Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.

Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.

<h4>Aims</h4>To determine the out-of-hospital cardiac arrest (OHCA) rates and occurrences at municipality level through a novel statistical model accounting for temporal and spatial heterogeneity, space-time interactions and demographic features. We also aimed to predict OHCAs rates and...

Full description

Bibliographic Details
Main Authors: Angelo Auricchio, Stefano Peluso, Maria Luce Caputo, Jost Reinhold, Claudio Benvenuti, Roman Burkart, Roberto Cianella, Catherine Klersy, Enrico Baldi, Antonietta Mira
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0238067
id doaj-142f3d0c48d14c6685cf944900ef5d71
record_format Article
spelling doaj-142f3d0c48d14c6685cf944900ef5d712021-03-04T11:14:09ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01158e023806710.1371/journal.pone.0238067Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.Angelo AuricchioStefano PelusoMaria Luce CaputoJost ReinholdClaudio BenvenutiRoman BurkartRoberto CianellaCatherine KlersyEnrico BaldiAntonietta Mira<h4>Aims</h4>To determine the out-of-hospital cardiac arrest (OHCA) rates and occurrences at municipality level through a novel statistical model accounting for temporal and spatial heterogeneity, space-time interactions and demographic features. We also aimed to predict OHCAs rates and number at municipality level for the upcoming years estimating the related resources requirement.<h4>Methods</h4>All the consecutive OHCAs of presumed cardiac origin occurred from 2005 until 2018 in Canton Ticino region were included. We implemented an Integrated Nested Laplace Approximation statistical method for estimation and prediction of municipality OHCA rates, number of events and related uncertainties, using age and sex municipality compositions. Comparisons between predicted and real OHCA maps validated our model, whilst comparisons between estimated OHCA rates in different yeas and municipalities identified significantly different OHCA rates over space and time. Longer-time predicted OHCA maps provided Bayesian predictions of OHCA coverages in varying stressful conditions.<h4>Results</h4>2344 OHCAs were analyzed. OHCA incidence either progressively reduced or continuously increased over time in 6.8% of municipalities despite an overall stable spatio-temporal distribution of OHCAs. The predicted number of OHCAs accounts for 89% (2017) and 90% (2018) of the yearly variability of observed OHCAs with prediction error ≤1OHCA for each year in most municipalities. An increase in OHCAs number with a decline in the Automatic External Defibrillator availability per OHCA at region was estimated.<h4>Conclusions</h4>Our method enables prediction of OHCA risk at municipality level with high accuracy, providing a novel approach to estimate resource allocation and anticipate gaps in demand in upcoming years.https://doi.org/10.1371/journal.pone.0238067
collection DOAJ
language English
format Article
sources DOAJ
author Angelo Auricchio
Stefano Peluso
Maria Luce Caputo
Jost Reinhold
Claudio Benvenuti
Roman Burkart
Roberto Cianella
Catherine Klersy
Enrico Baldi
Antonietta Mira
spellingShingle Angelo Auricchio
Stefano Peluso
Maria Luce Caputo
Jost Reinhold
Claudio Benvenuti
Roman Burkart
Roberto Cianella
Catherine Klersy
Enrico Baldi
Antonietta Mira
Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.
PLoS ONE
author_facet Angelo Auricchio
Stefano Peluso
Maria Luce Caputo
Jost Reinhold
Claudio Benvenuti
Roman Burkart
Roberto Cianella
Catherine Klersy
Enrico Baldi
Antonietta Mira
author_sort Angelo Auricchio
title Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.
title_short Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.
title_full Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.
title_fullStr Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.
title_full_unstemmed Spatio-temporal prediction model of out-of-hospital cardiac arrest: Designation of medical priorities and estimation of human resources requirement.
title_sort spatio-temporal prediction model of out-of-hospital cardiac arrest: designation of medical priorities and estimation of human resources requirement.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description <h4>Aims</h4>To determine the out-of-hospital cardiac arrest (OHCA) rates and occurrences at municipality level through a novel statistical model accounting for temporal and spatial heterogeneity, space-time interactions and demographic features. We also aimed to predict OHCAs rates and number at municipality level for the upcoming years estimating the related resources requirement.<h4>Methods</h4>All the consecutive OHCAs of presumed cardiac origin occurred from 2005 until 2018 in Canton Ticino region were included. We implemented an Integrated Nested Laplace Approximation statistical method for estimation and prediction of municipality OHCA rates, number of events and related uncertainties, using age and sex municipality compositions. Comparisons between predicted and real OHCA maps validated our model, whilst comparisons between estimated OHCA rates in different yeas and municipalities identified significantly different OHCA rates over space and time. Longer-time predicted OHCA maps provided Bayesian predictions of OHCA coverages in varying stressful conditions.<h4>Results</h4>2344 OHCAs were analyzed. OHCA incidence either progressively reduced or continuously increased over time in 6.8% of municipalities despite an overall stable spatio-temporal distribution of OHCAs. The predicted number of OHCAs accounts for 89% (2017) and 90% (2018) of the yearly variability of observed OHCAs with prediction error ≤1OHCA for each year in most municipalities. An increase in OHCAs number with a decline in the Automatic External Defibrillator availability per OHCA at region was estimated.<h4>Conclusions</h4>Our method enables prediction of OHCA risk at municipality level with high accuracy, providing a novel approach to estimate resource allocation and anticipate gaps in demand in upcoming years.
url https://doi.org/10.1371/journal.pone.0238067
work_keys_str_mv AT angeloauricchio spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT stefanopeluso spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT marialucecaputo spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT jostreinhold spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT claudiobenvenuti spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT romanburkart spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT robertocianella spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT catherineklersy spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT enricobaldi spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
AT antoniettamira spatiotemporalpredictionmodelofoutofhospitalcardiacarrestdesignationofmedicalprioritiesandestimationofhumanresourcesrequirement
_version_ 1714804358788415488

Similar Items