Kiersten Henry scite author profile

BACKGROUND: Early in the coronavirus disease 2019 (COVID-19) pandemic, there was serious concern that the United States would encounter a shortfall of mechanical ventilators. In response, the US government, using the Defense Production Act, ordered the development of 200,000 ventilators from 11 different manufacturers. These ventilators have different capabilities, and whether all are able to support COVID-19 patients is not evident.RESEARCH QUESTION: Evaluate ventilator requirements for affected COVID-19 patients, assess the clinical performance of current US Strategic National Stockpile (SNS) ventilators employed during the pandemic, and finally, compare ordered ventilators' functionality based on COVID-19 patient needs.STUDY DESIGN AND METHODS: Current published literature, publicly available documents, and lay press articles were reviewed by a diverse team of disaster experts. Data were assembled into tabular format, which formed the basis for analysis and future recommendations.RESULTS: COVID-19 patients often develop severe hypoxemic acute respiratory failure and adult respiratory defense syndrome (ARDS), requiring high levels of ventilator support. Current SNS ventilators were unable to fully support all COVID-19 patients, and only approximately half of newly ordered ventilators have the capacity to support the most severely affected patients; ventilators with less capacity for providing high-level support are still of significant value in caring for many patients.

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Mass Critical Care Surge Response During COVID-19

Dichter

Sprung

Mukherjee

et al. 2022

CHEST

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Background Following the publication of 2014 consensus statement regarding mass critical care during public health emergencies, much has been learned about surge responses and the care of overwhelming numbers of patients during the COVID-19 pandemic. 1 Gaps in prior pandemic planning were identified and require modification in the midst of ongoing surge throughout the world. Methods The Task Force for Mass Critical Care (TFMCC) adopted a modified version of established rapid guideline methodologies from the World Health Organization 2 and the Guidelines International Network-McMaster Guideline Development Checklist. 3 With a consensus development process incorporating expert opinion to define important questions and extract evidence, TFMCC developed relevant pandemic surge suggestions in a structured manner, incorporating peer-reviewed literature, “gray” evidence from lay media sources, and anecdotal experiential evidence. Results Ten suggestions were identified regarding staffing, load-balancing, communication, and technology. Staffing models are suggested with resilience strategies to support critical care staff. Intensive care unit (ICU) surge strategies and strain indicators are suggested to enhance ICU prioritization tactics to maintain contingency level care and avoid crisis triage, with early transfer strategies to further load-balance care. We suggest intensivists and hospitalists be engaged with the incident command structure to ensure two-way communication, situational awareness, and the use of technology to support critical care delivery and families of patients in intensive care units (ICUs). Conclusions A subcommittee from the Task Force for Mass Critical Care offers interim evidence-informed operational strategies to assist hospitals and communities to plan for and respond to surge capacity demands from COVID-19.

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Critical Care Staffing in Pandemics and Disasters

Sprung¹,

Ghazipura²,

Burry³

et al. 2023

CHEST

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Impact of Rapidly Deployed COVID-19 Monoclonal Antibody Infusion Clinics on Rate of Hospitalization

Delasobera

Saggar

Goodwin

et al. 2022

Infect Dis Clin Pract

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BackgroundProviding monoclonal antibody therapy infusions requires challenging logistics, resources, and technology, hindering availability across the United States. Early identification and treatment of COVID-positive patients can reduce hospitalizations.ObjectiveThis study aimed to describe the referral, selection process, and deployment of outpatient monoclonal infusion clinics, as well as the impact of monoclonal antibody therapy in COVID-positive patients on the rate of emergency department (ED) visits and hospitalization.MethodsThis is a retrospective cohort study that used screening of all COVID-positive ambulatory patients using a unique scoring rubric embedded in the emergency medical response for appropriateness for therapy between November 2020 and January 2021. Participants included all outpatients testing positive for COVID-19 were screened, and those eligible were referred for treatment with bamlanivimab. Of the 443 patients referred for treatment, 252 patients were treated with bamlanivimab compared with 191 patients who declined treatment. Patients were treated either in 1 of the 2 outpatient infusion centers (74%) or the ED (26%.)ResultsOf 443 patients with positive COVID-19 diagnoses who were eligible for treatment based on a risk assessment rubric, 252 received bamlanivimab. There was a significant reduction in hospitalization of the treatment versus control group (6.7% vs 13.6%, P < 0.05). No significant differences were noted in risk score at screening, ED visits after infusion, days of symptom onset at screening or infusion, or death.Conclusions and RelevanceThe efficacy of monoclonal antibody therapy on reducing hospitalization was demonstrated. Rapid development of screening technology, scheduling and operational logistics, and physical space can overcome the challenges in the current environment.

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COVID-19 Influencing Factors on Transmission and Incidence Rates-Validation Analysis

Magd¹,

Asmi²,

Henry³

2020

J Biomed Res Environ Sci

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Kiersten Henry

The US Strategic National Stockpile Ventilators in Coronavirus Disease 2019

Mass Critical Care Surge Response During COVID-19

Critical Care Staffing in Pandemics and Disasters

Impact of Rapidly Deployed COVID-19 Monoclonal Antibody Infusion Clinics on Rate of Hospitalization

COVID-19 Influencing Factors on Transmission and Incidence Rates-Validation Analysis

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