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Biography and Research Information
OverviewAI-generated summary
Lillian M. Jones leads a research group at the University of Arkansas for Medical Sciences that investigates various aspects of health and environmental science. Her work includes studies on airborne particles, such as sub-pollen particles from ragweed, and the development of scalable methods for quantifying airborne allergens. This research aims to improve understanding of atmospheric components that can affect human health.
Dr. Jones also conducts research on public health interventions. She serves as PI on a grant from the NIH/National Institute on Drug Abuse for $29,478, which focuses on predictors of momentary smoking lapse among adults who smoke menthol cigarettes. Additionally, her recent publications address the effects of nonpharmaceutical interventions during the COVID-19 pandemic on pediatric asthma exacerbations and viral infections, highlighting a concern for child and adolescent health during public health crises. Her scholarly output includes 20 publications, with an h-index of 5 and 202 total citations. She collaborates with several colleagues at the University of Arkansas for Medical Sciences, including Akilah A. Jefferson, Joshua L. Kennedy, Bobby L. Boyanton Jr, and Robert D. Pesek.
Metrics
- h-index: 5
- Publications: 20
- Citations: 210
Selected Publications
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Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections (2024)
Federal Grants 1 $29,478 total
Predictors of Momentary Smoking Lapse Among Adults Who Smoke Menthol Cigarettes
Collaboration Network
Top Collaborators
- Airborne sub-pollen particles from rupturing giant ragweed pollen
- Characterization of sub-pollen particles in size-resolved atmospheric aerosol using chemical tracers
- A scalable, passive sampling method for the quantification of airborne allergens
- A Scalable, Passive Sampling Method for the Quantification of Airborne Allergens
- Airborne sub-pollen particles from rupturing giant ragweed pollen
- Characterization of sub-pollen particles in size-resolved atmospheric aerosol using chemical tracers
- A scalable, passive sampling method for the quantification of airborne allergens
- A Scalable, Passive Sampling Method for the Quantification of Airborne Allergens
- Airborne sub-pollen particles from rupturing giant ragweed pollen
- Characterization of sub-pollen particles in size-resolved atmospheric aerosol using chemical tracers
- A scalable, passive sampling method for the quantification of airborne allergens
- A Scalable, Passive Sampling Method for the Quantification of Airborne Allergens
- Characterization of sub-pollen particles in size-resolved atmospheric aerosol using chemical tracers
- Characterization of sub-pollen particles in size-resolved atmospheric aerosol using chemical tracers
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
- Effects of nonpharmaceutical interventions during COVID-19 pandemic on pediatric asthma exacerbations and viral infections
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