Last data update: Apr 29, 2024. (Total: 46658 publications since 2009)
Records 1-3 (of 3 Records) |
Query Trace: Metz JM[original query] |
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Epidemiologic and genomic evidence for zoonotic transmission of SARS-CoV-2 among people and animals on a Michigan mink farm, United States, 2020
Ghai RR , Straily A , Wineland N , Calogero J , Stobierski MG , Signs K , Blievernicht M , Torres-Mendoza Y , Waltenburg MA , Condrey JA , Blankenship HM , Riner D , Barr N , Schalow M , Goodrich J , Collins C , Ahmad A , Metz JM , Herzegh O , Straka K , Arsnoe DM , Duffiney AG , Shriner SA , Kainulainen MH , Carpenter A , Whitehill F , Wendling NM , Stoddard RA , Retchless AC , Uehara A , Tao Y , Li Y , Zhang J , Tong S , Barton Behravesh C . Viruses 2023 15 (12) Farmed mink are one of few animals in which infection with SARS-CoV-2 has resulted in sustained transmission among a population and spillback from mink to people. In September 2020, mink on a Michigan farm exhibited increased morbidity and mortality rates due to confirmed SARS-CoV-2 infection. We conducted an epidemiologic investigation to identify the source of initial mink exposure, assess the degree of spread within the facility's overall mink population, and evaluate the risk of further viral spread on the farm and in surrounding wildlife habitats. Three farm employees reported symptoms consistent with COVID-19 the same day that increased mortality rates were observed among the mink herd. One of these individuals, and another asymptomatic employee, tested positive for SARS-CoV-2 by real-time reverse transcription PCR (RT-qPCR) 9 days later. All but one mink sampled on the farm were positive for SARS-CoV-2 based on nucleic acid detection from at least one oral, nasal, or rectal swab tested by RT-qPCR (99%). Sequence analysis showed high degrees of similarity between sequences from mink and the two positive farm employees. Epidemiologic and genomic data, including the presence of F486L and N501T mutations believed to arise through mink adaptation, support the hypothesis that the two employees with SARS-CoV-2 nucleic acid detection contracted COVID-19 from mink. However, the specific source of virus introduction onto the farm was not identified. Three companion animals living with mink farm employees and 31 wild animals of six species sampled in the surrounding area were negative for SARS-CoV-2 by RT-qPCR. Results from this investigation support the necessity of a One Health approach to manage the zoonotic spread of SARS-CoV-2 and underscores the critical need for multifaceted public health approaches to prevent the introduction and spread of respiratory viruses on mink farms. |
Development and Evaluation of a TaqMan Real-Time PCR Assay for the Rapid Detection of Cross-Contamination of RD (Human) and L20B (Mouse) Cell Lines Used in Poliovirus Surveillance.
Ahmad A , Lee JR , Metz JM , Tang X , Lin SC , Bagarozzi DAJr , Petway D , Herzegh O . J Virol Methods 2021 300 114354 BACKGROUND: The cross-contamination of cell lines in culture is a persistent problem. Genetically modified L20B (Mouse) and RD (Human Rhabdomyosarcoma) cell lines are commonly used in poliovirus research, surveillance, and diagnostics. Cross-contamination between these cell lines leads to unreproducible results and unreliable surveillance data, negatively affecting public health. The gold standard method for cell authentication is Short Tandem Repeats analysis, which is time-consuming and expensive. The disadvantage of STR is limited detection of interspecies contamination. METHODS: This assay targets the mitochondrial cytochrome c oxidase subunit I (MTCO1) gene, a highly conserved and emergent DNA barcode region for detection of cross-contamination in RD and L20B cell lines. The MagNA Pure Compact instrument and ABI 7500 Fast Dx Real-time PCR systems were used for DNA extraction and to perform real-time PCR respectively. RESULTS: The newly developed assay is very sensitive with a limit of detection of 100 RD cells/1 million L20B/mL. The amplification efficiency and R(2)-value were 102.26% and 0.9969 respectively. We evaluated specificity of the assay with five human and four mouse cell lines, as well as monkey and rat cell lines. The assay showed no cross-reactivity with genomic DNA from human, mouse, rat, or monkey cell lines. The analytical sensitivity was also evaluated by spiking varying amounts of RD cells (0.001% - 10%) into L20B cells. There was no difference in C(T) values when running single-plex or duplex PCR reactions with similar experimental conditions. CONCLUSIONS: We have developed and validated a TaqMan real-time PCR assay, a sensitive method for the detection of cross-contamination of RD and L20B cell lines. |
Iterative development of a tailored mHealth intervention for adolescent and young adult survivors of childhood cancer
Schwartz LA , Psihogios AM , Henry-Moss D , Daniel LC , Ver Hoeve ES , Velazquez-Martin B , Butler E , Hobbie WL , Buchanan Lunsford N , Sabatino SA , Barakat LP , Ginsberg JP , Fleisher L , Deatrick JA , Jacobs LA , O'Hagan B , Anderson L , Fredericks E , Amaral S , Dowshen N , Houston K , Vachani C , Hampshire MK , Metz JM , Hill-Kayser CE , Szalda D . Clin Pract Pediatr Psychol 2019 7 (1) 31-43 Objective: Methods for developing mobile health (mHealth) interventions are not well described. To guide the development of future mHealth interventions, we describe the application of the agile science framework to iteratively develop an mHealth intervention for adolescent and young adult (AYA) survivors of childhood cancer. Method: We created the AYA STEPS mobile app (AYA Self-management via Texting, Education, and Plans for Survivorship) by modifying and integrating 2 existing programs: an online survivorship care plan (SCP) generator and a text messaging self-management intervention for AYA off treatment. The iterative development process involved 3 stages of agile science: (1) formative work, (2) obtaining feedback about the first AYA STEPS prototype, and (3) pilot testing and finalization of a prototype. We determined preferences of AYA stakeholders as well as discovered and addressed technology problems prior to beginning a subsequent randomized controlled trial. Results: AYA survivors reported that the app and the embedded tailored messages related to their health and SCP were easy to use and generally satisfying and beneficial. Usage data supported that AYA were engaged in the app. Technology glitches were discovered in the pilot and addressed. Conclusion: The iterative development of AYA STEPS was essential for creating a consistent and acceptable end user experience. This study serves as one example of how behavioral scientists may apply agile science to their own mHealth research. |
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