key: cord-1048329-u0aaoif4
authors: Nocci, Matteo; Dannaoui, Bassam; Della Corte, Francesco; Ragazzoni, Luca; Barone-Adesi, Francesco; Romagnoli, Stefano; De Gaudio, Angelo Raffaele; Rubulotta, Francesca; Mechi, Maria Teresa
title: Real-Time Coordination of the Regional Health System During the Pandemic
date: 2020-12-22
journal: Disaster medicine and public health preparedness
DOI: 10.1017/dmp.2020.501
sha: a17ec4cec30aec03eb2189e4ddabeefbd25a1232
doc_id: 1048329
cord_uid: u0aaoif4

nan

The 2019 coronavirus disease (COVID-19) pandemic is an enormous challenge for health care systems, with great impact on hospital response. 1 Advanced organization based on hospital alliances and consistent coordination among different levels is essential to handle high influx scenarios and expand surge capacity of the entire health system. [2] [3] [4] This paper describes the experience of the real-time coordination of the Tuscany region, Italy, a network of 43 hospitals with a total availability of approximately 11 000 beds, during the COVID-19 pandemic, through the use of a novel computerized operational tool (COV19-OT). COV19-OT is a web-based platform (developed with php, MySQL, and jQuery protocols) that aims to continuously track the critical components of hospital preparedness and response, especially regarding surge capacity and workloads of single hospitals.

COV19-OT is the collection point for all data from regional hospitals and other connected health care facilities (such as bed availability, occupancy surge capacity, equipment, etc.). The tool generates additional information (indicators) related to surge capacity at different levels (single hospital, health care company, regional). In terms of structure, the COV19-OT platform is made up of several different sections, the access to and functions of which depend on the user's profile and permission. The structure is described in Table 1 .

The assessment of hospital surge capacity and occupancy levels during a pandemic is an organizational requirement, 4,5 and inter-hospital coordination must be guaranteed in order to enact the necessary operative strategies. In our experience, COV19-OT allows updated, real measurement of additional beds available, as well as the calculation of surge indicators at any level, providing a data set that is not commonly available and is extremely useful during hospital overflows.

COV19-OT provides a precise mapping of COVID-19 and non-COVID-19 areas throughout the regional territory and the relative number of beds. At the operative level, the analysis of surge indicators allows users to activate strategies to balance workloads and avoid single-hospital saturation (eg, prehospital flow diversion or bio-containment medical transfer) and quickly move critical resources (eg, staff, ventilators, monitors). At the planning level, COV19-OT has allowed us to establish escalation or de-escalation strategies at each level (opening or closing of new COVID-19 or non-COVID-19 areas/hospitals) and consequently plan resource allocation based on indicators or critical threshold alerts. More importantly, the COV19-OT has guaranteed a rational approach to decision-making (identifying a critical threshold of hospital pressure on 32 days during which most of the operative strategies were adopted) and a rational approach, by sharing a unique management system based on common operative principles (ie, indicators, threshold, parameters).

The use of the tool could be limited by the need to manually upload data, which increases the risk of errors and referents' workloads; careful, continuous data checking is necessary. This limitation could be partially remedied with automated filing through an existing admission, discharge, and transfer (ADT) system. Dashboard Information management tool that allows real-time tracking of updated information regarding facilities inserted in section 1; dashboard is structured with a colored layout ( Figure 1 ).

Report Automatically generated twice daily. Information is categorized by organizational level (single hospital, health care company, large areas, regional), COVID-19/non-COVID-19 beds and the following: 1. Capacity: number of beds available for each treatment level 2. Expansion: number of additional beds activable in first, second, and third line 3. Additional resources (needed for extra beds) 4. Occupancy: number of beds occupied for each treatment level, including information on invasive/non-invasive ventilation 5. Surge indicators:

• Relative surge capacity (percentage increase of COVID-19 beds relative to baseline COVID-19 beds) • Absolute surge capacity (percentage increase of COVID-19 beds relative to baseline total beds) • Hospital workload level/pressure (percentage of occupied intensive beds relative to total number, including additional beds) • Intensive/non-intensive bed occupancy ratio

2 M Nocci et al.

COV19-OT is a promising tool to consistently assess surge capacity and related indicators in multi-hospital systems, improving real-time hospital coordination during hospital overload scenarios. Additional studies are needed to assess its impact on patient quality of care, outcomes, and health care system benefits.

Conflict(s) of Interest. The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this paper. . Structured with a colored layout, this section tracks, analyzes, and displays information for a single hospital or health care facility. Areas are described for each hospital or health care facility (column 1). For each area, the number of beds is updated at least twice daily, according to level of treatment:

• TI = intensive care (total in pink column) • SI = sub-intensive care (total in yellow column) • NI = non-intensive care (total in blue column) Type of location:

• C = multi-bed room • I = isolated • P = negative pressure • VI = invasive ventilation; VN = non-invasive ventilation. The "COVID" button changes to a view of the same information regarding COVID-19 occupied beds, specifically.

Coronavirus COVID-19 global cases by the Center for Systems Science and Engineering (CSSE) at Johns Hopkins. Updated

Surge capacity principles: care of the critically ill and injured during pandemics and disasters: CHEST consensus statement

Indications for healthcare surge capacity in European countries facing an exponential increase in coronavirus disease (COVID-19) cases

Hospital management preparedness tools in biological events: a scoping review

Translating COVID-19 pandemic surge theory to practice in the emergency department: how to expand structure