Understanding Immunology and Patient Outcomes of COVID-19 in Hospitalized Patients
Purpose
The adaptive immune response, consisting of antiviral T and B cells, is critical for providing protection against viruses such as SARS-CoV-2, both during an active infection and later following a subsequent exposure. They can both also potentially contribute to pathogenesis if they are overstimulated. Despite these advances in knowledge, there are still significant gaps in understanding of what constitutes a protective or immunopathologic immune response and its durability. Significant knowledge gaps also remain pertaining to the early recognition of COVID patients with increased risk of clinical deterioration who require continued hospitalization and the use of more intensive treatments designed to improve outcomes. Data from non-COVID patients with MI show that platelet surface expression of FcγRIIa, the low-affinity receptor for the Fc fragment of immunoglobulin (Ig) G, identifies patients at high and low risk of subsequent cardiovascular events. Platelet expression of FcγRIIa is increased by interferon γ20 that is significantly elevated in severe COVID-19 infections. The high prevalence of arterial thrombosis among COVID-19 patients and the central role of thrombosis in respiratory failure support the hypothesis that elevated platelet expression of FcγRIIa will identify COVID patients at increased risk of thrombotic complications and clinical deterioration. In addition to the potential role of platelet activation in thrombosis associated with COIVD-19, the endothelium may also play a significant role. The investigators hypothesize that elevated EMPs in plasma will identify patients at high risk of thrombosis and clinical deterioration. To begin to address the knowledge gaps above and obtain preliminary data for future large grant submission, the investigators propose a small, prospective, single-center cohort study that will enroll patients hospitalized for COVID-19 infection and exhibiting a range of disease severity. Biosamples will be obtained and used to study T and B cells, antibody repertoire, and durability of protective immunity, and also to quantify platelet expression of FcγRIIa and circulating EMPs, as described in the protocol.
Condition
- Covid19
Eligibility
- Eligible Ages
- Over 18 Years
- Eligible Genders
- All
- Accepts Healthy Volunteers
- No
Inclusion Criteria
- Adult (≥18 years old) at the time of consent 2. Positive COVID-19 PCR test result
Exclusion Criteria
- Expected death or withdrawal of life-sustaining treatments within 3 days 2. Hemoglobin ≤7.0 at the time of consent 3. Unable to provide consent and no legally authorized representative (LAR) identified or reached by phone 4. Pregnant 5. Incarcerated 6. Physician declines patient enrollment (attending physician or study physician) 7. Patient or LAR do not consent to participate in the study
Study Design
- Phase
- Study Type
- Observational
- Observational Model
- Cohort
- Time Perspective
- Prospective
Arm Groups
Arm | Description | Assigned Intervention |
---|---|---|
Covid-19+ | Hospitalized patients with Covid-19 infection confirmed by PCR test |
|
Recruiting Locations
More Details
- NCT ID
- NCT04892797
- Status
- Active, not recruiting
- Sponsor
- University of Vermont
Detailed Description
Since December 2019, the novel coronavirus (SARS-CoV-2) and associated COVID-19 illness has spread worldwide. Globally, there are >86 million infections and over 1.8 million confirmed deaths, with the pandemic continuing at record levels throughout the USA. While new data on COVID-19 are emerging daily, several knowledge gaps remain, including understanding of the adaptive immune response to infection, the propensity for infected patients to experience thrombotic events, and identification of biomarkers that might predict clinical deterioration. The adaptive immune response, consisting of antiviral T and B cells, is critical for providing protection against viruses such as SARS-CoV-2, both during an active infection and later following a subsequent exposure. They can both also potentially contribute to pathogenesis if they are overstimulated. Much has been learned about the T and B cell responses to SARS-CoV-2 since the beginning of the COVID-19 pandemic. The most comprehensive study to date shows that most individuals make a balanced T and B cell response that persists for at least 8 months. Despite these advances in knowledge, there are still significant gaps in understanding of what constitutes a protective or immunopathologic immune response and their durability. Significant knowledge gaps also remain pertaining to the early recognition of COVID patients with increased risk of clinical deterioration who require continued hospitalization and the use of more intensive treatments designed to improve outcomes. In addition, the identification of low risk patients who can be discharged from the hospital would reduce the use of potentially scarce medical resources, particularly during a surge. Among patients with thrombosis, 49% required critical care and 43% died. Data from non-COVID patients with MI show that platelet surface expression of FcγRIIa, the low-affinity receptor for the Fc fragment of immunoglobulin (Ig) G, identifies patients at high and low risk of subsequent cardiovascular events. Platelet expression of FcγRIIa is increased by interferon γ20 that is significantly elevated in severe COVID-19 infections. Because FcγRIIa amplifies platelet activation, greater expression of FcγRIIa on the surface of the platelet increases platelet reactivity. The high prevalence of arterial thrombosis among COVID-19 patients and the central role of thrombosis in respiratory failure support the hypothesis that elevated platelet expression of FcγRIIa will identify COVID patients at increased risk of thrombotic complications and clinical deterioration. In addition to the potential role of platelet activation in thrombosis associated with COIVD-19, the endothelium may also play a significant role. The endothelium is a key site of entry for COVID-19 infection and endothelial injury contributes to thrombotic events that increase morbidity and mortality. Endothelial microparticles (EMPs), submicron membranous vesicles indicating endothelial activation and injury, are released by the endothelium into blood and reflect the competency of endothelial function by identifying endothelial activation and injury, which promote thrombosis. Circulating EMPs can be quantified with the use of flow cytometry. The investigators hypothesize that elevated EMPs in plasma will identify patients at high risk of thrombosis and clinical deterioration. To begin to address the knowledge gaps above and obtain preliminary data for future large grant submission, the investigators propose a small, prospective, single-center cohort study that will enroll patients hospitalized for COVID-19 infection and exhibiting a range of disease severity. Blood will be obtained on study days 1, 3±1, 7±1 (and every 7±1 days thereafter up to day 28 while hospitalized), and again at 12 months of follow up. Nasopharyngeal (NP) swabs will be collected on these same study days through day 28, but not at 12 months. These biosamples will be used to study T and B cells, antibody repertoire, and durability of protective immunity, and also to quantify platelet expression of FcγRIIa and circulating EMPs, as described in the protocol.