Last data update: Dec 09, 2024. (Total: 48320 publications since 2009)
Records 1-30 (of 119 Records) |
Query Trace: Lindsey R[original query] |
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Conditional expression of flagellar motility, curli fimbriae, and biofilms in Shiga toxin- producing Escherichia albertii
Carter MQ , Carychao D , Lindsey RL . Front Microbiol 2024 15 1456637 Escherichia albertii is an emerging foodborne pathogen. We previously reported that some avian Shiga toxin-producing E. albertii strains exhibited higher or comparable cytotoxicity in Vero-d2EGFP cells with several enterohemorrhagic E. coli (EHEC) outbreak strains. To better understand the environmental persistence of this pathogen, comparative genomics and phenotypic assays were applied to assess adhesion capability, motility, and biofilm formation in E. albertii. Among the 108 adherence-related genes, those involved in biogenesis of curli fimbriae, hemorrhagic E. coli pilus, type 1 fimbriae, and Sfm fimbriae were conserved in E. albertii. All 20 E. albertii strains carried a complete set of primary flagellar genes that were organized into four gene clusters, while five strains possessed genes related to the secondary flagella, also known as lateral flagella. Compared to EHEC strain EDL933, the eight chemotaxis genes located within the primary flagellar gene clusters were deleted in E. albertii. Additional deletion of motility genes flhABCD and motBC was identified in several E. albertii strains. Swimming motility was detected in three strains when grown in LB medium, however, when grown in 5% TSB or in the pond water-supplemented with 10% pigeon droppings, an additional four strains became motile. Although all E. albertii strains carried curli genes, curli fimbriae were detected only in four, eight, and nine strains following 24, 48, and 120 h incubation, respectively. Type 1 fimbriae were undetectable in any of the strains grown at 37°C or 28°C. Strong biofilms were detected in strains that produced curli fimbriae and in a chicken isolate that was curli fimbriae negative but carried genes encoding adhesive fimbriae K88, a signature of enterotoxigenic E. coli strains causing neonatal diarrhea in piglets. In all phenotypic traits examined, no correlation was revealed between the strains isolated from different sources, or between the strains with and without Shiga toxin genes. The phenotypic variations could not be explained solely by the genetic diversity or the difference in adherence genes repertoire, implying complex regulation in expression of various adhesins. Strains that exhibited a high level of cytotoxicity and were also proficient in biofilm production, may have potential to emerge into high-risk pathogens. |
Genetic diversity in Salmonella enterica in outbreaks of foodborne and zoonotic origin in the USA in 2006-2017
Trees E , Carleton HA , Folster JP , Gieraltowski L , Hise K , Leeper M , Nguyen TA , Poates A , Sabol A , Tagg KA , Tolar B , Vasser M , Webb HE , Wise M , Lindsey RL . Microorganisms 2024 12 (8) Whole genome sequencing is replacing traditional laboratory surveillance methods as the primary tool to track and characterize clusters and outbreaks of the foodborne and zoonotic pathogen Salmonella enterica (S. enterica). In this study, 438 S. enterica isolates representing 35 serovars and 13 broad vehicle categories from one hundred epidemiologically confirmed outbreaks were evaluated for genetic variation to develop epidemiologically relevant interpretation guidelines for Salmonella disease cluster detection. The Illumina sequences were analyzed by core genome multi-locus sequence typing (cgMLST) and screened for antimicrobial resistance (AR) determinants and plasmids. Ninety-three of the one hundred outbreaks exhibited a close allele range (less than 10 allele differences with a subset closer than 5). The remaining seven outbreaks showed increased variation, of which three were considered polyclonal. A total of 16 and 28 outbreaks, respectively, showed variations in the AR and plasmid profiles. The serovars Newport and I 4,[5],12:i:-, as well as the zoonotic and poultry product vehicles, were overrepresented among the outbreaks, showing increased variation. A close allele range in cgMLST profiles can be considered a reliable proxy for epidemiological relatedness for the vast majority of S. enterica outbreak investigations. Variations associated with mobile elements happen relatively frequently during outbreaks and could be reflective of changing selective pressures. |
West Nile Virus and other nationally notifiable arboviral diseases - United States, 2022
Sutter RA , Lyons S , Gould CV , Staples JE , Lindsey NP . MMWR Morb Mortal Wkly Rep 2024 73 (21) 484-488 |
Notes from the field: Surveillance for multisystem inflammatory syndrome in children - United States, 2023
Yousaf AR , Lindsey KN , Wu MJ , Shah AB , Free RJ , Simeone RM , Zambrano LD , Campbell AP . MMWR Morb Mortal Wkly Rep 2024 73 (10) 225-228 |
Rapid identification of enteric bacteria from whole genome sequences using average nucleotide identity metrics
Lindsey RL , Gladney LM , Huang AD , Griswold T , Katz LS , Dinsmore BA , Im MS , Kucerova Z , Smith PA , Lane C , Carleton HA . Front Microbiol 2023 14 1225207 Identification of enteric bacteria species by whole genome sequence (WGS) analysis requires a rapid and an easily standardized approach. We leveraged the principles of average nucleotide identity using MUMmer (ANIm) software, which calculates the percent bases aligned between two bacterial genomes and their corresponding ANI values, to set threshold values for determining species consistent with the conventional identification methods of known species. The performance of species identification was evaluated using two datasets: the Reference Genome Dataset v2 (RGDv2), consisting of 43 enteric genome assemblies representing 32 species, and the Test Genome Dataset (TGDv1), comprising 454 genome assemblies which is designed to represent all species needed to query for identification, as well as rare and closely related species. The RGDv2 contains six Campylobacter spp., three Escherichia/Shigella spp., one Grimontia hollisae, six Listeria spp., one Photobacterium damselae, two Salmonella spp., and thirteen Vibrio spp., while the TGDv1 contains 454 enteric bacterial genomes representing 42 different species. The analysis showed that, when a standard minimum of 70% genome bases alignment existed, the ANI threshold values determined for these species were ≥95 for Escherichia/Shigella and Vibrio species, ≥93% for Salmonella species, and ≥92% for Campylobacter and Listeria species. Using these metrics, the RGDv2 accurately classified all validation strains in TGDv1 at the species level, which is consistent with the classification based on previous gold standard methods. |
Japanese encephalitis vaccines: recommendations of the Advisory Committee on Immunization Practices (ACIP)
Fischer M , Lindsey N , Staples JE , Hills S . MMWR Recomm Rep 2010 59 1-27 This report updates the 1993 recommendations by CDC's Advisory Committee on Immunization Practices (ACIP) regarding the prevention of Japanese encephalitis (JE) among travelers (CDC. Inactivated Japanese encephalitis virus vaccine: recommendations of the Advisory Committee on Immunization Practices [ACIP]. MMWR 1993;42[No. RR-1]). This report summarizes the epidemiology of JE, describes the two JE vaccines that are licensed in the United States, and provides recommendations for their use among travelers and laboratory workers. JE virus (JEV), a mosquito-borne flavivirus, is the most common vaccine-preventable cause of encephalitis in Asia. JE occurs throughout most of Asia and parts of the western Pacific. Among an estimated 35,000-50,000 annual cases, 20%-30% of patients die, and 30%-50% of survivors have neurologic or psychiatric sequelae. No treatment exists. For most travelers to Asia, the risk for JE is very low but varies on the basis of destination, duration, season, and activities. JE vaccine is recommended for travelers who plan to spend a month or longer in endemic areas during the JEV transmission season and for laboratory workers with a potential for exposure to infectious JEV. JE vaccine should be considered for 1) short-term (<1 month) travelers to endemic areas during the JEV transmission season if they plan to travel outside of an urban area and will have an increased risk for JEV exposure; 2) travelers to an area with an ongoing JE outbreak; and 3) travelers to endemic areas who are uncertain of specific destinations, activities, or duration of travel. JE vaccine is not recommended for short-term travelers whose visit will be restricted to urban areas or times outside of a well-defined JEV transmission season. Two JE vaccines are licensed in the United States. An inactivated mouse brain--derived JE vaccine (JE-VAX [JE-MB]) has been licensed since 1992 to prevent JE in persons aged >or=1 year traveling to JE-endemic countries. Supplies of this vaccine are limited because production has ceased. In March 2009, an inactivated Vero cell culture-derived vaccine (IXIARO [JE-VC]) was licensed for use in persons aged >or=17 years. JE-MB is the only JE vaccine available for use in children aged 1-16 years, and remaining supplies will be reserved for use in this group. |
Genomic and phenotypic characterization of shiga toxin-producing Escherichia albertii strains isolated from wild birds in a major agricultural region in California
Carter MQ , Quiñones B , He X , Pham A , Carychao D , Cooley MB , Lo CC , Chain PSG , Lindsey RL , Bono JL . Microorganisms 2023 11 (11) Escherichia albertii is an emerging foodborne pathogen. To better understand the pathogenesis and health risk of this pathogen, comparative genomics and phenotypic characterization were applied to assess the pathogenicity potential of E. albertii strains isolated from wild birds in a major agricultural region in California. Shiga toxin genes stx(2f) were present in all avian strains. Pangenome analyses of 20 complete genomes revealed a total of 11,249 genes, of which nearly 80% were accessory genes. Both core gene-based phylogenetic and accessory gene-based relatedness analyses consistently grouped the three stx(2f)-positive clinical strains with the five avian strains carrying ST7971. Among the three Stx2f-converting prophage integration sites identified, ssrA was the most common one. Besides the locus of enterocyte effacement and type three secretion system, the high pathogenicity island, OI-122, and type six secretion systems were identified. Substantial strain variation in virulence gene repertoire, Shiga toxin production, and cytotoxicity were revealed. Six avian strains exhibited significantly higher cytotoxicity than that of stx(2f)-positive E. coli, and three of them exhibited a comparable level of cytotoxicity with that of enterohemorrhagic E. coli outbreak strains, suggesting that wild birds could serve as a reservoir of E. albertii strains with great potential to cause severe diseases in humans. |
Identification and characterization of ten Escherichia coli strains encoding novel shiga toxin 2 subtypes, Stx2n as well as Stx2j, Stx2m, and Stx2o, in the United States
Lindsey RL , Prasad A , Feldgarden M , Gonzalez-Escalona N , Kapsak C , Klimke W , Melton-Celsa A , Smith P , Souvorov A , Truong J , Scheutz F . Microorganisms 2023 11 (10) The sharing of genome sequences in online data repositories allows for large scale analyses of specific genes or gene families. This can result in the detection of novel gene subtypes as well as the development of improved detection methods. Here, we used publicly available WGS data to detect a novel Stx subtype, Stx2n in two clinical E. coli strains isolated in the USA. During this process, additional Stx2 subtypes were detected; six Stx2j, one Stx2m strain, and one Stx2o, were all analyzed for variability from the originally described subtypes. Complete genome sequences were assembled from short- or long-read sequencing and analyzed for serotype, and ST types. The WGS data from Stx2n- and Stx2o-producing STEC strains were further analyzed for virulence genes pro-phage analysis and phage insertion sites. Nucleotide and amino acid maximum parsimony trees showed expected clustering of the previously described subtypes and a clear separation of the novel Stx2n subtype. WGS data were used to design OMNI PCR primers for the detection of all known stx1 (283 bp amplicon), stx2 (400 bp amplicon), intimin encoded by eae (221 bp amplicon), and stx2f (438 bp amplicon) subtypes. These primers were tested in three different laboratories, using standard reference strains. An analysis of the complete genome sequence showed variability in serogroup, virulence genes, and ST type, and Stx2 pro-phages showed variability in size, gene composition, and phage insertion sites. The strains with Stx2j, Stx2m, Stx2n, and Stx2o showed toxicity to Vero cells. Stx2j carrying strain, 2012C-4221, was induced when grown with sub-inhibitory concentrations of ciprofloxacin, and toxicity was detected. Taken together, these data highlight the need to reinforce genomic surveillance to identify the emergence of potential new Stx2 or Stx1 variants. The importance of this surveillance has a paramount impact on public health. Per our description in this study, we suggest that 2017C-4317 be designated as the Stx2n type-strain. |
Reoccurring Escherichia coli O157:H7 strain linked to leafy greens-associated outbreaks, 2016-2019
Chen JC , Patel K , Smith PA , Vidyaprakash E , Snyder C , Tagg KA , Webb HE , Schroeder MN , Katz LS , Rowe LA , Howard D , Griswold T , Lindsey RL , Carleton HA . Emerg Infect Dis 2023 29 (9) 1895-1899 Genomic characterization of an Escherichia coli O157:H7 strain linked to leafy greens-associated outbreaks dates its emergence to late 2015. One clade has notable accessory genomic content and a previously described mutation putatively associated with increased arsenic tolerance. This strain is a reoccurring, emerging, or persistent strain causing illness over an extended period. |
Multisystem inflammatory syndrome in children among persons who completed a two-dose COVID-19 vaccine primary series compared with those reporting no COVID-19 vaccination, US national MIS-C surveillance
Yousaf AR , Miller AD , Lindsey K , Shah AB , Wu MJ , Melgar M , Zambrano LD , Campbell AP . Pediatr Infect Dis J 2023 42 (12) e476-e478 We analyzed multisystem inflammatory syndrome in children cases by reported COVID-19 vaccination status (2-dose primary series vs. no vaccination). A total of 46% vaccinated versus 58% unvaccinated persons received intensive care unit-level care (P = 0.02); the risk of intensive care unit admission was 23% higher (adjusted relative risk: 1.23; 95% confidence interval: 1.03-1.48) among unvaccinated patients; 21 unvaccinated persons died. Multisystem inflammatory syndrome in children occurs after SARS-CoV-2 infection in vaccinated persons, but may be less severe. |
West Nile virus and other nationally notifiable arboviral diseases - United States, 2021
Fagre AC , Lyons S , Staples JE , Lindsey N . MMWR Morb Mortal Wkly Rep 2023 72 (34) 901-906 Arthropod-borne viruses (arboviruses) are transmitted to humans primarily through the bites of infected mosquitoes or ticks, and in the continental United States, West Nile virus (WNV) is the leading cause of domestically acquired arboviral disease. Other arboviruses cause sporadic cases of disease as well as occasional outbreaks. This report summarizes 2021 surveillance data reported to CDC by U.S. jurisdictions for nationally notifiable arboviruses; the report excludes chikungunya, dengue, yellow fever, and Zika virus disease cases, because these infections were acquired primarily through travel during 2021. Forty-nine states and the District of Columbia reported 3,035 cases of domestic arboviral disease, including those caused by West Nile (2,911), La Crosse (40), Jamestown Canyon (32), Powassan (24), St. Louis encephalitis (17), unspecified California serogroup (six), and eastern equine encephalitis (five) viruses. Among the WNV disease cases, 2,008 (69%) were classified as neuroinvasive disease, for a national incidence of 0.61 cases per 100,000 population. Because arboviral diseases continue to cause serious illness, maintaining surveillance programs to monitor their transmission and prevalence is important to the direction and promotion of prevention activities. Health care providers should consider arboviral infections in the differential diagnosis of aseptic meningitis and encephalitis, obtain appropriate specimens for laboratory testing, and promptly report cases to public health authorities. Prevention depends on community and household efforts to reduce vector populations and personal protective measures to prevent mosquito and tick bites, such as use of Environmental Protection Agency-registered insect repellent and wearing protective clothing. |
Novel quinolone resistance determinant, qepA8, in Shigella flexneri isolated in the United States, 2016 (preprint)
Webb HE , Tagg KA , Chen JC , Kim J , Lindsey R , Francois Watkins LK , Karp BE , Sugawara Y , Folster JP . bioRxiv 2019 726950 A qepA8+ Shigella flexneri was cultured from the stool of a traveler returning from India and East Asia. This chromosomally encoded qepA variant, has a six-base insertion, and may have been mobilized as part of a complex IS1-mediated composite transposon including catA1, aadA1, and blaOXA-1. In laboratory E. coli, qepA8 alone only conferred decreased ciprofloxacin susceptibility; however, it may work in combination with additional mechanisms to confer clinical resistance. |
Evaluation of the Illumina iSeq whole genome sequencing system for enteric disease surveillance and outbreak detection
Trees E , Poates A , Sabol A , LaFon P , Truong J , Lindsey R . J Microbiol Methods 2023 211 106784 The Illumina iSeq low-capacity sequencing platform was evaluated for use in foodborne disease surveillance and outbreak detection. The platform produced high quality sequence data comparable to that of the Illumina MiSeq and was cost-effective with fast turn-around time in low sample volume environments. |
Yellow fever resurgence: An avoidable crisis
Lindsey NP , Horton J , Barrett ADT , Demanou M , Monath TP , Tomori O , Van Herp M , Zeller H , Fall IS , Cibrelus L , Erin Staples J . NPJ Vaccines 2022 7 (1) 137 Yellow fever (YF), an acute viral hemorrhagic disease transmitted by infected mosquitoes, has the potential to spread rapidly and cause serious public health impact. The disease predominantly affects people in sub-Saharan Africa and tropical South America, where 40 countries are considered endemic and at high-risk for YF outbreaks1. Despite the availability of safe and effective vaccines since the 1930s, YF outbreaks continue to occur resulting in an estimated 109,000 severe cases and 51,000 deaths annually2. These figures are likely underestimates as most mild YF cases go undetected due to nonspecific symptoms and limited surveillance or laboratory diagnostic capacity in many at-risk regions. | | Because of large explosive outbreaks in the last five years, YF has reemerged as a major international public health threat. In 2016, an explosive outbreak occurred in Angola, spreading to neighboring areas in the Democratic Republic of Congo and infecting expatriate workers, including at least 11 workers who returned to China while ill3. At the time of the outbreak in Angola, vaccination coverage and disease awareness were low as the last YF outbreak was in 1971. In addition, control measures, such as requiring a valid international certificate of vaccination for travelers, were not enforced4. Thirty million doses of YF vaccine were needed to stop the outbreak, which both outstripped the available global vaccine supply and led to the unprecedented use of fractional doses of the vaccine to prevent further disease spread5. In late 2016–2017, outbreaks of YF were also detected in coastal areas of Brazil where cases had not been reported since the 1940s and vaccination was not routinely recommended6. Again, fractional doses of the vaccine were needed to protect those residing in affected areas. Although fractional doses have been demonstrated to provide good short-term protection, questions remain if they will provide the same long-term protective immunity as a full dose7–9. Until these questions can be adequately answered, fractional doses should only be considered in emergency scenarios if there are insufficient doses of the vaccine to respond to active or imminent threats of large-scale amplification of YF10,11. |
Sequencing of Enteric Bacteria: Library Preparation Procedure Matters for Accurate Identification and Characterization.
Poates A , Truong J , Lindsey R , Griswold T , Williams-Newkirk AJ , Carleton H , Trees E . Foodborne Pathog Dis 2022 19 (8) 569-578 Enzymatic library preparation kits are increasingly used for bacterial whole genome sequencing. While they offer a rapid workflow, the transposases used in the kits are recognized to be somewhat biased. The aim of this study was to optimize and validate a protocol for the Illumina DNA Prep kit (formerly Nextera DNA Flex) for sequencing enteric pathogens and compare its performance against the Nextera XT kit. One hundred forty-three strains of Campylobacter, Escherichia, Listeria, Salmonella, Shigella, and Vibrio were prepared with both methods and sequenced on the Illumina MiSeq using 300 and/or 500 cycle chemistries. Sequences were compared using core genome multilocus sequence typing (cgMLST), 7-gene multilocus sequence typing (MLST), and detection of markers encoding serotype, virulence, and antimicrobial resistance. Sequences for one Escherichia strain were downsampled to determine the minimum coverage required for the analyses. While organism-specific differences were observed, the Prep libraries generated longer average read lengths and less fragmented assemblies compared to the XT libraries. In downstream analysis, the most notable difference between the kits was observed for Escherichia, particularly for the 300 cycle sequences. The O group was not predicted in 32% and 4% of XT sequences when using blast and kmer algorithms, respectively, while the O group was predicted from all Prep sequences regardless of the algorithm. In addition, the ehxA gene was not detected in 6% of XT sequences and 34% were missing one or more of the type III secretion systems and/or plasmid-associated genes, which were detected in the Prep sequences. The coverage downsampling revealed that acceptable assembly quality and allele detection was achieved at 30 × coverage with the Prep libraries, whereas 40-50 × coverage was required for the XT libraries. The better performance of the Prep libraries was attributed to more even coverage, particularly in genome regions low in GC content. |
Longitudinal surveillance and comparative characterization of Escherichia albertii in wild raccoons in the United States.
Hinenoya A , Wang H , Patrick EM , Zeng X , Cao L , Li XP , Lindsey RL , Gillespie B , He Q , Yamasaki S , Lin J . Microbiol Res 2022 262 127109 Escherichia albertii is an emerging enteric bacterial pathogen causing watery diarrhea, abdominal distension, vomiting and fever in humans. E. albertii has caused many foodborne outbreaks in Japan and was also reported in other countries worldwide. However, the important animal reservoirs of this pathogen are still largely unknown, impeding us to combat this emerging pathogen. Recently, we reported that wild raccoons (Procyon lotor) and broiler chickens are significant reservoirs of E. albertii in Japan and the U.S., respectively. Here, we performed a longitudinal surveillance to monitor prevalence of E. albertii in wild raccoons in the U.S. and conducted comprehensive comparative analyses of the E. albertii of different origins. A total of 289 fecal swab samples were collected from wild raccoons in Tennessee and Kentucky in the U.S. (2018-2020). Approximately 26% (74/289) of the raccoons examined were PCR-positive for E. albertii and eventually 22 E. albertii isolates were obtained. PFGE analysis showed the U.S. raccoon E. albertii were phylogenetically distant even though the corresponding raccoons were captured from a small area. Unlike the high prevalence of multidrug resistance (83%) observed in previous chicken E. albertii survey, antibiotic resistance was rarely observed in all the U.S. raccoon and 22 Japan raccoon strains with only one Japan strain displaying multidrug resistance (2%). Whole genome sequencing of 54 diverse E. albertii strains and subsequent comparative genomics analysis revealed unique clusters that displayed close evolutionary relationships and similar virulence gene profiles among the strains of different origins in terms of geographical locations (e.g., U.S. and Japan) and hosts (raccoon, chicken, swine, and human). Challenge experiment demonstrated raccoon E. albertii strains could successfully colonize in the chicken intestine at 3 and 8 days postinfection. A pilot environmental survey further showed all the four tested water samples from Tennessee river were E. albertii-positive; two different E. albertii strains, isolated from a single water sample, showed close relationships to those of human origin. Together, the findings from this study provide new insights into the ecology, evolution, and pathobiology of E. albertii, and underscore the need to control the emerging E. albertii in a complex ecosystem using One Health approach. |
Use of Large-Scale Genomics to Identify the Role of Animals and Foods as Potential Sources of Extraintestinal Pathogenic Escherichia coli That Cause Human Illness.
Harrison L , Tyson GH , Strain E , Lindsey RL , Strockbine N , Ceric O , Fortenberry GZ , Harris B , Shaw S , Tillman G , Zhao S , Dessai U . Foods 2022 11 (13) Extraintestinal pathogenic Escherichia coli (ExPEC) cause urinary tract and potentially life-threatening invasive infections. Unfortunately, the origins of ExPEC are not always clear. We used genomic data of E. coli isolates from five U.S. government organizations to evaluate potential sources of ExPEC infections. Virulence gene analysis of 38,032 isolates from human, food animal, retail meat, and companion animals classified the subset of 8142 non-diarrheagenic isolates into 40 virulence groups. Groups were identified as low, medium, and high relative risk of containing ExPEC strains, based on the proportion of isolates recovered from humans. Medium and high relative risk groups showed a greater representation of sequence types associated with human disease, including ST-131. Over 90% of food source isolates belonged to low relative risk groups, while >60% of companion animal isolates belonged to medium or high relative risk groups. Additionally, 18 of the 26 most prevalent antimicrobial resistance determinants were more common in high relative risk groups. The associations between antimicrobial resistance and virulence potentially limit treatment options for human ExPEC infections. This study demonstrates the power of large-scale genomics to assess potential sources of ExPEC strains and highlights the importance of a One Health approach to identify and manage these human pathogens. |
Multisystem Inflammatory Syndrome in Children (MIS-C) During SARS-CoV-2 Delta and Omicron Variant Circulation- United States, July 2021 - January 2022.
Miller AD , Yousaf AR , Bornstein E , Wu MJ , Lindsey K , Melgar M , Oster ME , Zambrano LD , Campbell AP . Clin Infect Dis 2022 75 S303-S307 We describe 2,116 multisystem inflammatory syndrome in children (MIS-C) cases reported to CDC during Delta and Omicron circulation from July 2021-January 2022. Half of MIS-C patients were aged 5-11 years, 52% received ICU-level care, and 1.1% died. Only 3.0% of eligible patients were fully vaccinated prior to MIS-C onset. |
West Nile Virus and other domestic nationally notifiable arboviral diseases - United States, 2020
Soto RA , Hughes ML , Staples JE , Lindsey NP . MMWR Morb Mortal Wkly Rep 2022 71 (18) 628-632 Arthropod-borne viruses (arboviruses) are transmitted to humans primarily through the bite of infected mosquitoes and ticks. West Nile virus (WNV), mainly transmitted by Culex species mosquitos, is the leading cause of domestically acquired arboviral disease in the United States (1). Other arboviruses cause sporadic cases of disease and occasional outbreaks. This report summarizes passive data for nationally notifiable domestic arboviruses in the United States reported to CDC for 2020. Forty-four states reported 884 cases of domestic arboviral disease, including those caused by West Nile (731), La Crosse (88), Powassan (21), St. Louis encephalitis (16), eastern equine encephalitis (13), Jamestown Canyon (13), and unspecified California serogroup (2) viruses. A total of 559 cases of neuroinvasive WNV disease were reported, for a national incidence of 0.17 cases per 100,000 population. Because arboviral diseases continue to cause serious illness and the locations of outbreaks vary annually, health care providers should consider arboviral infections in patients with aseptic meningitis or encephalitis that occur during periods when ticks and mosquitoes are active, perform recommended diagnostic testing, and promptly report cases to public health authorities to guide prevention strategies and messaging. |
The Use of Whole-Genome Sequencing by the Federal Interagency Collaboration for Genomics for Food and Feed Safety in the United States.
Stevens EL , Carleton HA , Beal J , Tillman GE , Lindsey RL , Lauer AC , Pightling A , Jarvis KG , Ottesen A , Ramachandran P , Hintz L , Katz LS , Folster JP , Whichard JM , Trees E , Timme RE , McDermott P , Wolpert B , Bazaco M , Zhao S , Lindley S , Bruce BB , Griffin PM , Brown E , Allard M , Tallent S , Irvin K , Hoffmann M , Wise M , Tauxe R , Gerner-Smidt P , Simmons M , Kissler B , Defibaugh-Chavez S , Klimke W , Agarwala R , Lindsay J , Cook K , Austerman SR , Goldman D , McGarry S , Hale KR , Dessai U , Musser SM , Braden C . J Food Prot 2022 85 (5) 755-772 This multi-agency report developed under the Interagency Collaboration for Genomics for Food and Feed Safety (Gen-FS) provides an overview of the use of and transition to Whole-Genome Sequencing (WGS) technology to detect and characterize pathogens transmitted commonly by food and identify their sources. We describe foodborne pathogen analysis, investigation, and harmonization efforts among federal agencies, including the National Institutes of Health (NIH); the Department of Health and Human Services' Centers for Disease Control and Prevention (CDC) and the Food and Drug Administration (FDA); and the U.S. Department of Agriculture's Food Safety and Inspection Service (FSIS), Agricultural Research Service (ARS), and Animal and Plant Health Inspection Service (APHIS). We describe single nucleotide polymorphism (SNP), core-genome (cg) and whole-genome multi-locus sequence typing (wgMLST) data analysis methods as used in CDC's PulseNet and FDA's GenomeTrakr networks, underscoring the complementary nature of the results for linking genetically related foodborne pathogens during outbreak investigations while allowing flexibility to meet the specific needs of Gen-FS agency partners. We highlight how we apply WGS to pathogen characterization (virulence and antimicrobial resistance profiles), source attribution efforts, and increasing transparency by making the sequences and other data publicly available through the National Center for Biotechnology Information (NCBI). Finally, we highlight the impact of current trends in the use of culture-independent diagnostics tests (CIDT) for human diagnostic testing on analytical approaches related to food safety. Lastly, we highlight what is next for WGS in food safety. |
Timing of first positive hepatitis c polymerase chain reaction test among pregnant women with hepatitis c infection Surveillance for Emerging Threats to Mothers and Babies Network
Woodworth Kate , Newton Suzanne , Sizemore Lindsey , Wingate Heather , Wills Aprielle , Thomas Nadia , Reynolds Bethany , Foster Monique , Gupta Neil , Wester Carolyn , Meaney-Delman Data , Gilboa Suzanne , Tong Van . Am J Obstet Gynecol 2022 226 (2) 305-306 Incidence of hepatitis C virus (HCV) infection in women of reproductive age is increasing, leading to rising numbers of women with HCV infection in pregnancy and concerns of perinatal transmission. In April 2020, the Centers for Disease Control and Prevention (CDC) began recommending HCV screening during each pregnancy. We describe maternal characteristics and timing of HCV testing among pregnant women identified with HCV infection. | |
Delayed lactose utilization among Shiga toxin-producing Escherichia coli of serogroup O121.
Gill A , McMahon T , Dussault F , Jinneman K , Lindsey R , Martin H , Stoneburg D , Strockbine N , Wetherington J , Feng P . Food Microbiol 2022 102 103903 Two outbreaks of Shiga toxin-producing Escherichia coli O121:H19 associated with wheat flour, in the United States of America and Canada, involved strains with an unusual phenotype, delayed lactose utilization (DLU). These strains do not ferment lactose when initially cultured on MacConkey agar (MAC), but lactose fermentation occurs following subculture to a second plate of MAC. The prevalence of DLU was determined by examining the -galactosidase activity of 49 strains of E. coli O121, and of 37 other strains of E. coli. Twenty four of forty three O121:H19 and one O121:NM displayed DLU. Two strains (O121:NM and O145:H34) did not have detectable -galactosidase activity. -glucuronidase activity of O121 strains was also determined. All but six DLU strains had normal -glucuronidase activity. -glucuronidase activity was suppressed on MAC for 17 of 23 O121 non-DLU strains. Genomic analysis found that DLU strains possessed an insertion sequence, IS600 (1267 bp), between lacZ (-galactosidase) and lacY (-galactoside permease), that was not present in strains exhibiting normal lactose utilization. The insert might reduce the expression of -galactoside permease, delaying import of lactose, resulting in the DLU phenotype. The high probability of DLU should be considered when using lactose-containing media for the isolation of STEC O121. 2021 |
Comparison of four enzymatic library preparation kits for sequencing Shiga toxin-producing Escherichia coli for surveillance and outbreak detection.
Truong J , Poates A , Joung YJ , Sabol A , Griswold T , Williams-Newkirk AJ , Lindsey R , Trees E . J Microbiol Methods 2021 190 106329 Four enzymatic DNA library preparation kits were compared for sequencing Shiga toxin-producing E. coli. All kits produced high quality sequence data which performed equally well in the downstream analyses for surveillance and outbreak detection. Important differences were noted in the workflow user-friendliness and per sample cost. |
West Nile virus and other domestic nationally notifiable arboviral diseases - United States, 2019
Vahey GM , Mathis S , Martin SW , Gould CV , Staples JE , Lindsey NP . MMWR Morb Mortal Wkly Rep 2021 70 (32) 1069-1074 Arthropod-borne viruses (arboviruses) are transmitted to humans primarily through the bites of infected mosquitoes and ticks. West Nile virus (WNV) is the leading cause of domestically acquired arboviral disease in the United States (1). Other arboviruses, including La Crosse, Jamestown Canyon, Powassan, eastern equine encephalitis, and St. Louis encephalitis viruses, cause sporadic disease and occasional outbreaks. This report summarizes surveillance data for nationally notifiable domestic arboviruses reported to CDC for 2019. For 2019, 47 states and the District of Columbia (DC) reported 1,173 cases of domestic arboviral disease, including 971 (83%) WNV disease cases. Among the WNV disease cases, 633 (65%) were classified as neuroinvasive disease, for a national incidence of 0.19 cases per 100,000 population, 53% lower than the median annual incidence during 2009-2018. More Powassan and eastern equine encephalitis virus disease cases were reported in 2019 than in any previous year. Health care providers should consider arboviral infections in patients with aseptic meningitis or encephalitis, perform recommended diagnostic testing, and promptly report cases to public health authorities. Because arboviral diseases continue to cause serious illness, and annual incidence of individual viruses continues to vary with sporadic outbreaks, maintaining surveillance is important in directing prevention activities. Prevention depends on community and household efforts to reduce vector populations and personal protective measures to prevent mosquito and tick bites such as use of Environmental Protection Agency-registered insect repellent and wearing protective clothing.*(,)(†). |
La Crosse Virus Disease in the United States, 2003-2019
Vahey GM , Lindsey NP , Staples JE , Hills SL . Am J Trop Med Hyg 2021 105 (3) 807-812 La Crosse virus (LACV) is an arthropod-borne virus that can cause a nonspecific febrile illness, meningitis, or encephalitis. We reviewed U.S. LACV surveillance data for 2003-2019, including human disease cases and nonhuman infections. Overall, 318 counties in 27 states, principally in the Great Lakes, mid-Atlantic, and southeastern regions, reported LACV activity. A total of 1,281 human LACV disease cases were reported, including 1,183 (92%) neuroinvasive disease cases. The median age of cases was 8 years (range: 1 month-95 years); 1,130 (88%) were aged < 18 years, and 754 (59%) were male. The most common clinical syndromes were encephalitis (N = 960; 75%) and meningitis (N = 219, 17%). The case fatality rate was 1% (N = 15). A median of 74 cases (range: 35-130) was reported per year. The average annual national incidence of neuroinvasive disease cases was 0.02 per 100,000 persons. West Virginia, North Carolina, Tennessee, and Ohio had the highest average annual state incidences (0.16-0.61 per 100,000), accounting for 80% (N = 1,030) of cases. No animal LACV infections were reported. Nine states reported LACV-positive mosquito pools, including three states with no reported human disease cases. La Crosse virus is the most common cause of pediatric neuroinvasive arboviral disease in the United States. However, surveillance data likely underestimate LACV disease incidence. Healthcare providers should consider LACV disease in patients, especially children, with febrile illness, meningitis, or encephalitis in areas where the virus circulates and advise their patients on ways to prevent mosquito bites. |
American College of Rheumatology Guidance for COVID-19 Vaccination in Patients With Rheumatic and Musculoskeletal Diseases: Version 2.
Curtis JR , Johnson SR , Anthony DD , Arasaratnam RJ , Baden LR , Bass AR , Calabrese C , Gravallese EM , Harpaz R , Kroger A , Sadun RE , Turner AS , Williams EA , Mikuls TR . Arthritis Rheumatol 2021 73 (8) e30-e45 OBJECTIVE: To provide guidance to rheumatology providers on the use of coronavirus disease 2019 (COVID-19) vaccines for patients with rheumatic and musculoskeletal diseases (RMDs). METHODS: A task force was assembled that included 9 rheumatologists/immunologists, 2 infectious disease specialists, and 2 public health physicians. After agreeing on scoping questions, an evidence report was created that summarized the published literature and publicly available data regarding COVID-19 vaccine efficacy and safety, as well as literature for other vaccines in RMD patients. Task force members rated their agreement with draft consensus statements on a 9-point numerical scoring system, using a modified Delphi process and the RAND/University of California Los Angeles Appropriateness Method, with refinement and iteration over 2 sessions. Consensus was determined based on the distribution of ratings. RESULTS: Despite a paucity of direct evidence, 74 draft guidance statements were developed by the task force and agreed upon with consensus to provide guidance for use of the COVID-19 vaccines in RMD patients and to offer recommendations regarding the use and timing of immunomodulatory therapies around the time of vaccination. CONCLUSION: These guidance statements, made in the context of limited clinical data, are intended to provide direction to rheumatology health care providers on how to best use COVID-19 vaccines and to facilitate implementation of vaccination strategies for RMD patients. |
Changes in the Number of Intensive Care Unit Beds in U.S. Hospitals During the Early Months of the COVID-19 Pandemic, as reported to the National Healthcare Safety Network's COVID-19 Module.
Weiner-Lastinger LM , Dudeck MA , Allen-Bridson K , Dantes R , Gross C , Nkwata A , Tejedor SC , Pollock D , Benin A . Infect Control Hosp Epidemiol 2021 43 (10) 1-12 Using data from the National Healthcare Safety Network (NHSN), we assessed changes to intensive care unit (ICU) bed capacity during the early months of the COVID-19 pandemic. Changes in capacity varied by hospital type and size. ICU beds increased by 36%, highlighting the pressure placed on hospitals during the pandemic. |
Characterizing Areas with Increased Burden of West Nile Virus Disease in California, 2009-2018
Danforth ME , Fischer M , Snyder RE , Lindsey NP , Martin SW , Kramer VL . Vector Borne Zoonotic Dis 2021 21 (8) 620-627 West Nile virus (WNV) is a mosquito-borne flavivirus that can cause severe neurological disease in humans, for which there is no treatment or vaccine. From 2009 to 2018, California has reported more human disease cases than any other state in the United States. We sought to identify smaller geographic areas within the 10 California counties with the highest number of WNV cases that accounted for disproportionately large numbers of human cases from 2009 to 2018. Eleven areas, consisting of groups of high-burden ZIP codes, were identified in nine counties within southern California and California's Central Valley. Despite containing only 2% of California's area and 17% of the state's population, these high-burden ZIP codes accounted for 44% of WNV cases reported and had a mean annual incidence that was 2.4 times the annual state incidence. Focusing mosquito control and public education efforts in these areas would lower WNV disease burden. |
CD4 receptor diversity represents an ancient protection mechanism against primate lentiviruses.
Russell RM , Bibollet-Ruche F , Liu W , Sherrill-Mix S , Li Y , Connell J , Loy DE , Trimboli S , Smith AG , Avitto AN , Gondim MVP , Plenderleith LJ , Wetzel KS , Collman RG , Ayouba A , Esteban A , Peeters M , Kohler WJ , Miller RA , François-Souquiere S , Switzer WM , Hirsch VM , Marx PA , Piel AK , Stewart FA , Georgiev AV , Sommer V , Bertolani P , Hart JA , Hart TB , Shaw GM , Sharp PM , Hahn BH . Proc Natl Acad Sci U S A 2021 118 (13) Infection with human and simian immunodeficiency viruses (HIV/SIV) requires binding of the viral envelope glycoprotein (Env) to the host protein CD4 on the surface of immune cells. Although invariant in humans, the Env binding domain of the chimpanzee CD4 is highly polymorphic, with nine coding variants circulating in wild populations. Here, we show that within-species CD4 diversity is not unique to chimpanzees but found in many African primate species. Characterizing the outermost (D1) domain of the CD4 protein in over 500 monkeys and apes, we found polymorphic residues in 24 of 29 primate species, with as many as 11 different coding variants identified within a single species. D1 domain amino acid replacements affected SIV Env-mediated cell entry in a single-round infection assay, restricting infection in a strain- and allele-specific fashion. Several identical CD4 polymorphisms, including the addition of N-linked glycosylation sites, were found in primate species from different genera, providing striking examples of parallel evolution. Moreover, seven different guenons (Cercopithecus spp.) shared multiple distinct D1 domain variants, pointing to long-term trans-specific polymorphism. These data indicate that the HIV/SIV Env binding region of the primate CD4 protein is highly variable, both within and between species, and suggest that this diversity has been maintained by balancing selection for millions of years, at least in part to confer protection against primate lentiviruses. Although long-term SIV-infected species have evolved specific mechanisms to avoid disease progression, primate lentiviruses are intrinsically pathogenic and have left their mark on the host genome. |
COVID-19 Case Surveillance: Trends in Person-Level Case Data Completeness, United States, April 5-September 30, 2020.
Gold JAW , DeCuir J , Coyle JP , Duca LM , Adjemian J , Anderson KN , Baack BN , Bhattarai A , Dee D , Durant TM , Ewetola R , Finlayson T , Roush SW , Yin S , Jackson BR , Fullerton KE . Public Health Rep 2021 136 (4) 466-474 OBJECTIVES: To obtain timely and detailed data on COVID-19 cases in the United States, the Centers for Disease Control and Prevention (CDC) uses 2 data sources: (1) aggregate counts for daily situational awareness and (2) person-level data for each case (case surveillance). The objective of this study was to describe the sensitivity of case ascertainment and the completeness of person-level data received by CDC through national COVID-19 case surveillance. METHODS: We compared case and death counts from case surveillance data with aggregate counts received by CDC during April 5-September 30, 2020. We analyzed case surveillance data to describe geographic and temporal trends in data completeness for selected variables, including demographic characteristics, underlying medical conditions, and outcomes. RESULTS: As of November 18, 2020, national COVID-19 case surveillance data received by CDC during April 5-September 30, 2020, included 4 990 629 cases and 141 935 deaths, representing 72.7% of the volume of cases (n = 6 863 251) and 71.8% of the volume of deaths (n = 197 756) in aggregate counts. Nationally, completeness in case surveillance records was highest for age (99.9%) and sex (98.8%). Data on race/ethnicity were complete for 56.9% of cases; completeness varied by region. Data completeness for each underlying medical condition assessed was <25% and generally declined during the study period. About half of case records had complete data on hospitalization and death status. CONCLUSIONS: Incompleteness in national COVID-19 case surveillance data might limit their usefulness. Streamlining and automating surveillance processes would decrease reporting burdens on jurisdictions and likely improve completeness of national COVID-19 case surveillance data. |
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