Your search keyword '"Cale Basaraba"' showing total 3 results

1. A global repository of novel antimicrobial emergence events [version 2; peer review: 1 approved, 2 approved with reservations]

Author

Emma Mendelsohn, Noam Ross, Allison M. White, Karissa Whiting, Cale Basaraba, Brooke Watson Madubuonwu, Erica Johnson, Mushtaq Dualeh, Zach Matson, Sonia Dattaray, Nchedochukwu Ezeokoli, Melanie Kirshenbaum Lieberman, Jacob Kotcher, Samantha Maher, Carlos Zambrana-Torrelio, and Peter Daszak

Subjects

Medicine, Science

Abstract

Despite considerable global surveillance of antimicrobial resistance (AMR), data on the global emergence of new resistance genotypes in bacteria has not been systematically compiled. We conducted a study of English-language scientific literature (2006-2017) and ProMED-mail disease surveillance reports (1994-2017) to identify global events of novel AMR emergence (first clinical reports of unique drug-bacteria resistance combinations). We screened 24,966 abstracts and reports, ultimately identifying 1,757 novel AMR emergence events from 268 peer-reviewed studies and 26 disease surveillance reports (294 total). Events were reported in 66 countries, with most events in the United States (152), China (128), and India (127). The most common bacteria demonstrating new resistance were Klebsiella pneumoniae (344) and Escherichia coli (218). Resistance was most common against antibiotic drugs imipenem (89 events), ciprofloxacin (84) and ceftazidime (83). We provide an open-access database of emergence events with standardized fields for bacterial species, drugs, location, and date. We discuss the impact of reporting and surveillance bias on database coverage, and we suggest guidelines for data analysis. This database may be broadly useful for understanding rates and patterns of AMR evolution, identifying global drivers and correlates, and targeting surveillance and interventions.

Published

2021

2. Extracting novel antimicrobial emergence events from scientific literature and medical reports [version 1; peer review: 2 approved with reservations]

Author

Emma Mendelsohn, Noam Ross, Allison M. White, Karissa Whiting, Cale Basaraba, Brooke Watson Madubuonwu, Erica Johnson, Mushtaq Dualeh, Zach Matson, Sonia Dattaray, Nchedochukwu Ezeokoli, Melanie Kirshenbaum Lieberman, Jacob Kotcher, Samantha Maher, Carlos Zambrana-Torrelio, and Peter Daszak

Subjects

Data Note, Articles, Antimicrobial resistance, global health, open-access data

Abstract

Despite considerable global surveillance of antimicrobial resistance (AMR), data on the global emergence of new resistance genotypes in bacteria has not been systematically compiled. We conducted a study of English-language scientific literature (2006-2017) and disease surveillance reports (1994-2017) to identify global events of novel AMR emergence (first clinical reports of unique drug-bacteria resistance combinations). We screened 24,966 abstracts and reports, ultimately identifying 1,773 novel AMR emergence events from 294 articles. Events were reported in 66 countries, with most events in the United States (152), India (129), and China (128). The most common bacteria demonstrating new resistance were Klebsiella pneumoniae (352) and Escherichia coli (218). Resistance was most common against antibiotic drugs imipenem (89 events), ciprofloxacin (85) and ceftazidime (82). We provide an open-access database of emergence events with standardized fields for bacterial species, drugs, location, and date, and we discuss guidelines and caveats for data analysis. This database may be broadly useful for understanding rates and patterns of AMR evolution, identifying global drivers and correlates, and targeting surveillance and interventions.

Published

2020

3. Extracting novel antimicrobial emergence events from scientific literature and medical reports

Author

Brooke Watson Madubuonwu, Allison M. White, Noam Ross, Melanie Kirshenbaum Lieberman, Erica Johnson, Samantha Maher, Emma Mendelsohn, Sonia Dattaray, Mushtaq Dualeh, Jacob Kotcher, Zach Matson, Cale Basaraba, Karissa Whiting, Nchedochukwu Ezeokoli, Peter Daszak, and Carlos Zambrana-Torrelio

Subjects

0301 basic medicine, Imipenem, medicine.medical_specialty, global health, Scientific literature, Biology, Data Note, Antimicrobial resistance, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 010104 statistics & probability, 03 medical and health sciences, Antibiotic resistance, Anti-Infective Agents, Drug Resistance, Bacterial, medicine, Global health, Humans, 0101 mathematics, General Pharmacology, Toxicology and Pharmaceutics, Intensive care medicine, Antibiotic Drugs, Disease surveillance, General Immunology and Microbiology, Bacterial Infections, Articles, General Medicine, Antimicrobial, Anti-Bacterial Agents, Klebsiella pneumoniae, 030104 developmental biology, open-access data, medicine.drug

Abstract

Despite considerable global surveillance of antimicrobial resistance (AMR), data on the global emergence of new resistance genotypes in bacteria has not been systematically compiled. We conducted a study of English-language scientific literature (2006-2017) and ProMED-mail disease surveillance reports (1994-2017) to identify global events of novel AMR emergence (first clinical reports of unique drug-bacteria resistance combinations). We screened 24,966 abstracts and reports, ultimately identifying 1,757 novel AMR emergence events from 268 peer-reviewed studies and 26 disease surveillance reports (294 total). Events were reported in 66 countries, with most events in the United States (152), China (128), and India (127). The most common bacteria demonstrating new resistance were Klebsiella pneumoniae (344) and Escherichia coli (218). Resistance was most common against antibiotic drugs imipenem (89 events), ciprofloxacin (84) and ceftazidime (83). We provide an open-access database of emergence events with standardized fields for bacterial species, drugs, location, and date. We discuss the impact of reporting and surveillance bias on database coverage, and we suggest guidelines for data analysis. This database may be broadly useful for understanding rates and patterns of AMR evolution, identifying global drivers and correlates, and targeting surveillance and interventions.

Published

2020