Your search keyword '"Philo, Sarah E."' showing total 8 results

1. Development and Validation of the Skimmed Milk Pellet Extraction Protocol for SARS-CoV-2 Wastewater Surveillance

Author

Philo, Sarah E., Ong, Angelo Q. W., Keim, Erika K., Swanstrom, Rachael, Kossik, Alexandra L., Zhou, Nicolette A., Beck, Nicola K., and Meschke, John Scott

Published

2022

2. A comparison of SARS-CoV-2 wastewater concentration methods for environmental surveillance

Author

Philo, Sarah E., Keim, Erika K., Swanstrom, Rachael, Ong, Angelo Q.W., Burnor, Elisabeth A., Kossik, Alexandra L., Harrison, Joanna C., Demeke, Bethel A., Zhou, Nicolette A., Beck, Nicola K., Shirai, Jeffry H., and Meschke, J. Scott

Published

2021

3. Wastewater surveillance for antibiotic resistance genes during the late 2020 SARS-CoV-2 peak in two different populations.

Author

Philo, Sarah E., Monteiro, Sílvia, Fuhrmeister, Erica R., Santos, Ricardo, and Meschke, John Scott

Subjects

*COVID-19, *COVID-19 pandemic, *SEWAGE disposal plants, *DRUG resistance in bacteria, *POLYMERASE chain reaction

Abstract

The United States Centers for Disease Control and Prevention reported a rise in resistant infections after the coronavirus disease 2019 (COVID-19) pandemic started. How and if the pandemic contributed to antibiotic resistance in the larger population is not well understood. Wastewater treatment plants are good locations for environmental surveillance because they can sample entire populations. This study aimed to validate methods used for COVID-19 wastewater surveillance for bacterial targets and to understand how rising COVID-19 cases from October 2020 to February 2021 in Portugal (PT) and King County, Washington contributed to antibiotic resistance genes in wastewater. Primary influent wastewater was collected from two treatment plants in King County and five treatment plants in PT, and hospital effluent was collected from three hospitals in PT. Genomic extracts were tested with the quantitative polymerase chain reaction for antibiotic resistance genes conferring resistance against antibiotics under threat. Random-effect models were fit for log-transformed gene abundances to assess temporal trends. All samples collected tested positive for multiple resistance genes. During the sampling period, mecA statistically significantly increased in King County and PT. No statistical evidence exists of correlation between samples collected in the same Portuguese metro area. [ABSTRACT FROM AUTHOR]

Published

2024

4. Development, confirmation, and application of a seeded Escherichia coli process control organism to validate Salmonella enterica serovar Typhi environmental surveillance methods.

Author

Philo, Sarah E., Zhou, Nicolette A., Lillis, Lorraine M., Raghava, Venkata, Abraham, Dilip, Kumar, Vinoth, Kumar, Nirmal, Rigby, Jonathan, Harrison, Joanna Ciol, Fagnant-Sperati, Christine S., Kossik, Alexandra L., Ong, Angelo Q. W., Swanstrom, Rachael, Burnor, Elisabeth, Demeke, Bethel, Beck, Nicola K., Shirai, Jeffry H., Libby, Stephen J., Boyle, David S., and Feasey, Nicholas

Subjects

*SALMONELLA enterica serovar Typhi, *RESOURCE-limited settings, *ESCHERICHIA coli, *TYPHOID fever, *MEMBRANE separation, *SEED harvesting

Abstract

Salmonella enterica serovar Typhi (S. Typhi) is the causative agent of Typhoid fever. Blood culture is the gold standard for clinical diagnosis, but this is often difficult to employ in resource limited settings. Environmental surveillance of waste-impacted waters is a promising supplement to clinical surveillance, however validating methods is challenging in regions where S. Typhi concentrations are low. To evaluate existing S. Typhi environmental surveillance methods, a novel process control organism (PCO) was created as a biosafe surrogate. Using a previous described qPCR assay, a modified PCR amplicon for the staG gene was cloned into E. coli. We developed a target region that was recognized by the Typhoid primers in addition to a non-coding internal probe sequence. A multiplex qPCR reaction was developed that differentiates between the typhoid and control targets, with no cross-reactivity or inhibition of the two probes. The PCO was shown to mimic S. Typhi in lab-based experiments with concentration methods using primary wastewater: filter cartridge, recirculating Moore swabs, membrane filtration, and differential centrifugation. Across all methods, the PCO seeded at 10 CFU/mL and 100 CFU/mL was detected in 100% of replicates. The PCO is detected at similar quantification cycle (Cq) values across all methods at 10 CFU/mL (Average = 32.4, STDEV = 1.62). The PCO was also seeded into wastewater at collection sites in Vellore (India) and Blantyre (Malawi) where S. Typhi is endemic. All methods tested in both countries were positive for the seeded PCO. The PCO is an effective way to validate performance of environmental surveillance methods targeting S. Typhi in surface water. [ABSTRACT FROM AUTHOR]

Published

2024

5. Wastewater surveillance for bacterial targets: current challenges and future goals.

Author

Philo, Sarah E., De León, Kara B., Noble, Rachel T., Zhou, Nicolette A., Alghafri, Rashed, Bar-Or, Itay, Darling, Amanda, D'Souza, Nishita, Hachimi, Oumaima, Kaya, Devrim, Sooyeol Kim, Kuhn, Katrin Gaardbo, Layton, Blythe A., Mansfeldt, Cresten, Oceguera, Bethany, Radniecki, Tyler S., Ram, Jeffrey L., Saunders, Lauren P., Shrestha, Abhilasha, and Stadler, Lauren B.

Subjects

*SEWAGE, *COVID-19 pandemic, *EVIDENCE gaps, *DISEASE incidence, *DISEASE prevalence

Abstract

Wastewater-based epidemiology (WBE) expanded rapidly in response to the COVID-19 pandemic. As the public health emergency has ended, researchers and practitioners are looking to shift the focus of existing wastewater surveillance programs to other targets, including bacteria. Bacterial targets may pose some unique challenges for WBE applications. To explore the current state of the field, the National Science Foundation-funded Research Coordination Network (RCN) on Wastewater Based Epidemiology for SARS-CoV-2 and Emerging Public Health Threats held a workshop in April 2023 to discuss the challenges and needs for wastewater bacterial surveillance. The targets and methods used in existing programs were diverse, with twelve different targets and nine different methods listed. Discussions during the workshop highlighted the challenges in adapting existing programs and identified research gaps in four key areas: choosing new targets, relating bacterial wastewater data to human disease incidence and prevalence, developing methods, and normalizing results. To help with these challenges and research gaps, the authors identified steps the larger community can take to improve bacteria wastewater surveillance. This includes developing data reporting standards and method optimization and validation for bacterial programs. Additionally, more work is needed to understand shedding patterns for potential bacterial targets to better relate wastewater data to human infections. Wastewater surveillance for bacteria can help provide insight into the underlying prevalence in communities, but much work is needed to establish these methods. [ABSTRACT FROM AUTHOR]

Published

2024

6. Impact of Disaster Research on the Development of Early Career Researchers: Lessons Learned from the Wastewater Monitoring Pandemic Response Efforts.

Author

Vela, Jeseth Delgado, McClary-Gutierrez, Jill S., Al-Faliti, Mitham, Allan, Vajra, Arts, Peter, Barbero, Roberto, Bell, Cristalyne, D’Souza, Nishita, Bakker, Kevin, Kaya, Devrim, Gonzalez, Raul, Harrison, Katherine, Kannoly, Sherin, Keenum, Ishi, Lin Li, Pecson, Brian, Philo, Sarah E., Schneider, Rebecca, Schussman, Melissa K., and Shrestha, Abhilasha

Published

2022

7. Surveillance for respiratory and diarrheal pathogens at the human-pig interface in Sarawak, Malaysia.

Author

Borkenhagen, Laura K., Mallinson, Kerry A., Tsao, Rick W., Ha, Siaw-Jing, Lim, Wei-Honn, Toh, Teck-Hock, Anderson, Benjamin D., Fieldhouse, Jane K., Philo, Sarah E., Chong, Kuek-Sen, Lindsley, William G., Ramirez, Alejandro, Lowe, James F., Coleman, Kristen K., and Gray, Gregory C.

Subjects

CORONAVIRUSES, VIRUS diseases in swine, NUCLEIC acids, MICROBIOLOGICAL aerosols, ENTEROVIRUSES

Abstract

Background: The large livestock operations and dense human population of Southeast Asia are considered a hot-spot for emerging viruses. Objectives: To determine if the pathogens adenovirus (ADV), coronavirus (CoV), encephalomyocarditis virus (EMCV), enterovirus (EV), influenza A-D (IAV, IBV, ICV, and IDV), porcine circovirus 2 (PCV2), and porcine rotaviruses A and C (RVA and RVC), are aerosolized at the animal-interface, and if humans working in these environments are carrying these viruses in their nasal airways. Study: This cross-sectional study took place in Sarawak, Malaysia among 11 pig farms, 2 abattoirs, and 3 animal markets in June and July of 2017. Pig feces, pig oral secretions, bioaerosols, and worker nasal wash samples were collected and analyzed via rPCR and rRT-PCR for respiratory and diarrheal viruses. Results: In all, 55 pig fecal, 49 pig oral or water, 45 bioaerosol, and 78 worker nasal wash samples were collected across 16 sites. PCV2 was detected in 21 pig fecal, 43 pig oral or water, 3 bioaerosol, and 4 worker nasal wash samples. In addition, one or more bioaerosol or pig samples were positive for EV, IAV, and RVC, and one or more worker samples were positive for ADV, CoV, IBV, and IDV. Conclusions: This study demonstrates that nucleic acids from a number of targeted viruses were present in pig oral secretions and pig fecal samples, and that several viruses were detected in bioaerosol samples or in the nasal passages of humans with occupational exposure to pigs. These results demonstrate the need for future research in strengthening viral surveillance at the human-animal interface, specifically through expanded bioaerosol sampling efforts and a seroepidemiological study of individuals with exposure to pigs in this region for PCV2 infection. [ABSTRACT FROM AUTHOR]

Published

2018

8. Adenovirus Type 21 Outbreak Among Lung Transplant Patients at a Large Tertiary Care Hospital.

Author

Philo, Sarah E, Anderson, Benjamin D, Costa, Sylvia F, Henshaw, Nancy, Lewis, Sarah S, Reynolds, John M, Jayakumar, Jayanthi, Su, Yvonne C F, and Gray, Gregory C

Abstract

Here we summarize an April 2016, 7-patient cluster of human adenovirus (HAdV) infections in a cardiothoracic surgery intensive care unit. We show that the patients were infected with a single HAdV21b type. Rapid HAdV typing diagnostics and effective antiviral interventions are needed for immunocompromised patients suffering from HAdV infections. [ABSTRACT FROM AUTHOR]

Published

2018