J
Jamie Thompson
Publications - 6
Citations - 364
Jamie Thompson is an academic researcher. The author has contributed to research in topics: Population & Retrospective cohort study. The author has an hindex of 6, co-authored 6 publications receiving 303 citations.
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Journal ArticleDOI
Using whole genome sequencing to identify resistance determinants and predict antimicrobial resistance phenotypes for year 2015 invasive pneumococcal disease isolates recovered in the United States
Ben J. Metcalf,Sopio Chochua,Robert E. Gertz,Zhongya Li,Hollis Walker,T. Tran,Paulina A. Hawkins,Anita Glennen,Ruth Lynfield,Y. Li,Lesley McGee,Bernard Beall,Art Reingold,S. Brooks,H. Randel,Lisa Miller,B. White,Deborah Aragon,Meghan Barnes,J. Sadlowski,Sue Petit,Matthew L. Cartter,C. Marquez,M. Wilson,Monica M. Farley,Stepy Thomas,Amy Tunali,W. Baughman,Lee H. Harrison,J. Benton,T. Carter,Rosemary Hollick,K. Holmes,A. Riner,Corinne Holtzman,Richard Danila,K. MacInnes,Karen Scherzinger,Kathy Angeles,Joseph Bareta,L. Butler,S. Khanlian,R. Mansmann,Megin Nichols,Nancy M. Bennett,S. Zansky,S. Currenti,Suzanne McGuire,Ann Thomas,M. Schmidt,Jamie Thompson,Tasha Poissant,William Schaffner,Brenda Barnes,K. Leib,K. Dyer,L. McKnight,R. Gierke,Olivia Almendares,J. Hudson,L. McGlone,Gayle Fischer Langley +61 more
TL;DR: WGS-based antimicrobial phenotype prediction was an informative alternative to BDT for invasive pneumococci and correctly predicted penicillin-binding protein types and common resistance determinants.
Journal ArticleDOI
Short-read whole genome sequencing for determination of antimicrobial resistance mechanisms and capsular serotypes of current invasive Streptococcus agalactiae recovered in the USA
Benjamin J. Metcalf,Sopio Chochua,Robert E. Gertz,Paulina A. Hawkins,Jessica N. Ricaldi,Zhongya Li,Hollis Walker,T. Tran,J. Rivers,S. Mathis,Delois Jackson,Anita Glennen,Ruth Lynfield,Lesley McGee,Bernard Beall,Art Reingold,S. Brooks,H. Randel,Lisa Miller,B. White,Deborah Aragon,Meghan Barnes,J. Sadlowski,Sue Petit,Matthew L. Cartter,C. Marquez,M. Wilson,Monica M. Farley,Stepy Thomas,Amy Tunali,W. Baughman,Lee H. Harrison,J. Benton,T. Carter,Rosemary Hollick,K. Holmes,A. Riner,Corinne Holtzman,Richard Danila,K. MacInnes,Karen Scherzinger,Kathy Angeles,Joseph Bareta,L. Butler,S. Khanlian,R. Mansmann,Megin Nichols,Nancy M. Bennett,S. Zansky,S. Currenti,Suzanne McGuire,Ann Thomas,M. Schmidt,Jamie Thompson,Tasha Poissant,William Schaffner,Brenda Barnes,K. Leib,K. Dyer,L. McKnight,Olivia Almendares,J. Hudson,L. McGlone,Cynthia G. Whitney,Stephanie J. Schrag,Gayle Fischer Langley +65 more
TL;DR: The WGS-based assignment of iGBS resistance features and serotypes is an accurate substitute for phenotypic testing.
Journal ArticleDOI
Invasive Methicillin-Resistant Staphylococcus aureus Infections Among Patients on Chronic Dialysis in the United States, 2005–2011
Duc B. Nguyen,Fernanda C. Lessa,Ruth Belflower,Yi Mu,Matthew E. Wise,Joelle Nadle,Wendy Bamberg,Susan Petit,Susan M. Ray,Lee H. Harrison,Ruth Lynfield,Ghinwa Dumyati,Jamie Thompson,William Schaffner,Priti R. Patel +14 more
TL;DR: There has been a substantial decrease in invasive MRSA infection incidence among dialysis patients, suggesting that efforts to control MRSA in hospitals might have contributed to the declines.
Journal ArticleDOI
Early-onset group B streptococcal disease in the United States: potential for further reduction.
Jennifer R. Verani,Nancy L Spina,Ruth Lynfield,William Schaffner,Lee H. Harrison,Amy Holst,Stepy Thomas,Jessica M Garcia,Karen Scherzinger,Deborah Aragon,Susan Petit,Jamie Thompson,Lauren Pasutti,Roberta B. Carey,Lesley McGee,Emily J. Weston,Stephanie J. Schrag +16 more
TL;DR: It is estimated that under optimal implementation, cases of early-onset GBS disease could be reduced by 26–59% with the largest benefit from a single intervention coming from improved use of intrapartum prophylaxis (16% decrease).
Journal ArticleDOI
Geotemporal analysis of Neisseria meningitidis clones in the United States: 2000-2005.
Ann E. Wiringa,Kathleen A. Shutt,Jane W. Marsh,Amanda C. Cohn,Nancy E. Messonnier,Shelley M. Zansky,Susan Petit,Monica M. Farley,Ken Gershman,Ruth Lynfield,Arthur Reingold,William Schaffner,Jamie Thompson,Shawn T. Brown,Bruce Y. Lee,Lee H. Harrison +15 more
TL;DR: Meningococcal isolates are classified according to serogroup, multilocus sequence typing, and outer membrane protein (porA, porB, and fetA) genotyping to help understand the spread of virulent meningococcal clones and patterns of transmission in populations.