TY  - BOOK
AU  - Selinger, Stephen
TI  - Operational Recommendations for Scarce Resource Allocation in a Public Health Crisis
SN  - 0012-3692
PY  - 2021///
KW  - *Civil Defense/og [Organization & Administration]
KW  - *COVID-19
KW  - *Health Care Rationing
KW  - *Health Workforce
KW  - *Public Health/td [Trends]
KW  - *Resource Allocation
KW  - Change Management
KW  - COVID-19/ep [Epidemiology]
KW  - COVID-19/pc [Prevention & Control]
KW  - COVID-19/th [Therapy]
KW  - Disaster Planning
KW  - Health Care Rationing/mt [Methods]
KW  - Health Care Rationing/st [Standards]
KW  - Humans
KW  - Intersectoral Collaboration
KW  - Maryland/ep [Epidemiology]
KW  - Resource Allocation/es [Ethics]
KW  - Resource Allocation/og [Organization & Administration]
KW  - SARS-CoV-2
KW  - Triage/es [Ethics]
KW  - Triage/og [Organization & Administration]
KW  - MedStar Franklin Square Medical Center
KW  - Pulmonary and Critical Care Medicine
KW  - Journal Article
N2  - The COVID-19 pandemic may require rationing of various medical resources if demand exceeds supply. Theoretical frameworks for resource allocation have provided much needed ethical guidance but hospitals still need to address objective practicalities and legal vetting to operationalize scarce resource allocation schemata. To develop operational scarce resource allocation processes for public health catastrophes, including the COVID-19 pandemic, five health systems in Maryland formed a consortium - with diverse expertise and representation - representing more than half of all hospitals in the state. Our efforts built on a prior statewide community engagement process, which determined the values and moral reference points of citizens and healthcare professionals regarding the allocation of ventilators during a public health catastrophe. Through a partnership of health systems, we developed a scarce resource allocation framework informed by citizens' values and by general expert consensus. Allocation schema for mechanical ventilators, intensive care unit resources, blood components, novel therapeutics, extracorporeal membrane oxygenation, and renal replacement therapies were developed. Creating operational algorithms for each resource posed unique challenges; each resource's varying nature and underlying data on benefit prevented any single algorithm from being universally applicable. The development of scarce resource allocation processes must be iterative, legally vetted, and tested. We offer our processes to assist other regions that may be faced with the challenge of rationing healthcare resources during public health catastrophes. Copyright (c) 2020. Published by Elsevier Inc
UR  - https://dx.doi.org/10.1016/j.chest.2020.09.246
ER  -