in an essential indoor activity (i.e., grocery shopping, public transit use, or visiting a healthcare facility; adjusted OR = 2.15; 95%CI = 1.07-4.30) were associated with increased odds of testing positive. Among this population of mostly Black, non-Hispanic participants seeking care at a public hospital, we found several activities associated with testing positive for SARS-CoV-2 infection in addition to close contact with a case. Understanding high-risk activities for SARS-CoV-2 infection among different communities is important for issuing awareness and prevention strategies. |
Specimen self-collection for SARS-CoV-2 testing: Patient performance and preferences-Atlanta, Georgia, August-October 2020.
O'Laughlin K , Espinosa CC , Smith-Jeffcoat SE , Koh M , Khalil GM , Hoffman A , Rebolledo PA , Schechter MC , Stewart RJ , da Silva J , Biedron C , Bankamp B , Folster J , Gargis AS , Bowen MD , Paulick A , Wang YF , Tate JE , Kirking HL . PLoS One 2022 17 (3) e0264085 Self-collected specimens can expand access to SARS-CoV-2 testing. At a large inner-city hospital 1,082 participants self-collected saliva and anterior nasal swab (ANS) samples before healthcare workers collected nasopharyngeal swab (NPS) samples on the same day. To characterize patient preferences for self-collection, this investigation explored ability, comfort, and ease of ANS and saliva self-collection for SARS-CoV-2 testing along with associated patient characteristics, including medical history and symptoms of COVID-19. With nearly all participants successfully submitting a specimen, favorable ratings from most participants (at least >79% in ease and comfort), and equivocal preference between saliva and ANS, self-collection is a viable SARS-CoV-2 testing option. |
Sentinel Surveillance Reveals Emerging Daptomycin-Resistant ST736 Enterococcus faecium and Multiple Mechanisms of Linezolid Resistance in Enterococci in the United States.
Gargis AS , Spicer LM , Kent AG , Zhu W , Campbell D , McAllister G , Ewing TO , Albrecht V , Stevens VA , Sheth M , Padilla J , Batra D , Johnson JK , Halpin AL , Rasheed JK , Elkins CA , Karlsson M , Lutgring JD . Front Microbiol 2021 12 807398 Enterococcus faecalis and faecium with resistance to daptomycin and/or linezolid are emerging globally. We present the genomic characterization of daptomycin- and linezolid-resistant E. faecalis and E. faecium surveillance isolates from the United States, 2013-2016. Daptomycin resistance was low among E. faecalis (2/364, 0.5%) and E. faecium (17/344, 5%). The majority (71%, 12/17) of daptomycin-resistant E. faecium isolates belonged to the emerging ST736 clone and contained mutations in liaFSR and cls previously associated with resistance. However, 1/2 E. faecalis and 3/17 E. faecium did not contain these mutations previously associated with daptomycin resistance. Linezolid resistance was rare among E. faecalis (1/364, 0.3%) and E. faecium (2/344, 0.6%). These two E. faecium isolates, one of which was also resistant to daptomycin and vancomycin, contained the 23S rRNA nucleotide mutation (G2576T) associated with linezolid resistance. Long-read sequencing revealed the linezolid-resistant E. faecalis isolate contained chromosomal- and plasmid-encoded copies of optrA. The chromosomal optrA was located on the recently described Tn6674 multiresistance transposon. The second copy of optrA was encoded on an ∼65 kb mosaic plasmid, with component regions sharing high sequence identity to optrA-encoding multiresistance plasmids of animal origin. The optrA-encoding plasmid contained open reading frames predicted to encode proteins associated with a pheromone-responsive plasmid transfer system, and filter mating experiments confirmed the plasmid was conjugative. Continued surveillance of enterococci is necessary to assess the prevalence and trends of daptomycin and linezolid resistance in the United States, characterize resistance mechanisms and how they transfer, and monitor for emerging sequence types associated with resistance. |
Effects of Patient Characteristics on Diagnostic Performance of Self-Collected Samples for SARS-CoV-2 Testing.
Smith-Jeffcoat SE , Koh M , Hoffman A , Rebolledo PA , Schechter MC , Miller HK , Sleweon S , Rossetti R , Kasinathan V , Shragai T , O'Laughlin K , Espinosa CC , Khalil GM , Adeyemo AO , Moorman A , Bauman BL , Joseph K , O'Hegarty M , Kamal N , Atallah H , Moore BL , Bohannon CD , Bankamp B , Hartloge C , Bowen MD , Paulick A , Gargis AS , Elkins C , Stewart RJ , da Silva J , Biedron C , Tate JE , Wang YF , Kirking HL . Emerg Infect Dis 2021 27 (8) 2081-2089 We evaluated the performance of self-collected anterior nasal swab (ANS) and saliva samples compared with healthcare worker-collected nasopharyngeal swab specimens used to test for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). We used the same PCR diagnostic panel to test all self-collected and healthcare worker-collected samples from participants at a public hospital in Atlanta, Georgia, USA. Among 1,076 participants, 51.9% were men, 57.1% were >50 years of age, 81.2% were Black (non-Hispanic), and 74.9% reported >1 chronic medical condition. In total, 8.0% tested positive for SARS-CoV-2. Compared with nasopharyngeal swab samples, ANS samples had a sensitivity of 59% and saliva samples a sensitivity of 68%. Among participants tested 3-7 days after symptom onset, ANS samples had a sensitivity of 80% and saliva samples a sensitivity of 85%. Sensitivity varied by specimen type and patient characteristics. These findings can help physicians interpret PCR results for SARS-CoV-2. |
Characterization of Clostridioides difficile Isolates Available through the CDC & FDA Antibiotic Resistance Isolate Bank.
Paulick A , Adamczyk M , Anderson K , Vlachos N , Machado MJ , McAllister G , Korhonen L , Guh AY , Halpin AL , Rasheed JK , Karlsson M , Lutgring JD , Gargis AS . Microbiol Resour Announc 2021 10 (1) Thirty Clostridioides difficile isolates collected in 2016 through the Centers for Disease Control and Prevention Emerging Infections Program were selected for reference antimicrobial susceptibility testing and whole-genome sequencing. Here, we present the genetic characteristics of these isolates and announce their availability in the CDC & FDA Antibiotic Resistance Isolate Bank. |
Rapid nanopore whole-genome sequencing for anthrax emergency preparedness
McLaughlin HP , Bugrysheva JV , Conley AB , Gulvik CA , Cherney B , Kolton CB , Marston CK , Saile E , Swaney E , Lonsway D , Gargis AS , Kongphet-Tran T , Lascols C , Michel P , Villanueva J , Hoffmaster AR , Gee JE , Sue D . Emerg Infect Dis 2020 26 (2) 358-361 Human anthrax cases necessitate rapid response. We completed Bacillus anthracis nanopore whole-genome sequencing in our high-containment laboratory from a human anthrax isolate hours after receipt. The de novo assembled genome showed no evidence of known antimicrobial resistance genes or introduced plasmid(s). Same-day genomic characterization enhances public health emergency response. |
Difficult-to-detect Staphylococcus aureus: mecA-positive isolates associated with oxacillin and cefoxitin false-susceptible results
Gargis AS , Yoo BB , Lonsway DR , Anderson K , Campbell D , Ewing T , Lawsin A , Machado MJ , Yamamoto N , Halpin AL , Lutgring JD , Karlsson M , Rasheed JK , Elkins CA . J Clin Microbiol 2020 58 (4) In August of 2018, the United States Food and Drug Administration (FDA) announced a Class I recall associated with a methicillin-resistant Staphylococcus aureus (MRSA) Safety Alert. |
Rapid detection of genetic engineering, structural variation, and antimicrobial resistance markers in bacterial biothreat pathogens by nanopore sequencing
Gargis AS , Cherney B , Conley AB , McLaughlin HP , Sue D . Sci Rep 2019 9 (1) 13501 Widespread release of Bacillus anthracis (anthrax) or Yersinia pestis (plague) would prompt a public health emergency. During an exposure event, high-quality whole genome sequencing (WGS) can identify genetic engineering, including the introduction of antimicrobial resistance (AMR) genes. Here, we developed rapid WGS laboratory and bioinformatics workflows using a long-read nanopore sequencer (MinION) for Y. pestis (6.5 h) and B. anthracis (8.5 h) and sequenced strains with different AMR profiles. Both salt-precipitation and silica-membrane extracted DNA were suitable for MinION WGS using both rapid and field library preparation methods. In replicate experiments, nanopore quality metrics were defined for genome assembly and mutation analysis. AMR markers were correctly detected and >99% coverage of chromosomes and plasmids was achieved using 100,000 raw sequencing reads. While chromosomes and large and small plasmids were accurately assembled, including novel multimeric forms of the Y. pestis virulence plasmid, pPCP1, MinION reads were error-prone, particularly in homopolymer regions. MinION sequencing holds promise as a practical, front-line strategy for on-site pathogen characterization to speed the public health response during a biothreat emergency. |
Genome Sequences of Penicillin-Resistant Bacillus anthracis Strains.
Gargis AS , Lascols C , McLaughlin HP , Conley AB , Hoffmaster AR , Sue D . Microbiol Resour Announc 2019 8 (2) Bacillus anthracis, the etiologic agent of anthrax, is characteristically susceptible to penicillin despite containing two chromosomal beta-lactamase genes. Few naturally occurring penicillin-resistant B. anthracis isolates have been reported. Here, we report the draft genome sequences for three penicillin-resistant B. anthracis strains, strain 32, UT308, and SK57. |
Analysis of Whole-Genome Sequences for the Prediction of Penicillin Resistance and ß-Lactamase Activity in Bacillus anthracis .
Gargis AS , McLaughlin HP , Conley AB , Lascols C , Michel PA , Gee JE , Marston CK , Kolton CB , Rodriguez RLm , Hoffmaster AR , Weigel LM , Sue D . mSystems 2018 3 (6) Penicillin (PEN) is a low-cost option for anthrax treatment, but naturally occurring resistance has been reported. beta-Lactamase expression (bla1, bla2) in Bacillus anthracis is regulated by a sigma factor (SigP) and its cognate anti-sigma factor (RsiP). Mutations leading to truncation of RsiP were previously described as a basis for PEN resistance. Here, we analyze whole-genome sequencing (WGS) data and compare the chromosomal sigP-bla1 regions from 374 B. anthracis strains to determine the frequency of mutations, identify mutations associated with PEN resistance, and evaluate the usefulness of WGS for predicting PEN resistance. Few (3.5%) strains contained at least 1 of 11 different mutations in sigP, rsiP, or bla1. Nine of these mutations have not been previously associated with PEN resistance. Four strains showed PEN resistance (PEN-R) by conventional broth microdilution, including 1 strain with a novel frameshift in rsiP. One strain that carries the same rsiP frameshift mutation as that found previously in a PEN-R strain showed a PEN-susceptible (PEN-S) phenotype and exhibited decreased bla1 and bla2 transcription. An unexpectedly small colony size, a reduced growth rate, and undetectable beta-lactamase activity levels (culture supernatant and cell lysate) were observed in this PEN-S strain. Sequence analysis revealed mutations in genes associated with growth defects that may contribute to this phenotype. While B. anthracis rsiP mutations cannot be exclusively used to predict resistance, four of the five strains with rsiP mutations were PEN-R. Therefore, the B. anthracis sigP-bla1 region is a useful locus for WGS-based PEN resistance prediction, but phenotypic testing remains essential. IMPORTANCE Determination of antimicrobial susceptibility of B. anthracis is essential for the appropriate distribution of antimicrobial agents for postexposure prophylaxis (PEP) and treatment of anthrax. Analysis of WGS data allows for the rapid detection of mutations in antimicrobial resistance (AMR) genes in an isolate, but the presence of a mutation in an AMR gene does not always accurately predict resistance. As mutations in the anti-sigma factor RsiP have been previously associated with high-level penicillin resistance in a limited number of strains, we investigated WGS assemblies from 374 strains to determine the frequency of mutations and performed functional antimicrobial susceptibility testing. Of the five strains that contained mutations in rsiP, only four were PEN-R by functional antimicrobial susceptibility testing. We conclude that while sequence analysis of this region is useful for AMR prediction in B. anthracis, genetic analysis should not be used exclusively and phenotypic susceptibility testing remains essential. |
Optical Screening for Rapid Antimicrobial Susceptibility Testing and for Observation of Phenotypic Diversity among Strains of the Genetically Clonal Species Bacillus anthracis.
McLaughlin HP , Gargis AS , Michel P , Sue D , Weigel LM . J Clin Microbiol 2017 55 (3) 959-970 During high-impact events involving Bacillus anthracis, such as the Amerithrax incident of 2001 or the anthrax outbreaks in Russia and Sweden in 2016, critical decisions to reduce morbidity and mortality include rapid selection and distribution of effective antimicrobial agents for treatment and post-exposure prophylaxis. Detection of antimicrobial resistance currently relies on a conventional broth microdilution (BMD) method that requires a 16 - 20 hour incubation time for B. anthracis Advances in high-resolution optical screening offer a new technology to more rapidly evaluate antimicrobial susceptibility and to simultaneously assess growth characteristics of an isolate. Herein, we describe a new method developed and evaluated as a rapid antimicrobial susceptibility test for B. anthracis This method is based on automated, digital, time-lapse microscopy to observe growth and morphological effects of relevant antibiotics using an optical screening instrument, the oCelloScopeTM B. anthracis strains were monitored over time in the presence and absence of penicillin, ciprofloxacin, and doxycycline. Susceptibility to each antibiotic was determined in ≤ 4 hours, a 75-80% decrease in the time required for conventional methods. Time-lapse video imaging compiled from the optical screening images revealed unexpected differences in growth characteristics among strains of B. anthracis, which is considered to be a clonal organism. This technology provides a new approach for rapidly detecting phenotypic antimicrobial resistance and for documenting growth attributes that may be beneficial in further characterization of individual strains. IMPORTANCE: Early treatment of bacterial infections such as anthrax can dramatically improve survival rates and outcomes for affected populations. Conventional, gold-standard methods to detect drug resistance, such as broth microdilution, functionally assess the ability of bacteria to grow in the presence of drug, but are time intensive and rely on the subjective interpretation of results. Here, we describe the application of automated, time-lapsed optical imaging to rapidly and accurately detect single- and multi-drug resistant strains of Bacillus anthracis based on growth in microtiter cultures. Drug resistance was determined up to 16 hours faster than the conventional BMD method and the ability to visualize growth of B. anthracis in real-time revealed novel growth morphologies. Detailed growth characteristics of strains and rapid time-to-susceptibility results can assist in critical decision-making about clinical treatment or post-exposure prophylaxis regimes during public health emergency events involving infections such as anthrax. |
Assuring the Quality of Next-Generation Sequencing in Clinical Microbiology and Public Health Laboratories.
Gargis AS , Kalman L , Lubin IM . J Clin Microbiol 2016 54 (12) 2857-2865 Clinical microbiology and public health laboratories are beginning to utilize next-generation sequencing (NGS) for a range of applications. This technology has the potential to transform the field by providing approaches that will complement, or even replace, many conventional laboratory tests. While the benefits of NGS are significant, the complexities of these assays require an evolving set of standards to assure testing quality. Regulatory and accreditation requirements, professional guidelines, and best practices that help to assure the quality of NGS-based tests are emerging. This review will highlight currently available standards and guidelines for the implementation of NGS in the clinical and public health laboratory setting, and includes considerations for NGS test validation, quality control procedures, proficiency testing, and reference materials. |
Good laboratory practice for clinical next-generation sequencing informatics pipelines.
Gargis AS , Kalman L , Bick DP , da Silva C , Dimmock DP , Funke BH , Gowrisankar S , Hegde MR , Kulkarni S , Mason CE , Nagarajan R , Voelkerding KV , Worthey EA , Aziz N , Barnes J , Bennett SF , Bisht H , Church DM , Dimitrova Z , Gargis SR , Hafez N , Hambuch T , Hyland FC , Luna RA , MacCannell D , Mann T , McCluskey MR , McDaniel TK , Ganova-Raeva LM , Rehm HL , Reid J , Campo DS , Resnick RB , Ridge PG , Salit ML , Skums P , Wong LJ , Zehnbauer BA , Zook JM , Lubin IM . Nat Biotechnol 2015 33 (7) 689-93 We report principles and guidelines (Supplementary Note) that were developed by the Next-Generation Sequencing: Standardization of Clinical Testing II (Nex-StoCT II) informatics workgroup, which was first convened on October 11–12, 2012, in Atlanta, Georgia, by the US Centers for Disease Control and Prevention (CDC; Atlanta, GA). We present here recommendations for the design, optimization and implementation of an informatics pipeline for clinical next-generation sequencing (NGS) to detect germline sequence variants in compliance with existing regulatory and professional quality standards1. The workgroup, which included informatics experts, clinical and research laboratory professionals, physicians with experience in interpreting NGS results, NGS test platform and software developers and participants from US government agencies and professional organizations, also discussed the use of NGS in testing for cancer and infectious disease. A typical NGS analytical process and selected workgroup recommendations are summarized in Table 1, and detailed in the guidelines presented in the Supplementary Note. |
Complete nucleotide sequences of plasmids pACK2 and pACK5 from Staphylococcus simulans biovar staphylolyticus.
Gargis AS , Heath LS , Heath HE , Leblanc PA , Gargis SR , Harris TH , Sloan GL . Plasmid 2013 69 (3) 257-62 Staphylococcus simulans biovar staphylolyticus contains five plasmids, designated pACK1-pACK5. Recently, the nucleotide sequences of three of these plasmids, pACK1, pACK3, and pACK4, were reported. In order to complete the characterization of these five plasmids, the nucleotide sequences of the two remaining plasmids, pACK2 (37683bp) and pACK5 (3191bp), were determined. pACK5 is comprised of two regions, one with 85% identity at the nucleotide level to a region of pWBG1773 and another region with an ORF that shares no significant similarity to sequences previously described in GenBank. pACK2 encodes proteins for cadmium resistance and enhanced biofilm formation. The similarities at the nucleotide level among regions of the plasmids of S. simulans bv. staphylolyticus suggest that these plasmids have undergone multiple intermolecular rearrangements. |
Assuring the quality of next-generation sequencing in clinical laboratory practice.
Gargis AS , Kalman L , Berry MW , Bick DP , Dimmock DP , Hambuch T , Lu F , Lyon E , Voelkerding KV , Zehnbauer BA , Agarwala R , Bennett SF , Chen B , Chin EL , Compton JG , Das S , Farkas DH , Ferber MJ , Funke BH , Furtado MR , Ganova-Raeva LM , Geigenmuller U , Gunselman SJ , Hegde MR , Johnson PL , Kasarskis A , Kulkarni S , Lenk T , Liu CS , Manion M , Manolio TA , Mardis ER , Merker JD , Rajeevan MS , Reese MG , Rehm HL , Simen BB , Yeakley JM , Zook JM , Lubin IM . Nat Biotechnol 2012 30 (11) 1033-6 We direct your readers’ attention to the principles and guidelines (Supplementary Guidelines) developed by the Next-generation Sequencing: Standardization of Clinical Testing (Nex-StoCT) workgroup. These guidelines represent initial steps to ensure that results from tests based on next-generation sequencing (NGS) are reliable and useful for clinical decision making. The US Centers for Disease Control and Prevention (CDC) convened this national workgroup, which collaborated to define platform-independent approaches for establishing technical process elements of a quality management system (QMS) to assure the analytical validity and compliance of NGS tests with existing regulatory and professional quality standards. The workgroup identified and addressed gaps in quality practices that could compromise the quality of both clinical laboratory services and translational efforts needed to advance the implementation and utility of NGS in clinical settings. | The workgroup was composed of experts with knowledge of and experience with NGS and included clinical laboratory directors, clinicians, platform and software developers and informaticians, as well as individuals actively engaged in NGS guideline development from accreditation bodies and professional organizations. Representatives from US government agencies also participated. |
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