Whole Communities-Whole Health - Published Research
Permanent URI for this collectionhttps://hdl.handle.net/2152/74281
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Item Automatic risk factor detection for externalizing disorders from naturalistic audio(Whole Communities-Whole Health Research Showcase, Austin, TX, 2020-12) Khante, PriyankaItem BEVO Beacon: A Low-Cost Sensor Platform to Monitor Indoor Environmental Quality.(AAAR 2019, Portland, OR, 2019-11) Fritz, Hagen; Waites, William; Bastami, Sepehr; Kinney, Kerry; Nagy, ZoltanItem Beyond PETE and rePETE: Transdisciplinary team science integrating public health and physical activity into education(American Educational Research Association SIG Catherine Ennis Scholar Award, 2020) Castelli, DarlaItem Biogenic VOC emissions under drought and temperature stress: implications for climate change and air quality(Environmental and Water Resource Engineering Research Seminar Series, University of Texas at Austin, 2020-04-09) Blomdahl, DanielItem Can I Health You? Integrating Health and Physical Education the Whole Communities – Whole Health Story(Integrated Public Health-Aligned Physical Education Conference, Columbia, SC, 2019-09) Castelli, DarlaItem Chemical Exposure to disinfection byproducts interacting on personal face masks(RIG Sensors Seminar Series, University of Texas at Austin, 2020-10-09) Blomdahl, DanielItem Chemical Exposure to Disinfection Byproducts Interacting on Personal Face Masks and Indoor Surfaces(Indoor Air 2020, Seoul, South Korea, 2020-11) Blomdahl, Daniel; Hall, Emma; Bhattacharyya, Nirvan; Tang, Mengjia; Jahn, Leif; Khurshid, Shahana; Novoselac, Atila; Hildebrandt Ruiz, Lea; Corsi, Richard; Allen, David; Misztal, PawelItem Chemistry of Homes: Environmental Microbes and Moisture(Environmental and Water Resource Engineering Research Seminar Series, University of Texas at Austin, 2021-01-21) Hall, EmmaItem Contamination of Surfaces and Dust in a Home with COVID-19 Cases(UT COVID-19 Conference, Austin, TX, 2020-11) Jarma, David; Maestre, Juan; Kinney, KerryItem Correlates and Digital Phenotypes of College Student Loneliness: Evidence from the UT1000 Project(Whole Communities-Whole Health Research Showcase, Austin, TX, 2020-12) Wu, CongyuItem COVID-19 Environmental Effects and Technology Convergence(UT COVID-19 Conference, Austin, TX, 2020-11) Jiao, Junfeng; Kinney, Kerry; Niyogi, Dev; Pierce, SuzanneItem Data fusion of mobile and environmental monitoring devices to understand the effects of the indoor environment on sleep quality(EWRE Seminar, 2021-09) Fritz, HagenItem Detecting Eating Episodes by Tracking Jawbone Movements with a Non-Contact Wearable Sensor(Whole Communities-Whole Health Research Showcase, Austin, TX, 2020-12) Thomaz, EdisonItem Discrimination and Health in Adolescence and Young Adulthood(Education and Health Disparities Working Group, University of Texas at Austin, 2021-04) Benner, AprileItem Discrimination and well-being in adolescents' daily lives(Whole Communities-Whole Health Research Showcase, Austin, TX, 2020-12) Benner, AprileItem Distribution of SARS-CoV-2 RNA Signal in a Home with COVID-19 Positive Occupants(2020-12-02) Maestre, Juan P.; Jarma, David; Yu, Cesca; Siegel, Jeff; Horner, Sharon; Kinney, Kerry A.Although many COVID-19 patients quarantine and recover at home, the dispersal of SARS-CoV-2 onto surfaces and dust within the home environment remains poorly understood. To investigate the distribution and persistence of SARS-CoV-2 in a quarantine home, samples were collected from a household with two confirmed COVID-19 cases (one adult and one child). Home surface swab and dust samples were collected two months after symptom onset (and one month after symptom resolution) in the household. The strength of the SARS-CoV-2 molecular signal in fomites varied as a function of sample location, surface material and cleaning practices. Notably, the SARS-CoV-2 RNA signal was detected at several locations throughout the household although cleaning appears to have attenuated the signal on many surfaces. Of the 24 surfaces sampled, 46% were SARS-CoV-2 positive at the time of sampling. The SARS-CoV-2 concentrations in dust recovered from floor and HVAC filter samples ranged from 104-105 N2 gene copies/g dust. While detection of viral RNA does not imply infectivity, this study confirms that the SARS-CoV-2 RNA signal can be detected at several locations within a COVID-19 quarantine home and can persist after symptoms have resolved. In addition, the concentration of SARS-CoV-2 (normalized per unit mass of dust) recovered in home HVAC filters may prove useful for estimating SARS-CoV-2 airborne levels in homes.Item Distribution of SARS-CoV-2 RNA Signal in Surfaces and Dust in a Quarantine Home(Whole Communities-Whole Health Research Showcase, Austin, TX, 2020-12) Maestre, JuanItem Ecologically Valid, Multimodal Data Collection.(BuildSys 2020, Yokohama, Japan, 2019-11) Fritz, Hagen; Kinney, Kerry; Nagy, ZoltanItem The Effects of a Global Pandemic on Individuals’ Physical Activity and Sleep Habits(UT COVID-19 Conference, Austin, TX, 2020-11) Baker, BrettItem Emission of Volatile Byproducts from Ozone Removal Filters(Indoor Air 2020, Seoul, South Korea, 2020-11) Tang, Mengjia; Novoselac, Atila; Misztal, Pawel