Your search keyword '"Fahsbender, Liz"' showing total 5 results

1. Discovering disease-causing pathogens in resource-scarce Southeast Asia using a global metagenomic pathogen monitoring system

Author

Bohl, Jennifer A, Lay, Sreyngim, Chea, Sophana, Ahyong, Vida, Parker, Daniel M, Gallagher, Shannon, Fintzi, Jonathan, Man, Somnang, Ponce, Aiyana, Sreng, Sokunthea, Kong, Dara, Oliveira, Fabiano, Kalantar, Katrina, Tan, Michelle, Fahsbender, Liz, Sheu, Jonathan, Neff, Norma, Detweiler, Angela M, Yek, Christina, Ly, Sokna, Sath, Rathanak, Huch, Chea, Kry, Hok, Leang, Rithea, Huy, Rekol, Lon, Chanthap, Tato, Cristina M, DeRisi, Joseph L, and Manning, Jessica E

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Emerging Infectious Diseases, Infectious Diseases, Genetics, Biodefense, Vector-Borne Diseases, Prevention, Vaccine Related, Infection, Good Health and Well Being, Asia, Southeastern, Cambodia, Disease Susceptibility, Female, Fever, Health Resources, High-Throughput Nucleotide Sequencing, Humans, Male, Metagenome, Metagenomics, Public Health Surveillance, Seroepidemiologic Studies, metagenomics, Southeast Asia, vector-borne disease, next-generation sequencing, pathogen surveillance

Abstract

SignificanceMetagenomic pathogen sequencing offers an unbiased approach to characterizing febrile illness. In resource-scarce settings with high biodiversity, it is critical to identify disease-causing pathogens in order to understand burden and to prioritize efforts for control. Here, metagenomic next-generation sequencing (mNGS) characterization of the pathogen landscape in Cambodia revealed diverse vector-borne and zoonotic pathogens irrespective of age and gender as risk factors. Identification of key pathogens led to changes in national program surveillance. This study is a "real world" example of the use of mNGS surveillance of febrile individuals, executed in-country, to identify outbreaks of vector-borne, zoonotic, and other emerging pathogens in a resource-scarce setting.

Published

2022

2. Climate, demography, immunology, and virology combine to drive two decades of dengue virus dynamics in Cambodia.

Author

Brook, Cara E., Rozins, Carly, Bohl, Jennifer A., Ahyong, Vida, Chea, Sophana, Fahsbender, Liz, Huy, Rekol, Lay, Sreyngim, Leang, Rithea, Yimei Li, Chanthap Lon, Somnang Man, Mengheng Oum, Northrup, Graham R., Oliveira, Fabiano, Pacheco, Andrea R., Parker, Daniel M., Young, Katherine, Boots, Michael, and Tato, Cristina M.

Subjects

DENGUE viruses, VIRUS diseases, OLDER patients, DENGUE, EPIDEMIOLOGICAL models

Abstract

The incidence of dengue virus disease has increased globally across the past half-century, with highest number of cases ever reported in 2019 and again in 2023. We analyzed climatological, epidemiological, and phylogenomic data to investigate drivers of two decades of dengue in Cambodia, an understudied endemic setting. Using epidemiological models fit to a 19-y dataset, we first demonstrate that climate-driven transmission alone is insufficient to explain three epidemics across the time series. We then use wavelet decomposition to highlight enhanced annual and multiannual synchronicity in dengue cycles between provinces in epidemic years, suggesting a role for climate in homogenizing dynamics across space and time. Assuming reported cases correspond to symptomatic secondary infections, we next use an age-structured catalytic model to estimate a declining force of infection for dengue through time, which elevates the mean age of reported cases in Cambodia. Reported cases in >70-y-old individuals in the 2019 epidemic are best explained when also allowing for waning multitypic immunity and repeat symptomatic infections in older patients. We support this work with phylogenetic analysis of 192 dengue virus (DENV) genomes that we sequenced between 2019 and 2022, which document emergence of DENV-2 Cosmopolitan Genotype-II into Cambodia. This lineage demonstrates phylogenetic homogeneity across wide geographic areas, consistent with invasion behavior and in contrast to high phylogenetic diversity exhibited by endemic DENV-1. Finally, we simulate an age-structured, mechanistic model of dengue dynamics to demonstrate how expansion of an antigenically distinct lineage that evades preexisting multitypic immunity effectively reproduces the older-age infections witnessed in our data. [ABSTRACT FROM AUTHOR]

Published

2024

3. Building up a genomic surveillance platform for SARS-CoV-2 in the middle of a pandemic: a true North–South collaboration

Author

Khan, Waqasuddin, primary, Kabir, Furqan, additional, Kanwar, Samiah, additional, Aziz, Fatima, additional, Muneer, Sahrish, additional, Kalam, Adil, additional, Rajab Ali, Mehdia Nadeem, additional, Ansari, Nadia, additional, Vanaerschot, Manu, additional, Ahyong, Vida, additional, Fahsbender, Liz, additional, Kalantar, Katrina, additional, Black, Allison, additional, Glascock, Abigail, additional, Gil, Juliana, additional, Ayscue, Patrick, additional, Tato, Cristina, additional, Jehan, Fyezah, additional, and Nisar, Imran, additional

Published

2023

4. Climate, demography, immunology, and virology combine to drive two decades of dengue virus dynamics in Cambodia

Author

Brook, Cara E., primary, Rozins, Carly, additional, Bohl, Jennifer A., additional, Ahyong, Vida, additional, Chea, Sophana, additional, Fahsbender, Liz, additional, Huy, Rekol, additional, Lay, Sreyngim, additional, Leang, Rithea, additional, Li, Yimei, additional, Lon, Chanthap, additional, Man, Somnang, additional, Oum, Mengheng, additional, Northrup, Graham R., additional, Oliveira, Fabiano, additional, Pacheco, Andrea R., additional, Parker, Daniel M., additional, Young, Katherine, additional, Boots, Michael, additional, Tato, Cristina M., additional, DeRisi, Joseph L., additional, Yek, Christina, additional, and Manning, Jessica E., additional

Published

2022

5. Discovering disease-causing pathogens in resource-scarce Southeast Asia using a global metagenomic pathogen monitoring system

Author

Bohl, Jennifer A., primary, Lay, Sreyngim, additional, Chea, Sophana, additional, Ahyong, Vida, additional, Parker, Daniel M., additional, Gallagher, Shannon, additional, Fintzi, Jonathan, additional, Man, Somnang, additional, Ponce, Aiyana, additional, Sreng, Sokunthea, additional, Kong, Dara, additional, Oliveira, Fabiano, additional, Kalantar, Katrina, additional, Tan, Michelle, additional, Fahsbender, Liz, additional, Sheu, Jonathan, additional, Neff, Norma, additional, Detweiler, Angela M., additional, Ly, Sokna, additional, Sath, Rathanak, additional, Huch, Chea, additional, Kry, Hok, additional, Leang, Rithea, additional, Huy, Rekol, additional, Lon, Chanthap, additional, Tato, Cristina M., additional, DeRisi, Joseph L., additional, and Manning, Jessica E., additional

Published

2021