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2. Transmission from vaccinated individuals in a large SARS-CoV-2 Delta variant outbreak

Author

Siddle, KJ, Krasilnikova, LA, Moreno, GK, Schaffner, SF, Vostok, J, Fitzgerald, NA, Lemieux, JE, Barkas, N, Loreth, C, Specht, I, Tomkins-Tinch, CH, Paull, JS, Schaeffer, B, Taylor, BP, Loftness, B, Johnson, H, Schubert, PL, Shephard, HM, Doucette, M, Fink, T, Lang, AS, Baez, S, Beauchamp, J, Hennigan, S, Buzby, E, Ash, S, Brown, J, Clancy, S, Cofsky, S, Gagne, L, Hall, J, Harrington, R, Gionet, GL, DeRuff, KC, Vodzak, ME, Adams, GC, Dobbins, ST, Slack, SD, Reilly, SK, Anderson, LM, Cipicchio, MC, DeFelice, MT, Grimsby, JL, Anderson, SE, Blumenstiel, BS, Meldrim, JC, Rooke, HM, Vicente, G, Smith, NL, Messer, KS, Reagan, FL, Mandese, ZM, Lee, MD, Ray, MC, Fisher, ME, Ulcena, MA, Nolet, CM, English, SE, Larkin, KL, Vernest, K, Chaluvadi, S, Arvidson, D, Melchiono, M, Covell, T, Harik, V, Brock-Fisher, T, Dunn, M, Kearns, A, Hanage, WP, Bernard, C, Philippakis, A, Lennon, NJ, Gabriel, SB, Gallagher, GR, Smole, S, Madoff, LC, Brown, CM, Park, DJ, MacInnis, BL, Sabeti, PC, Siddle, KJ, Krasilnikova, LA, Moreno, GK, Schaffner, SF, Vostok, J, Fitzgerald, NA, Lemieux, JE, Barkas, N, Loreth, C, Specht, I, Tomkins-Tinch, CH, Paull, JS, Schaeffer, B, Taylor, BP, Loftness, B, Johnson, H, Schubert, PL, Shephard, HM, Doucette, M, Fink, T, Lang, AS, Baez, S, Beauchamp, J, Hennigan, S, Buzby, E, Ash, S, Brown, J, Clancy, S, Cofsky, S, Gagne, L, Hall, J, Harrington, R, Gionet, GL, DeRuff, KC, Vodzak, ME, Adams, GC, Dobbins, ST, Slack, SD, Reilly, SK, Anderson, LM, Cipicchio, MC, DeFelice, MT, Grimsby, JL, Anderson, SE, Blumenstiel, BS, Meldrim, JC, Rooke, HM, Vicente, G, Smith, NL, Messer, KS, Reagan, FL, Mandese, ZM, Lee, MD, Ray, MC, Fisher, ME, Ulcena, MA, Nolet, CM, English, SE, Larkin, KL, Vernest, K, Chaluvadi, S, Arvidson, D, Melchiono, M, Covell, T, Harik, V, Brock-Fisher, T, Dunn, M, Kearns, A, Hanage, WP, Bernard, C, Philippakis, A, Lennon, NJ, Gabriel, SB, Gallagher, GR, Smole, S, Madoff, LC, Brown, CM, Park, DJ, MacInnis, BL, and Sabeti, PC

Abstract

An outbreak of over 1,000 COVID-19 cases in Provincetown, Massachusetts (MA), in July 2021-the first large outbreak mostly in vaccinated individuals in the US-prompted a comprehensive public health response, motivating changes to national masking recommendations and raising questions about infection and transmission among vaccinated individuals. To address these questions, we combined viral genomic and epidemiological data from 467 individuals, including 40% of outbreak-associated cases. The Delta variant accounted for 99% of cases in this dataset; it was introduced from at least 40 sources, but 83% of cases derived from a single source, likely through transmission across multiple settings over a short time rather than a single event. Genomic and epidemiological data supported multiple transmissions of Delta from and between fully vaccinated individuals. However, despite its magnitude, the outbreak had limited onward impact in MA and the US overall, likely due to high vaccination rates and a robust public health response.

Published
2022

5. Genome sequencing reveals Zika virus diversity and spread in the Americas

Author

Metsky, Hayden C, Matranga, Christian B, Wohl, Shirlee, Schaffner, Stephen F., Freije, Catherine A, Winnicki, Sarah, West, Kendra, Qu, J, Baniecki, Mary Lynn, Gladden-Young, Adrianne, Lin, Aaron E., Christopher, Tomkins-Tinch, Ye, S.H, Park, Daniel J, Luo, Cynthia, Barnes, Kayla G, Shah, R.R., Chak, Bridget, Barbosa-Lima, G., Delatorre, E., Vieira, Y.R., Paul, Lauren M, Tan, Amanda L, Barcellona, Carolyn M, Porcelli, Mario C, Vasquez, Chalmers, Cannons, Andrew C, Cone, Marshall R, Hogan, Kelly N, Kopp IV, Edgar W, Anzinger, J.J., Garcia, K.F., Parhap, L.A., Gelvez Ramirez, R.M., Montoya, Miranda, Rojas, D.P., Brown, C.M., Hennigan, S., Sabina, B., Scotland, S., Gangavarapu, K., Grubaugh, N.D., Oliveira, G., Robles-Sikisaka, R., Rambaut, Andrew, Gehrke, L., Smole, S., Halloran, M.E., Villar Centeno, L.A., Mattar, S., Lorenzana, I., Cerbino-Neto, J., Valim, C., Degrave, W., Bozza, P.T., Souza, T.M.L., Bosch, I., Yozwiak, N.L., MacInnis, B.L., and Sabeti, P.C.

Abstract

Despite great attention given to the recent Zika virus (ZIKV) epidemic in the Americas and its link to birth defects1,2, much remains unknown about ZIKV disease epidemiology and ZIKV evolution, in part due to a lack of genomic data. We applied multiple sequencing approaches to generate 110 ZIKV genomes from clinical and mosquito samples from 10 countries and territories, greatly expanding the observed viral genetic diversity from this outbreak. We analyzed the timing and patterns of introductions into distinct geographic regions; our phylogenetic evidence suggests rapid expansion of the outbreak in Brazil and multiple introductions of outbreak strains into Puerto Rico, Honduras, Colombia, other Caribbean islands, and the continental US. We find that ZIKV circulated undetected in multiple regions for many months before the first locally transmitted cases were confirmed, highlighting the importance of viral surveillance. We identify mutations with possible functional implications for ZIKV biology and pathogenesis, as well as those potentially relevant to the effectiveness of diagnostic tests.

Published
2017
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8. Eastern equine encephalitis in children, Massachusetts and New Hampshire,USA, 1970-2010.

Author

Silverman MA, Misasi J, Smole S, Feldman HA, Cohen AB, Santagata S, McManus M, Ahmed AA, Silverman, Michael A, Misasi, John, Smole, Sandra, Feldman, Henry A, Cohen, Adam B, Santagata, Sandro, McManus, Michael, and Ahmed, Asim A

Abstract

We describe the clinical, laboratory, and radiographic characteristics of 15 cases of eastern equine encephalitis in children during 1970-2010. The most common clinical and laboratory features were fever, headache, seizures, peripheral leukocytosis, and cerebrospinal fluid neutrophilic pleocytosis. Radiographic lesions were found in the basal ganglia, thalami, and cerebral cortex. Clinical outcomes included severe neurologic deficits in 5 (33%) patients, death of 4 (27%), full recovery of 4 (27%), and mild neurologic deficits in 2 (13%). We identify an association between a short prodrome and an increased risk for death or for severe disease. [ABSTRACT FROM AUTHOR]

Published
2013
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10. Burkholderia pseudomallei infection in a child with cystic fibrosis: acquisition in the Western Hemisphere.

Author

O'Sullivan BP, Torres B, Conidi G, Smole S, Gauthier C, Stauffer KE, Glass MB, Gee JE, Blaney D, Smith TL, O'Sullivan, Brian P, Torres, Brenda, Conidi, Giuseppe, Smole, Sandra, Gauthier, Cheryl, Stauffer, Kendra E, Glass, Mindy B, Gee, Jay E, Blaney, David, and Smith, Theresa L

Abstract

Melioidosis, an infection caused by the bacterium Burkholderia pseudomallei, is endemic to Southeast Asia and northern Australia but is only very rarely seen in patients in the United States. We report pulmonary B pseudomallei infection in a young girl with cystic fibrosis (CF) who had never traveled to Asia or Australia. Biochemical and epidemiologic investigation determined Aruba as the likely site of disease acquisition. This report highlights the ability of patients with CF to acquire this organism outside of Southeast Asia and describes an aggressive treatment regimen that has kept this patient culture-negative for the organism over a long period of time. [ABSTRACT FROM AUTHOR]

Published
2011
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13. Neuroinvasive Bacillus cereus Infection in Immunocompromised Hosts: Epidemiologic Investigation of 5 Patients With Acute Myeloid Leukemia.

Author

Little JS, Coughlin C, Hsieh C, Lanza M, Huang WY, Kumar A, Dandawate T, Tucker R, Gable P, Vazquez Deida AA, Moulton-Meissner H, Stevens V, McAllister G, Ewing T, Diaz M, Glowicz J, Winkler ML, Pecora N, Kubiak DW, Pearson JC, Luskin MR, Sherman AC, Woolley AE, Brandeburg C, Bolstorff B, McHale E, Fortes E, Doucette M, Smole S, Bunnell C, Gross A, Platt D, Desai S, Fiumara K, Issa NC, Baden LR, Rhee C, Klompas M, and Baker MA

Abstract

Background: Bacillus cereus is a ubiquitous gram-positive rod-shaped bacterium that can cause sepsis and neuroinvasive disease in patients with acute leukemia or neutropenia., Methods: A single-center retrospective review was conducted to evaluate patients with acute leukemia, positive blood or cerebrospinal fluid test results for B cereus , and abnormal neuroradiographic findings between January 2018 and October 2022. Infection control practices were observed, environmental samples obtained, a dietary case-control study completed, and whole genome sequencing performed on environmental and clinical Bacillus isolates., Results: Five patients with B cereus neuroinvasive disease were identified. All patients had acute myeloid leukemia (AML), were receiving induction chemotherapy, and were neutropenic. Neurologic involvement included subarachnoid or intraparenchymal hemorrhage or brain abscess. All patients were treated with ciprofloxacin and survived with limited or no neurologic sequelae. B cereus was identified in 7 of 61 environmental samples and 1 of 19 dietary protein samples-these were unrelated to clinical isolates via sequencing. No point source was identified. Ciprofloxacin was added to the empiric antimicrobial regimen for patients with AML and prolonged or recurrent neutropenic fevers; no new cases were identified in the ensuing year., Conclusions: B cereus is ubiquitous in the hospital environment, at times leading to clusters with unrelated isolates. Fastidious infection control practices addressing a range of possible exposures are warranted, but their efficacy is unknown and they may not be sufficient to prevent all infections. Thus, including B cereus coverage in empiric regimens for patients with AML and persistent neutropenic fever may limit the morbidity of this pathogen., Competing Interests: Potential conflicts of interest. M. K.: royalties from UpToDate. All other authors report no potential conflicts., (© The Author(s) 2024. Published by Oxford University Press on behalf of Infectious Diseases Society of America.)

Published
2024
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14. Dynamics of eastern equine encephalitis virus during the 2019 outbreak in the Northeast United States.

Author

Hill V, Koch RT, Bialosuknia SM, Ngo K, Zink SD, Koetzner CA, Maffei JG, Dupuis AP, Backenson PB, Oliver J, Bransfield AB, Misencik MJ, Petruff TA, Shepard JJ, Warren JL, Gill MS, Baele G, Vogels CBF, Gallagher G, Burns P, Hentoff A, Smole S, Brown C, Osborne M, Kramer LD, Armstrong PM, Ciota AT, and Grubaugh ND

Subjects
Animals, Horses, Humans, Mosquito Vectors, Massachusetts epidemiology, Disease Outbreaks veterinary, Encephalitis Virus, Eastern Equine genetics, Encephalomyelitis, Equine epidemiology, Encephalomyelitis, Equine veterinary, Culicidae, Songbirds
Abstract

Eastern equine encephalitis virus (EEEV) causes a rare but severe disease in horses and humans and is maintained in an enzootic transmission cycle between songbirds and Culiseta melanura mosquitoes. In 2019, the largest EEEV outbreak in the United States for more than 50 years occurred, centered in the Northeast. To explore the dynamics of the outbreak, we sequenced 80 isolates of EEEV and combined them with existing genomic data. We found that, similar to previous years, cases were driven by multiple independent but short-lived virus introductions into the Northeast from Florida. Once in the Northeast, we found that Massachusetts was important for regional spread. We found no evidence of any changes in viral, human, or bird factors which would explain the increase in cases in 2019, although the ecology of EEEV is complex and further data is required to explore these in more detail. By using detailed mosquito surveillance data collected by Massachusetts and Connecticut, however, we found that the abundance of Cs. melanura was exceptionally high in 2019, as was the EEEV infection rate. We employed these mosquito data to build a negative binomial regression model and applied it to estimate early season risks of human or horse cases. We found that the month of first detection of EEEV in mosquito surveillance data and vector index (abundance multiplied by infection rate) were predictive of cases later in the season. We therefore highlight the importance of mosquito surveillance programs as an integral part of public health and disease control., Competing Interests: Declaration of interests The authors declare no conflicts of interest related to this work., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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15. Development of an amplicon-based sequencing approach in response to the global emergence of mpox.

Author

Chen NFG, Chaguza C, Gagne L, Doucette M, Smole S, Buzby E, Hall J, Ash S, Harrington R, Cofsky S, Clancy S, Kapsak CJ, Sevinsky J, Libuit K, Park DJ, Hemarajata P, Garrigues JM, Green NM, Sierra-Patev S, Carpenter-Azevedo K, Huard RC, Pearson C, Incekara K, Nishimura C, Huang JP, Gagnon E, Reever E, Razeq J, Muyombwe A, Borges V, Ferreira R, Sobral D, Duarte S, Santos D, Vieira L, Gomes JP, Aquino C, Savino IM, Felton K, Bajwa M, Hayward N, Miller H, Naumann A, Allman R, Greer N, Fall A, Mostafa HH, McHugh MP, Maloney DM, Dewar R, Kenicer J, Parker A, Mathers K, Wild J, Cotton S, Templeton KE, Churchwell G, Lee PA, Pedrosa M, McGruder B, Schmedes S, Plumb MR, Wang X, Barcellos RB, Godinho FMS, Salvato RS, Ceniseros A, Breban MI, Grubaugh ND, Gallagher GR, and Vogels CBF

Subjects
Humans, Pandemics, SARS-CoV-2 genetics, Genomics, COVID-19 epidemiology, Mpox, Monkeypox, Zika Virus, Zika Virus Infection
Abstract

The 2022 multicountry mpox outbreak concurrent with the ongoing Coronavirus Disease 2019 (COVID-19) pandemic further highlighted the need for genomic surveillance and rapid pathogen whole-genome sequencing. While metagenomic sequencing approaches have been used to sequence many of the early mpox infections, these methods are resource intensive and require samples with high viral DNA concentrations. Given the atypical clinical presentation of cases associated with the outbreak and uncertainty regarding viral load across both the course of infection and anatomical body sites, there was an urgent need for a more sensitive and broadly applicable sequencing approach. Highly multiplexed amplicon-based sequencing (PrimalSeq) was initially developed for sequencing of Zika virus, and later adapted as the main sequencing approach for Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2). Here, we used PrimalScheme to develop a primer scheme for human monkeypox virus that can be used with many sequencing and bioinformatics pipelines implemented in public health laboratories during the COVID-19 pandemic. We sequenced clinical specimens that tested presumptively positive for human monkeypox virus with amplicon-based and metagenomic sequencing approaches. We found notably higher genome coverage across the virus genome, with minimal amplicon drop-outs, in using the amplicon-based sequencing approach, particularly in higher PCR cycle threshold (Ct) (lower DNA titer) samples. Further testing demonstrated that Ct value correlated with the number of sequencing reads and influenced the percent genome coverage. To maximize genome coverage when resources are limited, we recommend selecting samples with a PCR Ct below 31 Ct and generating 1 million sequencing reads per sample. To support national and international public health genomic surveillance efforts, we sent out primer pool aliquots to 10 laboratories across the United States, United Kingdom, Brazil, and Portugal. These public health laboratories successfully implemented the human monkeypox virus primer scheme in various amplicon sequencing workflows and with different sample types across a range of Ct values. Thus, we show that amplicon-based sequencing can provide a rapidly deployable, cost-effective, and flexible approach to pathogen whole-genome sequencing in response to newly emerging pathogens. Importantly, through the implementation of our primer scheme into existing SARS-CoV-2 workflows and across a range of sample types and sequencing platforms, we further demonstrate the potential of this approach for rapid outbreak response., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: NDG is a consultant for Tempus Labs and the National Basketball Association for work related to COVID-19. All other authors have declared that no competing interests exist., (Copyright: © 2023 Chen et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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16. Development of an amplicon-based sequencing approach in response to the global emergence of human monkeypox virus.

Author

Chen NFG, Chaguza C, Gagne L, Doucette M, Smole S, Buzby E, Hall J, Ash S, Harrington R, Cofsky S, Clancy S, Kapsak CJ, Sevinsky J, Libuit K, Park DJ, Hemarajata P, Garrigues JM, Green NM, Sierra-Patev S, Carpenter-Azevedo K, Huard RC, Pearson C, Incekara K, Nishimura C, Huang JP, Gagnon E, Reever E, Razeq J, Muyombwe A, Borges V, Ferreira R, Sobral D, Duarte S, Santos D, Vieira L, Gomes JP, Aquino C, Savino IM, Felton K, Bajwa M, Hayward N, Miller H, Naumann A, Allman R, Greer N, Fall A, Mostafa HH, McHugh MP, Maloney DM, Dewar R, Kenicer J, Parker A, Mathers K, Wild J, Cotton S, Templeton KE, Churchwell G, Lee PA, Pedrosa M, McGruder B, Schmedes S, Plumb MR, Wang X, Barcellos RB, Godinho FMS, Salvato RS, Ceniseros A, Breban MI, Grubaugh ND, Gallagher GR, and Vogels CBF

Abstract

The 2022 multi-country monkeypox (mpox) outbreak concurrent with the ongoing COVID-19 pandemic has further highlighted the need for genomic surveillance and rapid pathogen whole genome sequencing. While metagenomic sequencing approaches have been used to sequence many of the early mpox infections, these methods are resource intensive and require samples with high viral DNA concentrations. Given the atypical clinical presentation of cases associated with the outbreak and uncertainty regarding viral load across both the course of infection and anatomical body sites, there was an urgent need for a more sensitive and broadly applicable sequencing approach. Highly multiplexed amplicon-based sequencing (PrimalSeq) was initially developed for sequencing of Zika virus, and later adapted as the main sequencing approach for SARS-CoV-2. Here, we used PrimalScheme to develop a primer scheme for human monkeypox virus that can be used with many sequencing and bioinformatics pipelines implemented in public health laboratories during the COVID-19 pandemic. We sequenced clinical samples that tested presumptive positive for human monkeypox virus with amplicon-based and metagenomic sequencing approaches. We found notably higher genome coverage across the virus genome, with minimal amplicon drop-outs, in using the amplicon-based sequencing approach, particularly in higher PCR cycle threshold (lower DNA titer) samples. Further testing demonstrated that Ct value correlated with the number of sequencing reads and influenced the percent genome coverage. To maximize genome coverage when resources are limited, we recommend selecting samples with a PCR cycle threshold below 31 Ct and generating 1 million sequencing reads per sample. To support national and international public health genomic surveillance efforts, we sent out primer pool aliquots to 10 laboratories across the United States, United Kingdom, Brazil, and Portugal. These public health laboratories successfully implemented the human monkeypox virus primer scheme in various amplicon sequencing workflows and with different sample types across a range of Ct values. Thus, we show that amplicon based sequencing can provide a rapidly deployable, cost-effective, and flexible approach to pathogen whole genome sequencing in response to newly emerging pathogens. Importantly, through the implementation of our primer scheme into existing SARS-CoV-2 workflows and across a range of sample types and sequencing platforms, we further demonstrate the potential of this approach for rapid outbreak response.

Published
2023
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17. Multiple lineages of monkeypox virus detected in the United States, 2021-2022.

Author

Gigante CM, Korber B, Seabolt MH, Wilkins K, Davidson W, Rao AK, Zhao H, Smith TG, Hughes CM, Minhaj F, Waltenburg MA, Theiler J, Smole S, Gallagher GR, Blythe D, Myers R, Schulte J, Stringer J, Lee P, Mendoza RM, Griffin-Thomas LA, Crain J, Murray J, Atkinson A, Gonzalez AH, Nash J, Batra D, Damon I, McQuiston J, Hutson CL, McCollum AM, and Li Y

Subjects
Humans, Nigeria epidemiology, United States epidemiology, Mutation, Evolution, Molecular, Adenosine genetics, Cytidine genetics, Mpox, Monkeypox enzymology, Mpox, Monkeypox virology, Monkeypox virus genetics, Monkeypox virus isolation & purification, APOBEC Deaminases metabolism, Host-Pathogen Interactions, RNA Editing
Abstract

Monkeypox is a viral zoonotic disease endemic in Central and West Africa. In May 2022, dozens of non-endemic countries reported hundreds of monkeypox cases, most with no epidemiological link to Africa. We identified two lineages of monkeypox virus (MPXV) among two 2021 and seven 2022 US monkeypox cases: the major 2022 outbreak variant called B.1 and a minor contemporaneously sampled variant called A.2. Analyses of mutations among these two variants revealed an extreme preference for GA-to-AA mutations indicative of human APOBEC3 cytosine deaminase activity among Clade IIb MPXV (previously West African, Nigeria) sampled since 2017. Such mutations were not enriched within other MPXV clades. These findings suggest that APOBEC3 editing may be a recurrent and a dominant driver of MPXV evolution within the current outbreak.

Published
2022
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18. Transmission from vaccinated individuals in a large SARS-CoV-2 Delta variant outbreak.

Author

Siddle KJ, Krasilnikova LA, Moreno GK, Schaffner SF, Vostok J, Fitzgerald NA, Lemieux JE, Barkas N, Loreth C, Specht I, Tomkins-Tinch CH, Paull JS, Schaeffer B, Taylor BP, Loftness B, Johnson H, Schubert PL, Shephard HM, Doucette M, Fink T, Lang AS, Baez S, Beauchamp J, Hennigan S, Buzby E, Ash S, Brown J, Clancy S, Cofsky S, Gagne L, Hall J, Harrington R, Gionet GL, DeRuff KC, Vodzak ME, Adams GC, Dobbins ST, Slack SD, Reilly SK, Anderson LM, Cipicchio MC, DeFelice MT, Grimsby JL, Anderson SE, Blumenstiel BS, Meldrim JC, Rooke HM, Vicente G, Smith NL, Messer KS, Reagan FL, Mandese ZM, Lee MD, Ray MC, Fisher ME, Ulcena MA, Nolet CM, English SE, Larkin KL, Vernest K, Chaluvadi S, Arvidson D, Melchiono M, Covell T, Harik V, Brock-Fisher T, Dunn M, Kearns A, Hanage WP, Bernard C, Philippakis A, Lennon NJ, Gabriel SB, Gallagher GR, Smole S, Madoff LC, Brown CM, Park DJ, MacInnis BL, and Sabeti PC

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, COVID-19 virology, Child, Child, Preschool, Contact Tracing methods, Disease Outbreaks, Female, Genome, Viral, Humans, Infant, Infant, Newborn, Male, Massachusetts epidemiology, Middle Aged, Molecular Epidemiology, Phylogeny, SARS-CoV-2 classification, Vaccination, Whole Genome Sequencing, Young Adult, COVID-19 epidemiology, COVID-19 immunology, COVID-19 transmission, SARS-CoV-2 genetics, SARS-CoV-2 immunology
Abstract

An outbreak of over 1,000 COVID-19 cases in Provincetown, Massachusetts (MA), in July 2021-the first large outbreak mostly in vaccinated individuals in the US-prompted a comprehensive public health response, motivating changes to national masking recommendations and raising questions about infection and transmission among vaccinated individuals. To address these questions, we combined viral genomic and epidemiological data from 467 individuals, including 40% of outbreak-associated cases. The Delta variant accounted for 99% of cases in this dataset; it was introduced from at least 40 sources, but 83% of cases derived from a single source, likely through transmission across multiple settings over a short time rather than a single event. Genomic and epidemiological data supported multiple transmissions of Delta from and between fully vaccinated individuals. However, despite its magnitude, the outbreak had limited onward impact in MA and the US overall, likely due to high vaccination rates and a robust public health response., Competing Interests: Declaration of interests P.C.S. is a co-founder of, shareholder in, and scientific advisor to Sherlock Biosciences, as well as a board member of and shareholder in Danaher Corporation. J.E.L. has received consulting fees from Sherlock Biosciences. A.P. is a venture partner at Google Ventures. W.P.H. is a member of the scientific advisory board of Biobot. Other authors report no competing interests., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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19. Cross-Sectional Assessment of SARS-CoV-2 Viral Load by Symptom Status in Massachusetts Congregate Living Facilities.

Author

Lennon NJ, Bhattacharyya RP, Mina MJ, Rehm HL, Hung DT, Smole S, Woolley A, Lander ES, and Gabriel SB

Subjects
Cross-Sectional Studies, Humans, Reverse Transcriptase Polymerase Chain Reaction, Viral Load, COVID-19 diagnosis, SARS-CoV-2
Abstract

Transmission of coronavirus disease 2019 (COVID-19) from people without symptoms confounds societal mitigation strategies. From April to June 2020, we tested nasopharyngeal swabs by reverse transcriptase quantitative polymerase chain reaction (RT-qPCR) from 15 514 staff and 16 966 residents of nursing homes and assisted living facilities in Massachusetts. Cycle threshold (Ct) distributions were very similar between populations with (n = 739) and without (n = 2179) symptoms at the time of sampling (mean Ct, 25.7 vs 26.4; ranges 12-38). However, as local cases waned, those without symptoms shifted towards higher Ct. With such similar viral load distributions, existing testing modalities should perform comparably regardless of symptoms, contingent upon time since infection., (© The Author(s) 2021. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published
2021
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20. Transmission of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) From Asymptomatic and Presymptomatic Individuals in Healthcare Settings Despite Medical Masks and Eye Protection.

Author

Klompas M, Baker MA, Griesbach D, Tucker R, Gallagher GR, Lang AS, Fink T, Cumming M, Smole S, Madoff LC, and Rhee C

Subjects
Delivery of Health Care, Humans, Masks, COVID-19, SARS-CoV-2
Abstract

We describe 3 instances of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) transmission despite medical masks and eye protection, including transmission despite the source person being masked, transmission despite the exposed person being masked, and transmission despite both parties being masked. Whole genome sequencing confirmed perfect homology between source and exposed persons' viruses in all cases., (© The Author(s) 2021. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published
2021
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21. Evidence of transmission from fully vaccinated individuals in a large outbreak of the SARS-CoV-2 Delta variant in Provincetown, Massachusetts.

Author

Siddle KJ, Krasilnikova LA, Moreno GK, Schaffner SF, Vostok J, Fitzgerald NA, Lemieux JE, Barkas N, Loreth C, Specht I, Tomkins-Tinch CH, Silbert J, Schaeffer B, Taylor BP, Loftness B, Johnson H, Schubert PL, Shephard HM, Doucette M, Fink T, Lang AS, Baez S, Beauchamp J, Hennigan S, Buzby E, Ash S, Brown J, Clancy S, Cofsky S, Gagne L, Hall J, Harrington R, Gionet GL, DeRuff KC, Vodzak ME, Adams GC, Dobbins ST, Slack SD, Reilly SK, Anderson LM, Cipicchio MC, DeFelice MT, Grimsby JL, Anderson SE, Blumenstiel BS, Meldrim JC, Rooke HM, Vicente G, Smith NL, Messer KS, Reagan FL, Mandese ZM, Lee MD, Ray MC, Fisher ME, Ulcena MA, Nolet CM, English SE, Larkin KL, Vernest K, Chaluvadi S, Arvidson D, Melchiono M, Covell T, Harik V, Brock-Fisher T, Dunn M, Kearns A, Hanage WP, Bernard C, Philippakis A, Lennon NJ, Gabriel SB, Gallagher GR, Smole S, Madoff LC, Brown CM, Park DJ, MacInnis BL, and Sabeti PC

Abstract

Multiple summer events, including large indoor gatherings, in Provincetown, Massachusetts (MA), in July 2021 contributed to an outbreak of over one thousand COVID-19 cases among residents and visitors. Most cases were fully vaccinated, many of whom were also symptomatic, prompting a comprehensive public health response, motivating changes to national masking recommendations, and raising questions about infection and transmission among vaccinated individuals. To characterize the outbreak and the viral population underlying it, we combined genomic and epidemiological data from 467 individuals, including 40% of known outbreak-associated cases. The Delta variant accounted for 99% of sequenced outbreak-associated cases. Phylogenetic analysis suggests over 40 sources of Delta in the dataset, with one responsible for a single cluster containing 83% of outbreak-associated genomes. This cluster was likely not the result of extensive spread at a single site, but rather transmission from a common source across multiple settings over a short time. Genomic and epidemiological data combined provide strong support for 25 transmission events from, including many between, fully vaccinated individuals; genomic data alone provides evidence for an additional 64. Together, genomic epidemiology provides a high-resolution picture of the Provincetown outbreak, revealing multiple cases of transmission of Delta from fully vaccinated individuals. However, despite its magnitude, the outbreak was restricted in its onward impact in MA and the US, likely due to high vaccination rates and a robust public health response.

Published
2021
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22. A SARS-CoV-2 Cluster in an Acute Care Hospital.

Author

Klompas M, Baker MA, Rhee C, Tucker R, Fiumara K, Griesbach D, Bennett-Rizzo C, Salmasian H, Wang R, Wheeler N, Gallagher GR, Lang AS, Fink T, Baez S, Smole S, Madoff L, Goralnick E, Resnick A, Pearson M, Britton K, Sinclair J, and Morris CA

Subjects
Adult, Boston epidemiology, COVID-19 Testing, Case-Control Studies, Disease Outbreaks, Female, Humans, Male, Personal Protective Equipment, Pneumonia, Viral virology, Risk Factors, SARS-CoV-2, COVID-19 epidemiology, COVID-19 transmission, Cross Infection epidemiology, Infection Control methods, Infectious Disease Transmission, Patient-to-Professional, Pneumonia, Viral epidemiology, Pneumonia, Viral transmission
Abstract

Background: Little is known about clusters of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection in acute care hospitals., Objective: To describe the detection, mitigation, and analysis of a large cluster of SARS-CoV-2 infections in an acute care hospital with mature infection control policies., Design: Descriptive study., Setting: Brigham and Women's Hospital, Boston, Massachusetts., Participants: Patients and staff with cluster-related SARS-CoV-2 infections., Intervention: Close contacts of infected patients and staff were identified and tested every 3 days, patients on affected units were preemptively isolated and repeatedly tested, affected units were cleaned, room ventilation was measured, and specimens were sent for whole-genome sequencing. A case-control study was done to compare clinical interactions, personal protective equipment use, and breakroom and workroom practices in SARS-CoV-2-positive versus negative staff., Measurements: Description of the cluster, mitigation activities, and risk factor analysis., Results: Fourteen patients and 38 staff members were included in the cluster per whole-genome sequencing and epidemiologic associations. The index case was a symptomatic patient in whom isolation was discontinued after 2 negative results on nasopharyngeal polymerase chain reaction testing. The patient subsequently infected multiple roommates and staff, who then infected others. Seven of 52 (13%) secondary infections were detected only on second or subsequent tests. Eight of 9 (89%) patients who shared rooms with potentially contagious patients became infected. Potential contributing factors included high viral loads, nebulization, and positive pressure in the index patient's room. Risk factors for transmission to staff included presence during nebulization, caring for patients with dyspnea or cough, lack of eye protection, at least 15 minutes of exposure to case patients, and interactions with SARS-CoV-2-positive staff in clinical areas. Whole-genome sequencing confirmed that 2 staff members were infected despite wearing surgical masks and eye protection., Limitation: Findings may not be generalizable., Conclusion: SARS-CoV-2 clusters can occur in hospitals despite robust infection control policies. Insights from this cluster may inform additional measures to protect patients and staff., Primary Funding Source: None.

Published
2021
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23. Phylogenetic analysis of SARS-CoV-2 in Boston highlights the impact of superspreading events.

Author

Lemieux JE, Siddle KJ, Shaw BM, Loreth C, Schaffner SF, Gladden-Young A, Adams G, Fink T, Tomkins-Tinch CH, Krasilnikova LA, DeRuff KC, Rudy M, Bauer MR, Lagerborg KA, Normandin E, Chapman SB, Reilly SK, Anahtar MN, Lin AE, Carter A, Myhrvold C, Kemball ME, Chaluvadi S, Cusick C, Flowers K, Neumann A, Cerrato F, Farhat M, Slater D, Harris JB, Branda JA, Hooper D, Gaeta JM, Baggett TP, O'Connell J, Gnirke A, Lieberman TD, Philippakis A, Burns M, Brown CM, Luban J, Ryan ET, Turbett SE, LaRocque RC, Hanage WP, Gallagher GR, Madoff LC, Smole S, Pierce VM, Rosenberg E, Sabeti PC, Park DJ, and MacInnis BL

Subjects
Boston epidemiology, COVID-19 transmission, Disease Outbreaks, Epidemiological Monitoring, Humans, COVID-19 epidemiology, Genome, Viral, Phylogeny, SARS-CoV-2 genetics
Abstract

Analysis of 772 complete severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) genomes from early in the Boston-area epidemic revealed numerous introductions of the virus, a small number of which led to most cases. The data revealed two superspreading events. One, in a skilled nursing facility, led to rapid transmission and significant mortality in this vulnerable population but little broader spread, whereas other introductions into the facility had little effect. The second, at an international business conference, produced sustained community transmission and was exported, resulting in extensive regional, national, and international spread. The two events also differed substantially in the genetic variation they generated, suggesting varying transmission dynamics in superspreading events. Our results show how genomic epidemiology can help to understand the link between individual clusters and wider community spread., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published
2021
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24. Jamestown Canyon virus in Massachusetts: clinical case series and vector screening.

Author

Kinsella CM, Paras ML, Smole S, Mehta S, Ganesh V, Chen LH, McQuillen DP, Shah R, Chan J, Osborne M, Hennigan S, Halpern-Smith F, Brown CM, Sabeti P, and Piantadosi A

Subjects
Adult, Aged, Animals, Disease Vectors, Encephalitis diagnosis, Female, Genome, Viral, Humans, Male, Massachusetts epidemiology, Meningitis diagnosis, Middle Aged, Mosquito Vectors virology, Phylogeny, Prevalence, RNA, Viral, Culicidae virology, Encephalitis virology, Encephalitis Virus, California genetics, Encephalitis Virus, California immunology, Encephalitis Virus, California isolation & purification, Meningitis virology, Ochlerotatus virology
Abstract

Jamestown Canyon virus (JCV) is a neuroinvasive arbovirus that is found throughout North America and increasingly recognized as a public health concern. From 2004 to 2012, an average of 1.7 confirmed cases were reported annually in the United States, whereas from 2013 to 2018 this figure increased over seventeen-fold to 29.2 cases per year. The rising number of reported human infections highlights the need for better understanding of the clinical manifestations and epidemiology of JCV. Here, we describe nine patients diagnosed with neuroinvasive JCV infection in Massachusetts from 2013, the year of the first reported case in the state, to 2017. Because current diagnostic testing relies on serology, which is complicated by cross-reactivity with related orthobunyaviruses and can be negative in immunosuppressed patients, we developed and evaluated an RT-qPCR assay for detection of JCV RNA. We tested this on the available archived serum from two patients, but did not detect viral RNA. JCV is transmitted by multiple mosquito species and its primary vector in Massachusetts is unknown, so we additionally applied the RT-qPCR assay and confirmatory RNA sequencing to assess JCV prevalence in a vector candidate, Ochlerotatus canadensis . We identified JCV in 0.6% of mosquito pools, a similar prevalence to neighboring Connecticut. We assembled the first Massachusetts JCV genome directly from a mosquito sample, finding high identity to JCV isolates collected over a 60-year period. Further studies are needed to reconcile the low vector prevalence and low rate of viral evolutionary change with the increasing number of reported cases.

Published
2020
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25. Phylogenetic analysis of SARS-CoV-2 in the Boston area highlights the role of recurrent importation and superspreading events.

Author

Lemieux JE, Siddle KJ, Shaw BM, Loreth C, Schaffner SF, Gladden-Young A, Adams G, Fink T, Tomkins-Tinch CH, Krasilnikova LA, DeRuff KC, Rudy M, Bauer MR, Lagerborg KA, Normandin E, Chapman SB, Reilly SK, Anahtar MN, Lin AE, Carter A, Myhrvold C, Kemball ME, Chaluvadi S, Cusick C, Flowers K, Neumann A, Cerrato F, Farhat M, Slater D, Harris JB, Branda J, Hooper D, Gaeta JM, Baggett TP, O'Connell J, Gnirke A, Lieberman TD, Philippakis A, Burns M, Brown CM, Luban J, Ryan ET, Turbett SE, LaRocque RC, Hanage WP, Gallagher GR, Madoff LC, Smole S, Pierce VM, Rosenberg E, Sabeti PC, Park DJ, and Maclnnis BL

Abstract

SARS-CoV-2 has caused a severe, ongoing outbreak of COVID-19 in Massachusetts with 111,070 confirmed cases and 8,433 deaths as of August 1, 2020. To investigate the introduction, spread, and epidemiology of COVID-19 in the Boston area, we sequenced and analyzed 772 complete SARS-CoV-2 genomes from the region, including nearly all confirmed cases within the first week of the epidemic and hundreds of cases from major outbreaks at a conference, a nursing facility, and among homeless shelter guests and staff. The data reveal over 80 introductions into the Boston area, predominantly from elsewhere in the United States and Europe. We studied two superspreading events covered by the data, events that led to very different outcomes because of the timing and populations involved. One produced rapid spread in a vulnerable population but little onward transmission, while the other was a major contributor to sustained community transmission, including outbreaks in homeless populations, and was exported to several other domestic and international sites. The same two events differed significantly in the number of new mutations seen, raising the possibility that SARS-CoV-2 superspreading might encompass disparate transmission dynamics. Our results highlight the failure of measures to prevent importation into MA early in the outbreak, underscore the role of superspreading in amplifying an outbreak in a major urban area, and lay a foundation for contact tracing informed by genetic data., Competing Interests: Competing interests: J.E.L. has received consulting fees from Sherlock Biosciences. J.B. has been a consultant for T2 Biosystems, DiaSorin, and Roche Diagnostics. A.P. is a Venture Partner at Google Ventures. P.C.S. is a co-founder and shareholder of Sherlock Biosciences, and a Board member and shareholder of Danaher Corporation.

Published
2020
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26. Combining genomics and epidemiology to track mumps virus transmission in the United States.

Author

Wohl S, Metsky HC, Schaffner SF, Piantadosi A, Burns M, Lewnard JA, Chak B, Krasilnikova LA, Siddle KJ, Matranga CB, Bankamp B, Hennigan S, Sabina B, Byrne EH, McNall RJ, Shah RR, Qu J, Park DJ, Gharib S, Fitzgerald S, Barreira P, Fleming S, Lett S, Rota PA, Madoff LC, Yozwiak NL, MacInnis BL, Smole S, Grad YH, and Sabeti PC

Subjects
Genotype, Humans, Molecular Epidemiology, Mumps virology, Mumps virus classification, Mutation, Phylogeny, Sequence Analysis, DNA, United States epidemiology, Vaccination statistics & numerical data, Viral Proteins genetics, Disease Outbreaks, Genome, Viral genetics, Mumps epidemiology, Mumps transmission, Mumps virus genetics
Abstract

Unusually large outbreaks of mumps across the United States in 2016 and 2017 raised questions about the extent of mumps circulation and the relationship between these and prior outbreaks. We paired epidemiological data from public health investigations with analysis of mumps virus whole genome sequences from 201 infected individuals, focusing on Massachusetts university communities. Our analysis suggests continuous, undetected circulation of mumps locally and nationally, including multiple independent introductions into Massachusetts and into individual communities. Despite the presence of these multiple mumps virus lineages, the genomic data show that one lineage has dominated in the US since at least 2006. Widespread transmission was surprising given high vaccination rates, but we found no genetic evidence that variants arising during this outbreak contributed to vaccine escape. Viral genomic data allowed us to reconstruct mumps transmission links not evident from epidemiological data or standard single-gene surveillance efforts and also revealed connections between apparently unrelated mumps outbreaks., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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27. Capturing sequence diversity in metagenomes with comprehensive and scalable probe design.

Author

Metsky HC, Siddle KJ, Gladden-Young A, Qu J, Yang DK, Brehio P, Goldfarb A, Piantadosi A, Wohl S, Carter A, Lin AE, Barnes KG, Tully DC, Corleis B, Hennigan S, Barbosa-Lima G, Vieira YR, Paul LM, Tan AL, Garcia KF, Parham LA, Odia I, Eromon P, Folarin OA, Goba A, Simon-Lorière E, Hensley L, Balmaseda A, Harris E, Kwon DS, Allen TM, Runstadler JA, Smole S, Bozza FA, Souza TML, Isern S, Michael SF, Lorenzana I, Gehrke L, Bosch I, Ebel G, Grant DS, Happi CT, Park DJ, Gnirke A, Sabeti PC, and Matranga CB

Subjects
Animals, Culicidae virology, Disease Outbreaks, Gene Library, Genetic Variation, Genomics, High-Throughput Nucleotide Sequencing, Humans, Lassa Fever virology, Nigeria epidemiology, Oligonucleotide Probes, Oligonucleotides genetics, Sequence Analysis, DNA, Virus Diseases, Computational Biology methods, Genome, Viral, Metagenome, Metagenomics
Abstract

Metagenomic sequencing has the potential to transform microbial detection and characterization, but new tools are needed to improve its sensitivity. Here we present CATCH, a computational method to enhance nucleic acid capture for enrichment of diverse microbial taxa. CATCH designs optimal probe sets, with a specified number of oligonucleotides, that achieve full coverage of, and scale well with, known sequence diversity. We focus on applying CATCH to capture viral genomes in complex metagenomic samples. We design, synthesize, and validate multiple probe sets, including one that targets the whole genomes of the 356 viral species known to infect humans. Capture with these probe sets enriches unique viral content on average 18-fold, allowing us to assemble genomes that could not be recovered without enrichment, and accurately preserves within-sample diversity. We also use these probe sets to recover genomes from the 2018 Lassa fever outbreak in Nigeria and to improve detection of uncharacterized viral infections in human and mosquito samples. The results demonstrate that CATCH enables more sensitive and cost-effective metagenomic sequencing.

Published
2019
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28. Comparative analytical evaluation of the respiratory TaqMan Array Card with real-time PCR and commercial multi-pathogen assays.

Author

Harvey JJ, Chester S, Burke SA, Ansbro M, Aden T, Gose R, Sciulli R, Bai J, DesJardin L, Benfer JL, Hall J, Smole S, Doan K, Popowich MD, St George K, Quinlan T, Halse TA, Li Z, Pérez-Osorio AC, Glover WA, Russell D, Reisdorf E, Whyte T Jr, Whitaker B, Hatcher C, Srinivasan V, Tatti K, Tondella ML, Wang X, Winchell JM, Mayer LW, Jernigan D, and Mawle AC

Subjects
Bacteria genetics, Bacteria isolation & purification, Centers for Disease Control and Prevention, U.S., Humans, Microfluidics methods, Microfluidics standards, Real-Time Polymerase Chain Reaction instrumentation, Reproducibility of Results, Respiratory Tract Infections diagnosis, Respiratory Tract Infections microbiology, Respiratory Tract Infections virology, Sensitivity and Specificity, United States, Viruses genetics, Viruses isolation & purification, Oligonucleotide Array Sequence Analysis standards, Real-Time Polymerase Chain Reaction methods, Real-Time Polymerase Chain Reaction standards
Abstract

In this study, a multicenter evaluation of the Life Technologies TaqMan(®) Array Card (TAC) with 21 custom viral and bacterial respiratory assays was performed on the Applied Biosystems ViiA™ 7 Real-Time PCR System. The goal of the study was to demonstrate the analytical performance of this platform when compared to identical individual pathogen specific laboratory developed tests (LDTs) designed at the Centers for Disease Control and Prevention (CDC), equivalent LDTs provided by state public health laboratories, or to three different commercial multi-respiratory panels. CDC and Association of Public Health Laboratories (APHL) LDTs had similar analytical sensitivities for viral pathogens, while several of the bacterial pathogen APHL LDTs demonstrated sensitivities one log higher than the corresponding CDC LDT. When compared to CDC LDTs, TAC assays were generally one to two logs less sensitive depending on the site performing the analysis. Finally, TAC assays were generally more sensitive than their counterparts in three different commercial multi-respiratory panels. TAC technology allows users to spot customized assays and design TAC layout, simplify assay setup, conserve specimen, dramatically reduce contamination potential, and as demonstrated in this study, analyze multiple samples in parallel with good reproducibility between instruments and operators., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2016
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29. First Complete Genome Sequences of Two Keystone Viruses from Florida.

Author

Stockwell TB, Heberlein-Larson LA, Tan Y, Halpin RA, Fedorova N, Katzel DA, Smole S, Unnasch TR, Kramer LD, and Das SR

Abstract

We report here the first complete sequences of two Keystone virus (KEYV) genomes isolated from Florida in 2005, which include the first two publicly available complete large (L) gene sequences. The sequences of the KEYV L segments show 75.99 to 83.86% nucleotide similarity with those of other viruses in the California (CAL) serogroup of bunyaviruses., (Copyright © 2015 Stockwell et al.)

Published
2015
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30. Lack of Transmission among Close Contacts of Patient with Case of Middle East Respiratory Syndrome Imported into the United States, 2014.

Author

Breakwell L, Pringle K, Chea N, Allen D, Allen S, Richards S, Pantones P, Sandoval M, Liu L, Vernon M, Conover C, Chugh R, DeMaria A, Burns R, Smole S, Gerber SI, Cohen NJ, Kuhar D, Haynes LM, Schneider E, Kumar A, Kapoor M, Madrigal M, Swerdlow DL, and Feikin DR

Subjects
Adult, Contact Tracing, Coronavirus Infections virology, Female, Humans, Male, Middle Aged, Risk Assessment, United States, Young Adult, Coronavirus Infections transmission, Middle East Respiratory Syndrome Coronavirus
Abstract

In May 2014, a traveler from the Kingdom of Saudi Arabia was the first person identified with Middle East respiratory syndrome coronavirus (MERS-CoV) infection in the United States. To evaluate transmission risk, we determined the type, duration, and frequency of patient contact among health care personnel (HCP), household, and community contacts by using standard questionnaires and, for HCP, global positioning system (GPS) tracer tag logs. Respiratory and serum samples from all contacts were tested for MERS-CoV. Of 61 identified contacts, 56 were interviewed. HCP exposures occurred most frequently in the emergency department (69%) and among nurses (47%); some HCP had contact with respiratory secretions. Household and community contacts had brief contact (e.g., hugging). All laboratory test results were negative for MERS-CoV. This contact investigation found no secondary cases, despite case-patient contact by 61 persons, and provides useful information about MERS-CoV transmission risk. Compared with GPS tracer tag recordings, self-reported contact may not be as accurate.

Published
2015
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31. Automated influenza-like illness reporting--an efficient adjunct to traditional sentinel surveillance.

Author

Yih WK, Cocoros NM, Crockett M, Klompas M, Kruskal BA, Kulldorff M, Lazarus R, Madoff LC, Morrison MJ, Smole S, and Platt R

Subjects
Adolescent, Adult, Aged, Algorithms, Humans, Infant, Influenza, Human diagnosis, Massachusetts epidemiology, Middle Aged, Sentinel Surveillance, Electronic Health Records, Influenza, Human epidemiology, Population Surveillance methods
Abstract

Objectives: We compared an electronic health record-based influenza-like illness (ILI) surveillance system with manual sentinel surveillance and virologic data to evaluate the utility of the automated system for routine ILI surveillance., Methods: We obtained weekly aggregate ILI reports from the Electronic medical record Support for Public Health (ESP) disease-detection and reporting system, which used an automated algorithm to identify ILI visits among a patient population of about 700,000 in Eastern Massachusetts. The percentage of total visits for ILI ("percent ILI") in ESP, percent ILI in the Massachusetts Department of Public Health's sentinel surveillance system, and percentage of laboratory specimens submitted to participating Massachusetts laboratories that tested positive for influenza were compared for the period October 2007-September 2011. We calculated Spearman's correlation coefficients and compared ESP and sentinel surveillance systems qualitatively, in terms of simplicity, flexibility, data quality, acceptability, timeliness, and usefulness., Results: ESP and sentinel surveillance percent ILI always peaked within one week of each other. There was 80% correlation between the two and 71%-73% correlation with laboratory data. Sentinel surveillance percent ILI was higher than ESP percent ILI during influenza seasons. The amplitude of variation in ESP percent ILI was greatest for 5- to 49-year-olds and typically peaked for the 5- to 24-year-old age group before the others., Conclusions: The ESP system produces percent ILI data of similar quality to sentinel surveillance and offers the advantages of shifting disease reporting burden from clinicians to information systems, allowing tracking of disease by age group, facilitating efficient surveillance for very large populations, and producing consistent and timely reports.

Published
2014
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32. Polymorphic Amplified Typing Sequences (PATS) Strain Typing System Accurately Discriminates a Set of Temporally and Spatially Disparate Escherichia coli O157 Isolates Associated with Human Infection.

Author

Kudva IT, Smole S, Griffin RW, Garren J, Kalia N, Murray M, John M, Timperi R, and Calderwood SB

Abstract

Polymorphic Amplified Typing Sequences (PATS) is a PCR-based Escherichia coli O157 (O157) strain typing system. Here, we show that PATS compares excellently with Pulsed-Field Gel Electrophoresis (PFGE) in that both methods cluster geographically diverse O157 isolates similarly. Comparative analysis of the results obtained in this simulated "blind" study attests to the discriminating power and applicability of PATS to epidemiological/nosocomial situations.

Published
2013
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33. Vector-host interactions and epizootiology of eastern equine encephalitis virus in Massachusetts.

Author

Molaei G, Andreadis TG, Armstrong PM, Thomas MC, Deschamps T, Cuebas-Incle E, Montgomery W, Osborne M, Smole S, Matton P, Andrews W, Best C, Cornine F 3rd, Bidlack E, and Texeira T

Subjects
Animals, Culicidae virology, Cytochromes b genetics, DNA, Viral chemistry, DNA, Viral genetics, Disease Reservoirs, Encephalitis Virus, Eastern Equine genetics, Encephalomyelitis, Equine epidemiology, Encephalomyelitis, Equine virology, Feeding Behavior, Female, Host-Pathogen Interactions, Humans, Insect Vectors virology, Mammals, Massachusetts epidemiology, Mitochondria genetics, Passeriformes, Polymerase Chain Reaction, Sequence Analysis, DNA, Seroepidemiologic Studies, Zoonoses, Culicidae physiology, Encephalitis Virus, Eastern Equine physiology, Encephalomyelitis, Equine veterinary, Insect Vectors physiology
Abstract

Eastern equine encephalitis (EEE) virus is a highly pathogenic mosquito-borne zoonosis that is responsible for outbreaks of severe disease in humans and equines, resulting in high mortality or severe neurological impairment in most survivors. In the northeastern United States, EEE virus is maintained in an enzootic cycle involving the ornithophilic mosquito, Culiseta melanura (Coquillett) and passerine birds in freshwater swamp habitats. To evaluate the role of Cs. melanura and Culiseta morsitans (Theobald) in recent episodes of EEE virus activity in Massachusetts, we collected blood-fed mosquitoes between June, 2007, and October, 2008, from virus foci in 6 counties, and identified the source of blood meals by PCR amplification of mitochondrial cytochrome b gene and sequencing. Analysis of 529 Cs. melanura and 25 Cs. morsitans revealed that nearly 99% and 96% of mosquitoes, respectively, acquired blood meals solely from avian hosts. American Robin, Turdus migratorius Linnaeus was identified as the most common vertebrate host for Cs. melanura (21.7%, n=115), followed by Tufted Titmouse, Baeolophus bicolor (L.) (8.7%, n=46), Black-capped Chickadee, Poecile atricapillus (L.) (8.5%, n=45), Scarlet Tanager, Piranga olivacea (Gmelin) (6.8%, n=36), Field Sparrow, Spizella pusilla (Wilson) (6.2%, n=33), Northern Cardinal, Cardinalis cardinalis (L.) (5.7%, n=30), and other mostly Passeriformes birds. Mammalian-derived blood meals were identified as white-tailed deer, Odocoileus virginianus Zimmermann, domestic cow, Bos taurus L., and human, Homo sapiens L. There were 4 isolations of EEE virus, West Nile virus, and Highland J virus from Cs. melanura. Our results in conjunction with other lines of evidence, including reservoir competency, prevalence of antibody, and infection in nature, suggest that the American Robin, Tufted Titmouse, Black-capped Chickadee, and a few other passerine birds may play key roles in supporting EEE virus transmission in Massachusetts. Infrequent blood feeding of Cs. melanura on mammalian hosts, including humans, also indicates that this mosquito may occasionally contribute to epidemic/epizootic transmission of EEE virus in this region.

Published
2013
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34. Hand, foot, and mouth disease caused by coxsackievirus a6.

Author

Flett K, Youngster I, Huang J, McAdam A, Sandora TJ, Rennick M, Smole S, Rogers SL, Nix WA, Oberste MS, Gellis S, and Ahmed AA

Subjects
Boston epidemiology, Child, Preschool, Enterovirus classification, Female, Hand, Foot and Mouth Disease pathology, Humans, Infant, Male, Disease Outbreaks, Enterovirus genetics, Enterovirus isolation & purification, Hand, Foot and Mouth Disease diagnosis, Hand, Foot and Mouth Disease virology
Published
2012
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35. Signs Observed Among Animal Species Infected with Raccoon Rabies Variant Virus, Massachusetts, USA, 1992-2010.

Author

Wang X, Werner BG, Smole S, Pani V, and Han LL

Abstract

We analyzed signs occurring among domestic and wild terrestrial animal species infected with raccoon rabies variant virus (RRV) in Massachusetts, 1992-2010. The clinical sign of aggression was significantly associated with rabid stray cats (odds ratio, OR = 2.3) and RRV affected major wild terrestrial animal species individually, which included raccoons (OR = 2.8), skunks (OR = 8.0), gray foxes (OR = 21.3), red foxes (OR = 10.4), woodchucks (OR = 4.7) and coyotes (OR = 27.6). While aggression is a useful predictor of rabies among wild animals, combinations of other signs such as ataxia, disorientation, and salivation are useful predictors of rabies among domestic animals. Pets reported with multiple clinical signs had significantly higher rabies positive testing result than those reported with single clinical sign (p < 0.001). The result suggested the importance of avoiding aggressive terrestrial wild animals and giving additional attention to pets with multiple clinical signs.

Published
2011
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36. Enzyme-linked immunospot assay detection of mumps-specific antibody-secreting B cells as an alternative method of laboratory diagnosis.

Author

Latner DR, McGrew M, Williams N, Lowe L, Werman R, Warnock E, Gallagher K, Doyle P, Smole S, Lett S, Cocoros N, DeMaria A, Konomi R, Brown CJ, Rota PA, Bellini WJ, and Hickman CJ

Subjects
Adult, Antibodies, Viral immunology, Antibody-Producing Cells immunology, Humans, Immunologic Memory immunology, Measles immunology, Measles prevention & control, Measles virus immunology, Measles-Mumps-Rubella Vaccine immunology, Middle Aged, Mumps immunology, Mumps prevention & control, Rubella immunology, Rubella prevention & control, Rubella virus immunology, United States, Vaccination, Antibodies, Viral blood, B-Lymphocytes immunology, Enzyme-Linked Immunospot Assay methods, Measles-Mumps-Rubella Vaccine administration & dosage, Mumps diagnosis, Mumps virus immunology
Abstract

Although high measles, mumps, and rubella (MMR) vaccination coverage has been successful in dramatically reducing mumps disease in the United States, mumps (re)infections occasionally occur in individuals who have been either previously vaccinated or naturally infected. Standard diagnostics that detect virus or virus-specific antibody are dependable for confirming primary mumps infection in immunologically naïve persons, but these methods perform inconsistently for individuals with prior immune exposure. We hypothesized that detection of activated mumps-specific antibody-secreting B cells (ASCs) by enzyme-linked immunospot (ELISPOT) assay could be used as a more reliable diagnostic. To test this, a time course of virus-specific ASC responses was measured by ELISPOT assay following MMR vaccination of 16 previously vaccinated or naturally exposed adult volunteers. Mumps-specific ASCs were detectable in 68% of these individuals at some point during the first 3 weeks following revaccination. In addition, mumps-specific ASCs were detected in 7/7 previously vaccinated individuals who recently had been infected as part of a confirmed mumps outbreak. These data suggest that ELISPOT detection of mumps-specific ASCs has the potential for use as an alternative method of diagnosis when suspect cases cannot be confirmed by detection of IgM or virus. In addition, it was determined that mumps-specific memory B cells are detected at a much lower frequency than measles- or rubella-specific cells, suggesting that mumps infection may not generate robust B-cell memory.

Published
2011
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37. Bat rabies in Massachusetts, USA, 1985-2009.

Author

Wang X, DeMaria A, Smole S, Brown CM, and Han L

Subjects
Animals, Massachusetts epidemiology, Rabies epidemiology, Rabies virology, Retrospective Studies, Chiroptera virology, Rabies veterinary, Rabies virus isolation & purification
Abstract

To investigate rabies in Massachusetts, we analyzed bat rabies test results before and after introduction of raccoon variant rabies and after release of revised 1999 US Advisory Committee on Immunization Practices recommendations for rabies postexposure prophylaxis. Bat submissions were associated with level of rabies awareness and specific postexposure recommendations.

Published
2010
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38. Factors associated with rabid animals since the introduction of raccoon rabies variant in Massachusetts, 1992-2007.

Author

Wang X, Smole S, DeMaria A, and Gilchrist MJ

Subjects
Animals, Humans, Logistic Models, Massachusetts epidemiology, Rabies pathology, Raccoons virology, Risk Factors, Animals, Domestic virology, Animals, Wild virology, Rabies diagnosis, Rabies epidemiology
Abstract

Rabies virus has been identified in 26 animal species since the introduction of the raccoon rabies variant (RRV) into the Commonwealth of Massachusetts in 1992. This study used data from 47,162 testable specimens, including 4538 (9.62%) rabid animals, to produce a multi-categorical logistic regression model to identify factors associated with a positive rabies laboratory test. The model was adjusted by the animal type and animal species, using the least tested and the least found rabid animal species pooled as a reference group. The c-statistic for the final model was 0.94, and a receiver operator characteristic curve plot shows the increased sensitivity and the decreased false-positive proportion of the model. Introduction of RRV into the county where the animal was found (OR = 17.3), not up-to-date on vaccination (OR = 3.88), exposure of multiple humans, or pets, or human and pet (OR = 1.88), reason for rabies testing (using human exposure only as the reference group, the odds ratio for both human and animal exposure is 2.14; for pet/companion exposure only is 2.96; and for undefined reasons/sick animal is 1.49), reported syndromes/observation of aggression (OR = 4.13), ataxia (OR = 1.36), disorientation (OR = 1.67), paralysis ( OR = 1.37), and the presence of unexplained wounds (OR = 1.27) were all significantly associated with a positive rabies testing result at the alpha = 0.05 level.

Published
2010
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39. Aggression and rabid coyotes, Massachusetts, USA.

Author

Wang X, Brown CM, Smole S, Werner BG, Han L, Farris M, and DeMaria A

Subjects
Animals, Endemic Diseases, Humans, Massachusetts epidemiology, Population Surveillance, Prevalence, Rabies epidemiology, Rabies psychology, Rabies virus isolation & purification, Aggression, Coyotes, Rabies veterinary
Published
2010
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40. Ruling out novel H1N1 influenza virus infection with direct fluorescent antigen testing.

Author

Pollock NR, Duong S, Cheng A, Han LL, Smole S, and Kirby JE

Subjects
Humans, Influenza, Human virology, Polymerase Chain Reaction, Predictive Value of Tests, Sensitivity and Specificity, Antigens, Viral analysis, Fluorescent Antibody Technique, Direct standards, Influenza A Virus, H1N1 Subtype immunology, Influenza, Human diagnosis
Abstract

We evaluated the ability of direct fluorescent antigen (DFA) influenza tests to identify novel H1N1 influenza virus. DFA results were compared with polymerase chain reaction results. The negative predictive value of DFA testing was at least 96%. Therefore, when performed on specimens of adequate quality, DFA tests can effectively rule out infection due to novel H1N1 virus.

Published
2009
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41. Antigenic and genetic characteristics of swine-origin 2009 A(H1N1) influenza viruses circulating in humans.

Author

Garten RJ, Davis CT, Russell CA, Shu B, Lindstrom S, Balish A, Sessions WM, Xu X, Skepner E, Deyde V, Okomo-Adhiambo M, Gubareva L, Barnes J, Smith CB, Emery SL, Hillman MJ, Rivailler P, Smagala J, de Graaf M, Burke DF, Fouchier RA, Pappas C, Alpuche-Aranda CM, López-Gatell H, Olivera H, López I, Myers CA, Faix D, Blair PJ, Yu C, Keene KM, Dotson PD Jr, Boxrud D, Sambol AR, Abid SH, St George K, Bannerman T, Moore AL, Stringer DJ, Blevins P, Demmler-Harrison GJ, Ginsberg M, Kriner P, Waterman S, Smole S, Guevara HF, Belongia EA, Clark PA, Beatrice ST, Donis R, Katz J, Finelli L, Bridges CB, Shaw M, Jernigan DB, Uyeki TM, Smith DJ, Klimov AI, and Cox NJ

Subjects
Animals, Antibodies, Viral immunology, Antigens, Viral genetics, Disease Outbreaks, Evolution, Molecular, Genes, Viral, Genetic Variation, Genome, Viral, Hemagglutination Inhibition Tests, Hemagglutinin Glycoproteins, Influenza Virus chemistry, Hemagglutinin Glycoproteins, Influenza Virus genetics, Hemagglutinin Glycoproteins, Influenza Virus immunology, Humans, Influenza A Virus, H1N1 Subtype classification, Influenza A Virus, H1N1 Subtype isolation & purification, Influenza A Virus, H3N2 Subtype genetics, Influenza A virus genetics, Influenza, Human epidemiology, Influenza, Human immunology, Mutation, Neuraminidase genetics, Orthomyxoviridae Infections veterinary, Orthomyxoviridae Infections virology, Phylogeny, Reassortant Viruses genetics, Swine, Swine Diseases virology, Viral Matrix Proteins genetics, Viral Nonstructural Proteins genetics, Antigens, Viral immunology, Influenza A Virus, H1N1 Subtype genetics, Influenza A Virus, H1N1 Subtype immunology, Influenza, Human virology
Abstract

Since its identification in April 2009, an A(H1N1) virus containing a unique combination of gene segments from both North American and Eurasian swine lineages has continued to circulate in humans. The lack of similarity between the 2009 A(H1N1) virus and its nearest relatives indicates that its gene segments have been circulating undetected for an extended period. Its low genetic diversity suggests that the introduction into humans was a single event or multiple events of similar viruses. Molecular markers predictive of adaptation to humans are not currently present in 2009 A(H1N1) viruses, suggesting that previously unrecognized molecular determinants could be responsible for the transmission among humans. Antigenically the viruses are homogeneous and similar to North American swine A(H1N1) viruses but distinct from seasonal human A(H1N1).

Published
2009
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42. Submitter and technician observations, and animal rabies detection in Massachusetts, 1992-2006.

Author

Wang X, Smole S, Hennigan D, and Demaria A

Subjects
Animals, Animals, Wild, Chiroptera virology, Logistic Models, Massachusetts epidemiology, Mephitidae, Observer Variation, Paralysis diagnosis, Paralysis epidemiology, Paralysis pathology, Paralysis veterinary, Porcupines, Rabies diagnosis, Rabies epidemiology, Rabies pathology, Species Specificity, Behavior, Animal, Foreign Bodies veterinary, Rabies veterinary
Abstract

A relationship was detected between the submitter and technician observations and animal rabies detection in Massachusetts during 1992-2006 by logistic regression and Fisher exact testing. The results suggested that aggression (OR = 3.94, p < 0.0001), disorientation (OR = 1.17, p = 0.0006), paralysis (OR = 1.22, p = 0.041), unexplained wound (OR = 1.472, p < 0.0001), and found dead (OR = 1.16, p = 0.0089) were independently associated with positive rabies testing results at alpha 0.05 level adjusted by categorized animal species and type of animal. Fisher exact test confirmed the relationship between embedded porcupine quills and skunk spray of rabies-tested animals with positive rabies testing results.

Published
2008
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43. Phyloproteomics: species identification of Enterobacteriaceae using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.

Author

Conway GC, Smole SC, Sarracino DA, Arbeit RD, and Leopold PE

Subjects
Enterobacteriaceae classification, Enterobacteriaceae growth & development, Enterobacteriaceae isolation & purification, Escherichia coli classification, Escherichia coli growth & development, Escherichia coli isolation & purification, Phylogeny, Sensitivity and Specificity, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization instrumentation, Bacterial Proteins analysis, Enterobacteriaceae chemistry, Escherichia coli chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods
Abstract

To evaluate matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-ToF MS) as a tool for rapid identification of common clinical bacterial isolates, we analyzed 25 carefully selected isolates of pathogenic Escherichia coli (E. coli) and additional Enterobacteriaceae members. Organisms were prepared according to clinical microbiological protocols and analyzed with minimal additional processing. Spectra were reproducible from preparation to preparation and comprised 40-100 peaks primarily representing intracellular proteins with masses up to 25 kDa. Spectra of 14 genetically diverse bacteremic isolates of E. coli were compared with isolates representing other genera within the Enterobacteriaceae family. Using a new spectrum comparison algorithm, E. coli isolates were closely related to each other and were readily distinguishable from other Enterobacteriaceae, including Salmonella and Shigella. Presently, the methodology permits the analysis of 40 unknown isolates per hour per instrument. These results suggest that MALDI-ToF MS offers a rapid and reliable approach for performing phyloproteomics i.e., identification of unknown bacterial isolates based on similarities within protein biomarker databases.

Published
2001

44. Sensitivity and specificity of an improved rapid latex agglutination test for identification of methicillin-sensitive and -resistant Staphylococcus aureus isolates.

Author

Smole SC, Aronson E, Durbin A, Brecher SM, and Arbeit RD

Subjects
DNA, Bacterial analysis, Latex Fixation Tests, Nucleic Acid Hybridization, Reagent Kits, Diagnostic, Sensitivity and Specificity, Staphylococcus aureus drug effects, Methicillin Resistance, Staphylococcus aureus isolation & purification
Abstract

The performance of a second-generation rapid agglutination kit, Slidex Staph Plus (SSP; bioMérieux), was compared to those of the Slidex Staph (SS; bioMérieux), Staphaurex (SRX; Murex Diagnostics), and BBL Staphyloslide (BBL; Becton Dickinson) kits by using 508 clinical isolates composed of 150 methicillin-sensitive Staphylococcus aureus (MSSA) organisms, 154 methicillin-resistant S. aureus (MRSA) organisms, and 204 non-S. aureus Staphylococcus spp. Of the 508 isolates tested, 75% were fresh clinical isolates, with the remainder taken from five different freezer collections. All four agglutination tests had comparable sensitivities for MSSA and MRSA. However, the SS kit was significantly less specific (93.1%) than the three other tests (P > 0.05, McNemar test). These results demonstrate that the new rapid latex agglutination kit, SSP, was more specific for the identification of S. aureus than the previous version and performed comparably to the SRX and BBL kits.

Published
1998
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45. Phenotypic and functional activation of monocytes in HIV-1 infection: interactions with neural cells.

Author

Birdsall HH, Trial J, Hallum JA, de Jong AL, Green LK, Bandres JC, Smole SC, Laughter AH, and Rossen RD

Subjects
Acquired Immunodeficiency Syndrome pathology, Antibodies, Monoclonal pharmacology, Antigens, CD analysis, Antigens, CD physiology, CD11 Antigens, Cell Adhesion physiology, Cell Communication physiology, Cell Line, Cell Movement physiology, Endothelium, Vascular cytology, Endothelium, Vascular physiology, Flow Cytometry, HIV Envelope Protein gp120 analysis, HIV Envelope Protein gp120 physiology, Humans, Leukocytes pathology, Leukocytes physiology, Neurons chemistry, Neurons physiology, Phagocytes pathology, Phagocytes physiology, Phenotype, Reactive Oxygen Species metabolism, Receptors, Very Late Antigen analysis, Receptors, Very Late Antigen physiology, Acquired Immunodeficiency Syndrome physiopathology, HIV-1 isolation & purification, Monocytes microbiology, Monocytes pathology, Monocytes physiology, Neurons pathology
Abstract

To investigate mechanisms that facilitate transendothelial migration of HIV-infected leukocytes and their interactions with neural tissues early in the disease, we studied peripheral blood from Centers for Disease Control class A patients. Patients' monocytes displayed increased quantities of the adhesion molecules CD11a, CD11b, and very late antigen 4 (VLA-4). Expression of these correlated directly with the numbers of monocytes that migrated through confluent endothelium. These ligands also mediated leukocyte interactions with cultured human neural cell lines. Although patients' cells bound in greater numbers, there was no evidence of target cell injury. To evaluate the direct effect of HIV-1 on monocyte neuroadhesion, we compared infected with uninfected monocytoid (U-937,THP-1) and T lymphoblastoid (MT-4) cell lines. HIV infection increased the neuroadhesiveness of monocytoid lines only. By using lines with more than 95% HIV-infected cells, we demonstrated that HIV-1 gp120 participates with lymphocyte function-associated antigen 1 and VLA-4 to mediate monocyte-neural cell interactions.

Published
1994
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