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4 results on '"Abelman, Dismas B"'

1. Wastewater sequencing reveals early cryptic SARS-CoV-2 variant transmission

Author

Karthikeyan, Smruthi, Levy, Joshua I, De Hoff, Peter, Humphrey, Greg, Birmingham, Amanda, Jepsen, Kristen, Farmer, Sawyer, Tubb, Helena M, Valles, Tommy, Tribelhorn, Caitlin E, Tsai, Rebecca, Aigner, Stefan, Sathe, Shashank, Moshiri, Niema, Henson, Benjamin, Mark, Adam M, Hakim, Abbas, Baer, Nathan A, Barber, Tom, Belda-Ferre, Pedro, Chacón, Marisol, Cheung, Willi, Cresini, Evelyn S, Eisner, Emily R, Lastrella, Alma L, Lawrence, Elijah S, Marotz, Clarisse A, Ngo, Toan T, Ostrander, Tyler, Plascencia, Ashley, Salido, Rodolfo A, Seaver, Phoebe, Smoot, Elizabeth W, McDonald, Daniel, Neuhard, Robert M, Scioscia, Angela L, Satterlund, Alysson M, Simmons, Elizabeth H, Abelman, Dismas B, Brenner, David, Bruner, Judith C, Buckley, Anne, Ellison, Michael, Gattas, Jeffrey, Gonias, Steven L, Hale, Matt, Hawkins, Faith, Ikeda, Lydia, Jhaveri, Hemlata, Johnson, Ted, Kellen, Vince, Kremer, Brendan, Matthews, Gary, McLawhon, Ronald W, Ouillet, Pierre, Park, Daniel, Pradenas, Allorah, Reed, Sharon, Riggs, Lindsay, Sanders, Alison, Sollenberger, Bradley, Song, Angela, White, Benjamin, Winbush, Terri, Aceves, Christine M, Anderson, Catelyn, Gangavarapu, Karthik, Hufbauer, Emory, Kurzban, Ezra, Lee, Justin, Matteson, Nathaniel L, Parker, Edyth, Perkins, Sarah A, Ramesh, Karthik S, Robles-Sikisaka, Refugio, Schwab, Madison A, Spencer, Emily, Wohl, Shirlee, Nicholson, Laura, McHardy, Ian H, Dimmock, David P, Hobbs, Charlotte A, Bakhtar, Omid, Harding, Aaron, Mendoza, Art, Bolze, Alexandre, Becker, David, Cirulli, Elizabeth T, Isaksson, Magnus, Schiabor Barrett, Kelly M, Washington, Nicole L, Malone, John D, Schafer, Ashleigh Murphy, Gurfield, Nikos, Stous, Sarah, Fielding-Miller, Rebecca, Garfein, Richard S, Gaines, Tommi, Anderson, Cheryl, and Martin, Natasha K

Subjects
Biodefense, Human Genome, Lung, Emerging Infectious Diseases, Vaccine Related, Biotechnology, Genetics, Prevention, Infection, Good Health and Well Being, COVID-19, Humans, RNA, Viral, SARS-CoV-2, Sequence Analysis, RNA, Wastewater, Wastewater-Based Epidemiological Monitoring, General Science & Technology
Abstract

As SARS-CoV-2 continues to spread and evolve, detecting emerging variants early is critical for public health interventions. Inferring lineage prevalence by clinical testing is infeasible at scale, especially in areas with limited resources, participation, or testing and/or sequencing capacity, which can also introduce biases1-3. SARS-CoV-2 RNA concentration in wastewater successfully tracks regional infection dynamics and provides less biased abundance estimates than clinical testing4,5. Tracking virus genomic sequences in wastewater would improve community prevalence estimates and detect emerging variants. However, two factors limit wastewater-based genomic surveillance: low-quality sequence data and inability to estimate relative lineage abundance in mixed samples. Here we resolve these critical issues to perform a high-resolution, 295-day wastewater and clinical sequencing effort, in the controlled environment of a large university campus and the broader context of the surrounding county. We developed and deployed improved virus concentration protocols and deconvolution software that fully resolve multiple virus strains from wastewater. We detected emerging variants of concern up to 14 days earlier in wastewater samples, and identified multiple instances of virus spread not captured by clinical genomic surveillance. Our study provides a scalable solution for wastewater genomic surveillance that allows early detection of SARS-CoV-2 variants and identification of cryptic transmission.

Published
2022

2. Wastewater sequencing uncovers early, cryptic SARS-CoV-2 variant transmission

Author

Karthikeyan, Smruthi, Levy, Joshua I, De Hoff, Peter, Humphrey, Greg, Birmingham, Amanda, Jepsen, Kristen, Farmer, Sawyer, Tubb, Helena M, Valles, Tommy, Tribelhorn, Caitlin E, Tsai, Rebecca, Aigner, Stefan, Sathe, Shashank, Moshiri, Niema, Henson, Benjamin, Mark, Adam M, Hakim, Abbas, Baer, Nathan A, Barber, Tom, Belda-Ferre, Pedro, Chacón, Marisol, Cheung, Willi, Cresini, Evelyn S, Eisner, Emily R, Lastrella, Alma L, Lawrence, Elijah S, Marotz, Clarisse A, Ngo, Toan T, Ostrander, Tyler, Plascencia, Ashley, Salido, Rodolfo A, Seaver, Phoebe, Smoot, Elizabeth W, McDonald, Daniel, Neuhard, Robert M, Scioscia, Angela L, Satterlund, Alysson M, Simmons, Elizabeth H, Abelman, Dismas B, Brenner, David, Bruner, Judith C, Buckley, Anne, Ellison, Michael, Gattas, Jeffrey, Gonias, Steven L, Hale, Matt, Hawkins, Faith, Ikeda, Lydia, Jhaveri, Hemlata, Johnson, Ted, Kellen, Vince, Kremer, Brendan, Matthews, Gary, McLawhon, Ronald W, Ouillet, Pierre, Park, Daniel, Pradenas, Allorah, Reed, Sharon, Riggs, Lindsay, Sanders, Alison, Sollenberger, Bradley, Song, Angela, White, Benjamin, Winbush, Terri, Aceves, Christine M, Anderson, Catelyn, Gangavarapu, Karthik, Hufbauer, Emory, Kurzban, Ezra, Lee, Justin, Matteson, Nathaniel L, Parker, Edyth, Perkins, Sarah A, Ramesh, Karthik S, Robles-Sikisaka, Refugio, Schwab, Madison A, Spencer, Emily, Wohl, Shirlee, Nicholson, Laura, Mchardy, Ian H, Dimmock, David P, Hobbs, Charlotte A, Bakhtar, Omid, Harding, Aaron, Mendoza, Art, Bolze, Alexandre, Becker, David, Cirulli, Elizabeth T, Isaksson, Magnus, Barrett, Kelly M Schiabor, Washington, Nicole L, Malone, John D, Schafer, Ashleigh Murphy, Gurfield, Nikos, Stous, Sarah, Fielding-Miller, Rebecca, Garfein, Richard S, Gaines, Tommi, Anderson, Cheryl, and Martin, Natasha K

Subjects
Vaccine Related, Infectious Diseases, Biodefense, Emerging Infectious Diseases, Lung, Genetics, Human Genome, Clinical Research, Prevention, Biotechnology, Infection, Good Health and Well Being
Abstract

Summary As SARS-CoV-2 continues to spread and evolve, detecting emerging variants early is critical for public health interventions. Inferring lineage prevalence by clinical testing is infeasible at scale, especially in areas with limited resources, participation, or testing/sequencing capacity, which can also introduce biases. SARS-CoV-2 RNA concentration in wastewater successfully tracks regional infection dynamics and provides less biased abundance estimates than clinical testing. Tracking virus genomic sequences in wastewater would improve community prevalence estimates and detect emerging variants. However, two factors limit wastewater-based genomic surveillance: low-quality sequence data and inability to estimate relative lineage abundance in mixed samples. Here, we resolve these critical issues to perform a high-resolution, 295-day wastewater and clinical sequencing effort, in the controlled environment of a large university campus and the broader context of the surrounding county. We develop and deploy improved virus concentration protocols and deconvolution software that fully resolve multiple virus strains from wastewater. We detect emerging variants of concern up to 14 days earlier in wastewater samples, and identify multiple instances of virus spread not captured by clinical genomic surveillance. Our study provides a scalable solution for wastewater genomic surveillance that allows early detection of SARS-CoV-2 variants and identification of cryptic transmission.

Published
2021

3. Wastewater sequencing uncovers early, cryptic SARS-CoV-2 variant transmission

Author

Karthikeyan, Smruthi, primary, Levy, Joshua I, additional, De Hoff, Peter, additional, Humphrey, Greg, additional, Birmingham, Amanda, additional, Jepsen, Kristen, additional, Farmer, Sawyer, additional, Tubb, Helena M., additional, Valles, Tommy, additional, Tribelhorn, Caitlin E, additional, Tsai, Rebecca, additional, Aigner, Stefan, additional, Sathe, Shashank, additional, Moshiri, Niema, additional, Henson, Benjamin, additional, Mark, Adam M., additional, Hakim, Abbas, additional, Baer, Nathan A, additional, Barber, Tom, additional, Belda-Ferre, Pedro, additional, Chacón, Marisol, additional, Cheung, Willi, additional, Cresini, Evelyn S, additional, Eisner, Emily R, additional, Lastrella, Alma L, additional, Lawrence, Elijah S, additional, Marotz, Clarisse A, additional, Ngo, Toan T, additional, Ostrander, Tyler, additional, Plascencia, Ashley, additional, Salido, Rodolfo A, additional, Seaver, Phoebe, additional, Smoot, Elizabeth W, additional, McDonald, Daniel, additional, Neuhard, Robert M, additional, Scioscia, Angela L, additional, Satterlund, Alysson M., additional, Simmons, Elizabeth H, additional, Abelman, Dismas B., additional, Brenner, David, additional, Bruner, Judith C., additional, Buckley, Anne, additional, Ellison, Michael, additional, Gattas, Jeffrey, additional, Gonias, Steven L., additional, Hale, Matt, additional, Hawkins, Faith, additional, Ikeda, Lydia, additional, Jhaveri, Hemlata, additional, Johnson, Ted, additional, Kellen, Vince, additional, Kremer, Brendan, additional, Matthews, Gary, additional, McLawhon, Ronald W., additional, Ouillet, Pierre, additional, Park, Daniel, additional, Pradenas, Allorah, additional, Reed, Sharon, additional, Riggs, Lindsay, additional, Sanders, Alison, additional, Sollenberger, Bradley, additional, Song, Angela, additional, White, Benjamin, additional, Winbush, Terri, additional, Aceves, Christine M, additional, Anderson, Catelyn, additional, Gangavarapu, Karthik, additional, Hufbauer, Emory, additional, Kurzban, Ezra, additional, Lee, Justin, additional, Matteson, Nathaniel L, additional, Parker, Edyth, additional, Perkins, Sarah A, additional, Ramesh, Karthik S, additional, Robles-Sikisaka, Refugio, additional, Schwab, Madison A, additional, Spencer, Emily, additional, Wohl, Shirlee, additional, Nicholson, Laura, additional, Mchardy, Ian H, additional, Dimmock, David P, additional, Hobbs, Charlotte A, additional, Bakhtar, Omid, additional, Harding, Aaron, additional, Mendoza, Art, additional, Bolze, Alexandre, additional, Becker, David, additional, Cirulli, Elizabeth T, additional, Isaksson, Magnus, additional, Schiabor Barrett, Kelly M, additional, Washington, Nicole L, additional, Malone, John D, additional, Schafer, Ashleigh Murphy, additional, Gurfield, Nikos, additional, Stous, Sarah, additional, Fielding-Miller, Rebecca, additional, Garfein, Richard S., additional, Gaines, Tommi, additional, Anderson, Cheryl, additional, Martin, Natasha K., additional, Schooley, Robert, additional, Austin, Brett, additional, MacCannell, Duncan R., additional, Kingsmore, Stephen F, additional, Lee, William, additional, Shah, Seema, additional, McDonald, Eric, additional, Yu, Alexander T., additional, Zeller, Mark, additional, Fisch, Kathleen M, additional, Longhurst, Christopher, additional, Maysent, Patty, additional, Pride, David, additional, Khosla, Pradeep K., additional, Laurent, Louise C., additional, Yeo, Gene W, additional, Andersen, Kristian G, additional, and Knight, Rob, additional

Published
2021
Full Text
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4. Wastewater sequencing uncovers early, cryptic SARS-CoV-2 variant transmission.

Author

Karthikeyan S, Levy JI, De Hoff P, Humphrey G, Birmingham A, Jepsen K, Farmer S, Tubb HM, Valles T, Tribelhorn CE, Tsai R, Aigner S, Sathe S, Moshiri N, Henson B, Mark AM, Hakim A, Baer NA, Barber T, Belda-Ferre P, Chacón M, Cheung W, Cresini ES, Eisner ER, Lastrella AL, Lawrence ES, Marotz CA, Ngo TT, Ostrander T, Plascencia A, Salido RA, Seaver P, Smoot EW, McDonald D, Neuhard RM, Scioscia AL, Satterlund AM, Simmons EH, Abelman DB, Brenner D, Bruner JC, Buckley A, Ellison M, Gattas J, Gonias SL, Hale M, Hawkins F, Ikeda L, Jhaveri H, Johnson T, Kellen V, Kremer B, Matthews G, McLawhon RW, Ouillet P, Park D, Pradenas A, Reed S, Riggs L, Sanders A, Sollenberger B, Song A, White B, Winbush T, Aceves CM, Anderson C, Gangavarapu K, Hufbauer E, Kurzban E, Lee J, Matteson NL, Parker E, Perkins SA, Ramesh KS, Robles-Sikisaka R, Schwab MA, Spencer E, Wohl S, Nicholson L, Mchardy IH, Dimmock DP, Hobbs CA, Bakhtar O, Harding A, Mendoza A, Bolze A, Becker D, Cirulli ET, Isaksson M, Barrett KMS, Washington NL, Malone JD, Schafer AM, Gurfield N, Stous S, Fielding-Miller R, Garfein RS, Gaines T, Anderson C, Martin NK, Schooley R, Austin B, MacCannell DR, Kingsmore SF, Lee W, Shah S, McDonald E, Yu AT, Zeller M, Fisch KM, Longhurst C, Maysent P, Pride D, Khosla PK, Laurent LC, Yeo GW, Andersen KG, and Knight R

Abstract

As SARS-CoV-2 continues to spread and evolve, detecting emerging variants early is critical for public health interventions. Inferring lineage prevalence by clinical testing is infeasible at scale, especially in areas with limited resources, participation, or testing/sequencing capacity, which can also introduce biases. SARS-CoV-2 RNA concentration in wastewater successfully tracks regional infection dynamics and provides less biased abundance estimates than clinical testing. Tracking virus genomic sequences in wastewater would improve community prevalence estimates and detect emerging variants. However, two factors limit wastewater-based genomic surveillance: low-quality sequence data and inability to estimate relative lineage abundance in mixed samples. Here, we resolve these critical issues to perform a high-resolution, 295-day wastewater and clinical sequencing effort, in the controlled environment of a large university campus and the broader context of the surrounding county. We develop and deploy improved virus concentration protocols and deconvolution software that fully resolve multiple virus strains from wastewater. We detect emerging variants of concern up to 14 days earlier in wastewater samples, and identify multiple instances of virus spread not captured by clinical genomic surveillance. Our study provides a scalable solution for wastewater genomic surveillance that allows early detection of SARS-CoV-2 variants and identification of cryptic transmission.

Published
2022
Full Text
View/download PDF

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