School of Public Health

Permanent URI for this communityhttp://hdl.handle.net/1903/1633

The collections in this community comprise faculty research works, as well as graduate theses and dissertations.

Note: Prior to July 1, 2007, the School of Public Health was named the College of Health & Human Performance.

Browse

Filters

2014 - 201922020 - 20231

Settings

Subject: search.filters.subject.influenza

Search Results

Now showing 1 - 3 of 3
  • Thumbnail Image
    Item
    EXHALED BREATH AEROSOL TRANSMISSION OF ACUTE RESPIRATORY INFECTIONS
    (2023) Lai, Jianyu; Milton, Donald K; Epidemiology and Biostatistics; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Acute respiratory infections (ARIs), which usually appear in the form of common colds and influenza, as well as outbreak brought on by emerging viruses such as SARS-CoV-2, result in millions of deaths and hospitalizations each year. Aerosols being exhaled by infected population and inhaled by susceptible population has been identified as an important transmission route for ARIs; yet few studies have compared the viral load in exhaled breath aerosol (EBA) in naturally and experimentally infected cases, as well as among various infections. The specific aims of this dissertation were: 1) examine the comparability of EBA viral shedding between experimentally and a full range of natural ambulatory influenza cases; 2) compare seasonal coronavirus, influenza, SARS-CoV-2 Omicron, and other SARS-CoV-2 variants in terms of viral loads in exhaled breath aerosols; and 3) examine the relative efficacy of face masks, KN95, and N95 respirators as source control for SARS-CoV-2. We analyzed data from four studies that collected 30-minute fine (≤5 μm) and coarse (>5 μm) EBA samples using a Gesundheit-II sampler. Viral RNA load in EBA was quantified using real-time RT-PCR. Nasal inoculation of influenza virus A/Wisconsin/67/2005 showed lower EBA viral shedding compared to the natural influenza A H3 infections. Among the viruses studied, SARS-CoV-2 Omicron variants demonstrated the highest viral RNA loads in both EBA size fractions, emphasizing its superior spread capability via inhalation. Furthermore, while all masks and respirators showed significant reductions in viral RNA load in exhaled aerosols, the duckbill N95 respirators stood out, providing reductions of up to 99% and outperforming both surgical and cloth masks, and KN95 respirators. Given the evident transmission risk via inhalation for the studied viruses, measures such as masking and indoor air hygiene are crucial. The pronounced efficacy of N95 respirators highlights their importance in healthcare settings and places with vulnerable populations, especially during periods of heightened respiratory viral infections.
  • Thumbnail Image
    Item
    ESTIMATING RISK OF AIRBORNE INFLUENZA TRANSMISSION IN A CONTROLLED ENVIRONMENT
    (2019) Bueno de Mesquita, Paul Jacob; Milton, Donald K.; Epidemiology and Biostatistics; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Pandemic preparedness is weakened by uncertainty about the relative importance of influenza transmission modes, particularly airborne droplet nuclei (aerosols). A human-challenge transmission trial in a controlled environment was conducted to address this uncertainty. Healthy, seronegative volunteer ‘Donors’ (N=52) were randomly selected for intranasal challenge with influenza A/Wisconsin/67/2005 (H3N2) and exposed to seronegative ‘Recipients’ randomized to intervention (N=40) or control (N=35) groups. Intervention recipients wore face shields and hand sanitized frequently to limit large droplet and contact transmission. A transmitted infection, confirmed by serology in a control recipient, yielded a 1.3% SAR overall. This was significantly less than the expected 16% SAR (p <0.001) based on a proof-of-concept study that used half as many Donors and exposure days. The main difference between these studies was mechanical building ventilation in the follow-on study, suggesting a possible role for aerosols. The extent to which Donor viral shedding was similar to that of mild, natural infections and may be useful for studying transmission was investigated. The only available aerosol shedding comparison data comes from a population of adults with influenza A H3 infection enrolled on the basis of febrile illness plus cough or sore throat, or positive Quidel QuickVue rapid test (N=83). Systematic differences in case selection compared with Donors yielded more severe cases and introduced bias. To account for differences in illness severity, propensity score matching, stratification, and inverse weighting ultimately demonstrated that the experimental and naturally infected groups were too different to compare without bias. While acknowledging the uncertainty in the generalizability of the current challenge model, observed aerosol shedding and CO2 were used in the rebreathed-air version of the Wells-Riley equation to compute average quantum generation rates (95% CI) 0.029 (0.027, 0.03) and 0.11 (0.088, 0.12) per hour for infected Donors and fine aerosol shedding Donors, respectively. Donors shed 1.4E+5 (1.0E+5, 1.8E+5) airborne viral RNA copies per quantum (ID63). This dissertation provides evidence for airborne transmission, presents a methodology for estimating an airborne dose, and suggests a role for building ventilation in reducing risk and the need for future observational studies to evaluate transmission modes in non-experimental settings with greater generalizability.
  • Thumbnail Image
    Item
    THE CONCORDANCE OF INFLUENZA VACCINATION BEHAVIORS AMONG ADULTS AND CHILDREN RESIDING WITHIN THE SAME HOUSEHOLD IN THE DISTRICT OF COLUMBIA, MARYLAND, AND VIRGINIA
    (2014) Motley, Danielle Olon; Butler, III, James; Public and Community Health; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Background: The distinctive barking sound of whooping cough and rubella's birth defects highlight vaccinations' importance as a public health initiative and medical advancement of the twentieth century. However, little research examines concordance of influenza vaccination uptake between same-household adults and children. Methods: A secondary data analysis of CDC's 2009 National H1N1 Flu Survey (NHFS) examined concordance between adults' influenza vaccination behaviors and responses to NHFS questions representing HBM constructs with the influenza vaccination of same-household children from the District of Columbia, Maryland, and Virginia (DMV). Results: Concordance existed between influenza vaccination statuses of adults and same-household children. HBM constructs of perceived susceptibility, severity, and the cue to action of physician vaccine recommendation were associated with more vaccinated children. Conclusions: This research highlights adults' influenza vaccination status impact on same-household DMV children. Future research is needed to examine parental influenza vaccination effects on influenza vaccination status of their biological children.