key: cord-0855839-fzzf766f
authors: The COVID-19 APHP-Universities-INRIA-INSERM Group,; Riou, B.
title: Emergency calls are early indicators of ICU bed requirement during the COVID-19 epidemic
date: 2020-06-05
journal: nan
DOI: 10.1101/2020.06.02.20117499
sha: 68331ba0051c46a7623ccbec26cd8fc092e47e29
doc_id: 855839
cord_uid: fzzf766f

Background: Although the number of intensive care unit (ICU) beds is crucial during the COVID-19 epidemic caring for the most critically ill infected patients, there is no recognized early indicator to anticipate ICU bed requirements. Methods: In the Ile-de-France region, from February 20 to May 5, 2020, emergency medical service (EMS) calls and the response provided (ambulances) together the percentage of positive reverse transcriptase polymerase chain reaction (RT-PCR) tests, general practitioner (GP) and emergency department (ED) visits, and hospital admissions of COVID-19 patients were recorded daily and compared to the number of COVID-19 ICU patients. Correlation curve analysis was performed to determine the best correlation coefficient (R), depending on the number of days the indicator has been shifted. A delay [≥]7 days was considered as an early alert, and a delay [≥]14 days a very early alert. Findings: EMS calls, percentage of positive RT-PCR tests, ambulances used, ED and GP visits of COVID-19 patients were strongly associated with COVID-19 ICU patients with an anticipation delay of 23, 15, 14, 13, and 12 days respectively. Hospitalization did not anticipate ICU bed requirement. Interpretation: The daily number of COVID19-related telephone calls received by the EMS and corresponding dispatch ambulances, and the proportion of positive RT-PCR tests were the earliest indicators of the number of COVID19 patients requiring ICU care during the epidemic crisis in the Ile-de-France region, rapidly followed by ED and GP visits. This information may help health authorities to anticipate a future epidemic, including a second wave of COVID19 or decide additional social measures. Funding: Only institutional funding was provided.

The COVID-19 pandemic has a high impact on public health in many countries. 1 The medical response has combined all hospital resources, including emergency departments (ED), conventional hospitalization, and intensive care units (ICU) . Despite the beginning of the epidemic in China in early December, 2 most Western countries were not sufficiently prepared for its intensity and particularly the wave of critically ill patients requiring intensive care. Except for some countries which succeeded in early control of epidemic transmission chains (South Korea, Hong Kong), 3, 4 most countries (China, Italy, France, Spain, UK, USA and Brazil) experienced a rapidly diffusing epidemic pattern. It strucked the health care system with a rare violence and threatened possible ICU bed shortage which would have led to additional mortality. [5] [6] [7] Although epidemiological analyses provided accurate early information concerning the progression of the epidemic, 8 they were not able to predict its evolution at the peak of the crisis (including the number of ICU beds required). The peak of the crisis depends indeed on collective measures (testing, isolation of infected patients, social distancing, wearing mask, hand washing, and lockdown), which are the only actions with proven efficacy in the absence of proven specific treatment and/or vaccination to date. 9 In France, all patients requiring ICU were admitted in such units, but this result was only obtained by a considerable increase in the number of ICU beds, and massive inter-regional ICU patient transfers, to avoid overwhelming of local ICUs. 10 The aim of our study was to evaluate what would have been the most reliable early COVID19-related signals to anticipate ICU beds requirements. Because several days elapsed between the onset of clinical symptoms and worsening in a small proportion of infected patients requiring ICU (estimated around 5%), 11 we hypothesized that such early signals exists and may be helpful for both public health policy or decisions and hospital management.

Thus, we investigated the telephone calls received by the emergency medical services (EMS) All rights reserved. No reuse allowed without permission.

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The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint and the immediate response provided, visits to general practitioners (GP) and emergency department (ED), hospital in-patient admissions, and positive reverse transcriptase polymerase chain reaction (RT-PCR) tests. We think that this analysis could help health care systems to more rapidly adapt to a future epidemic, including a possible second wave of COVID-19. 12 These indicators may help health authorities to decide additional measures such as new lockdown or any other preventive measures at the population level.

The Figure S1 ). The individual SAMUs operate identically, use the same health information and management system (Centre d'Appel de Régulation MEdicale Nominal (CARMEN) created in 2010) and provide an adapted answer to calls to "15", the French tollfree number dedicated to medical emergencies. This service is based on a medical response to emergency calls where an emergency physician decides the appropriate response for each case. Depending on the evaluation of the severity of the case and the circumstances, the phone response may be a medical advice, a home visit of a GP, the dispatch of an ambulance or rescue workers, and, in the most serious cases, sending a mobile intensive care unit (MICU) staffed by an emergency physician sent on scene as a second or a first tier. 13 To cope with the surge of calls during the COVID-19 crisis, the 4 SAMUs involved in the study have increased their response capacity by creating specific procedures for COVID-19-related calls, such as staff increase, dedicated computer stations, interactive voice server, video consultation, sending instructions by SMS. Prehospital EMT and MICU teams were also significantly All rights reserved. No reuse allowed without permission.

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The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint reinforced. Since January 20, 2020 all calls and patient records related to COVID-19 were identified in their information system and a daily automated activity report was produced.

The primary endpoint was the number of COVID19 patients who were present in ICU in the Ile de France region during the study period (from February 20 to May 5, 2020). The secondary endpoint was the daily number of new COVID19 patients admitted into ICU.

During the study period, APHP staffed a regionalized and dedicated team to ensure that information concerning ICU bed availability was accurate and available in real time (Répertoire Opérationnel des Ressources Ile-de-France; https://www.ror-if.fr/ror/) and could help any physician to rapidly find an ICU bed for a given patient. 10 We collected daily the number of ICU patients from the Système d'Information pour le Suivi des Victimes (SI-VIC) database which provides real time data on the COVID-19 patients hospitalized in French public and private hospitals (https://www.data.gouv.fr) and was activated for COVID-19 epidemic on March 13, 2020. Before that date, the number of ICU patients was collected by a direct centralized survey of the Regional Health Agency. All COVID-19 ICU cases were confirmed by RT-PCR or computed tomographic scan suggestive of SARS-CoV-2 infection.

We studied 6 indicators as they were reliable and accessible on a daily basis: 1) number of emergency calls received by the 4 SAMUs of APHP and diagnosed as suspected COVID19 patients, using the CARMEN database; 2) number of these patients requiring (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint RT-PCR tests for COVID19 in the Ile-de-France region. Only the percentage of positive results was considered because the availability of biological tests was markedly limited during the early phase of the epidemic. Moreover, during this early phase, only the APHP could perform RT-PCR. Publicly available sources and APHP data warehouse produced data with de-identified information.

For each indicator, we determined the onset defined as the first day the indicator became positive, 50% increase, and peak of the curve during the ascension phase. For these three points, we calculated delays as compared to endpoints. We performed correlation curve analysis during the whole study period by plotting (ICU patients at date T) vs (value of the indicator at date T+t) and varying t, to determine the best correlation coefficient, depending on the number of days the indicator had been shifted. The primary variable chosen to assess time delay was the correlation curve, and a time lag value ≥ 7 days was considered as an early alert indicator, and ≥ 14 days a very early one. For each indicator, we computed the timedependant reproduction ratio (R(t)) using a gamma-distributed generation interval distribution with mean 6 days and standard deviation 4 days. 14 We retrospectively investigated how these indicators could have been used as tools to anticipate the burden of ICU COVID19 patients. Since the initial capacity of ICU beds was 40% of that reached at the peak of the crisis we decided to fix this 40% threshold as the upper limit for each indicator, as previously reported, 15 and half of this threshold (20%) was made the lower acceptable limit, delimiting a red zone above 40%, a green zone below 20% and an orange zone between these two limits. In addition, we also defined the slope for each indicator that correspond to the 40 and 20% of the maximum slope reached during the initial raise, using the same colour-coding.

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The copyright holder for this preprint this version posted June 5, 2020. Correlation between two variables was assessed using the parametric Pearson test and expressed as a correlation coefficient. A P value of less than 0.05 was considered significant.

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The median daily number of emergency calls received by the EMS was 1536 (IQR Table 1 summarizes the delay between these indicators and the primary and secondary endpoints according to the main characteristics of the curves. Correlation curve analysis is shown in Electronic supplements Figure S2 and S3. Figure 2 shows what happened if a semi-quantitative analysis of these indicators and their respective thresholds and slopes had been applied during the initial phase of the epidemic.

The time-dependant reproduction ratio confirmed that the number of EMS calls informed early on the epidemic course ( Figure 3 ). The effect of the lockdown on transmission All rights reserved. No reuse allowed without permission.

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was shown almost in real time, crossing the R=1 threshold 2 days after its adoption and remaining below afterwards. Similar information was obtained from other indicators with delays up to 15 days.

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The present study shows that five indicators (EMS calls, percentage of positive RT-PCR tests, dispatch ambulances, ED and GP visits) anticipated the burden of ICU patients for at least 7 days during the COVID19 epidemic, the first three by at least 14 days. This result suggests that they could be valuable tools as daily alert signals to set up plan to face the outbreak burden during the initial wave of the epidemic and may possibly also work during a second wave. These results are important since mortality has been reported being correlated to health care resources. 16 Although many studies estimated the number of patients who would have severe COVID-19, 17,18 very few have assessed early signals associated with ICU requirements.

These studies investigated internet or social media data. [19] [20] [21] To our knowledge, no study analyzed data from COVID-19 suspected or infected patients. 22 Since several days (estimation Among all tested indicators, EMS calls for COVID19 was a very early one. As many countries have this type of health care organization for emergency calls, the use of this signal is widely applicable although political incitation to use this canal for the population to signal COVID19 infection may differ from one country to another. However, once appropriately used this indicator is early and sensitive. The observed delay between EMS calls and admission into ICU concords with those reported for worsening of the disease. 23 Moreover, the medical assessment of emergency calls may be improved by learning from the first wave.

The dispatch of ambulances by EMS was also a very early indicator. It should be pointed out All rights reserved. No reuse allowed without permission.

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The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint that health authorities initially recommended symptomatic patients not to come directly to ED but rather to call the EMS which were instructed to only transport to hospitals patients needing hospital care and to refer others to GP if ambulatory care was needed. The inclusion of MICU ambulances may have also introduced a bias since some of these severe patients were directly admitted into ICU. Consequently, in different EMS systems, we cannot exclude that transport to the ED may behave differently.

The third very early indicator was the proportion of positive RT-PCR for COVID19.

Many countries as well as the WHO have emphasized the importance of an early detection of the SARS-CoV2 virus by molecular diagnosis. 24 South Korea and Germany in Europe have widely used extensive testing to better control the epidemic. 25, 26 It is therefore not surprising that this test appears as an early indicator for the COVID19 epidemic. Moreover, when testing is performed on a large scale to detect not only infected patients but also contact individuals, the signals provided by positive RT-PCR may occur earlier, which was not the case in France at the time of the first wave. The population tested further evolved with the course of the epidemic, particularly the proportion of positive patients admitted to the hospital. In France, because of initial test shortage, RT-PCR was reserved for hospitalized patients, including ICU patients, and health staff. As the epidemic diminished and RT-PCR availability increased, more tests were performed for outpatients and their respective contacts to decrease epidemic chain transmission in France. In this situation, the positive RT-PCR may become an earlier test, since some additional time elapses (estimated 3-5 days) between contamination and onset of symptoms. Further studies are required to investigate that point.

Other early indicators were the number of COVID19 diagnosis made by GP and ED.

As hospitals were seen by patients as potentially dangerous, many of them were not prompted to attend the ED which led to a dramatic decrease in ED visits for any causes in France during the COVID19 epidemic, as previously reported. 28 The use of GP diagnosis is a valuable tool All rights reserved. No reuse allowed without permission.

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The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint if a national or regional system uploads valuable and structured information in real time.

France converted an existing system for an influenza epidemic, to COVID-19 survey, 27 but the number of involved GP remained relatively low and, as they are not available 24 hour a day, they could only enrolled a limited number of patients. The French mobile GP network SOS Médecins offers an alternative for our purpose since their members recorded appropriate clinical information concerning COVID-19 patients during the study period. This network has been included in a national process survey of epidemics since many years. Our results can be applicable to other countries when such organization is at work or when alternative and reliable GP based clinical data is collected. In addition, the French health care authorities have now promoted all GPs as key actors in the detection of COVID clusters. Therefore, evaluation and survey of GP visits should certainly become more sensitive.

Hospital admission ended up not being an early indicator of the number of ICU patients. This result concords with previous studies reporting that the delay between hospital admission to admission into ICU is closed to one day. 29 Several limitations of this study should be noted. First, although the sample sizes were large, our observation was limited to one region of France (with a very high population density) and one event and thus extrapolation should be interpreted with caution. Second the geographical repartition and population was not identical between some indicators and endpoints (Electronic supplement Figure S1 ). However, there was a very high correlation between ICU patients in the region and in APHP as the regulation of ICU bed availability was regionalized during the epidemic and based at the APHP. The GP indicator only reflects a particular activity (emergency visits at home) which is not distributed everywhere (less in rural areas) but this was the only accessible GP indicator. Because of biological test shortage, we only looked at the proportion of positive RT-PCR tests but the absolute number should probably be preferred in countries without such limitation. The presence of physicians All rights reserved. No reuse allowed without permission.

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The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint (telemedicine) and not only emergency medical technicians (EMT) characterizes the French EMS model. Nevertheless, there is no indication suggesting that an EMT-based system using scripts may not lead to comparable results, particularly during an epidemic wave with a high prevalence of the disease. Definition of COVID-19 suspected diagnosis may have slightly varied during the study period in EMS, ED, and GP and between physicians. Admission into ICU has been modified during the study period as intensivists better understood the characteristics of the disease and modified their therapeutic approaches, particularly trying to avoid tracheal intubation, 30 and transfers of ICU patients outside the region was performed just before the peak. Lastly, the raw signal of the indicators was sometimes noisy and a more advanced mathematical analysis could improve their performance.* Despite these limitations, we consider that our comparisons remain valid and could be adapted to most health systems and potentially to other types of epidemic scheme.

The daily number of COVID19-related telephone calls received by the EMS and corresponding ambulance dispatch, and the proportion of positive RT-PCR were the earliest indicators of the number of COVID19 patients requiring ICU care during the epidemic crisis in the Ile-de-France region, rapidly followed by ED and GP visits. This information may help health authorities to anticipate a future epidemic, including a second wave of COVID19, to monitor lockdown exit and decide additional social measures to better control COVID-19 outbreak.

* Gaubert S and colleagues. Forecasting the local progression of the COVID-19 epidemic from medical emergency calls. https://arxiv.org/abs/2005.14186 All rights reserved. No reuse allowed without permission.

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The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint their respective thresholds and slope had been applied during the initial phase of the epidemic.

Since initial capacity of ICU bed was 40% of the one reached at the peak of the crisis, a red zone was defined above this threshold, a green zone below half of this threshold (i.e. 20 % of ICU bed maximum capacity), and an orange zone between these two limits. We also defined the slope for each indicator that correspond to the 40 and 20% of the maximum slope reached during the initial raise, using the same colour coding. The first red flags would have occurred on February 24 (slope) and March 4 (threshold) for COVID19 EMS calls, 22 and 13 days before the date of the French lockdown (March 17, 2020).

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The Ile-de-France region (12·1 million inhabitants) comprises 8 administrative sub-identities, indicated by their number on the map, the town of Paris being 75. In the present study, the numbers of emergency departments (ED) visits, positive reverse transcriptase polymerase chain reaction (RT-PCR) tests, hospital admissions, intensive care unit (ICU) patients, and new ICU patients were obtained from the whole region. A regionalized organization was installed enabling to rapidly find an ICU bed for a given patient wherever the patient was initially admitted. Panel A: Data from emergency medical system (EMS), including emergency calls and dispatch of ambulances were obtained from the Paris city (75) and its inner suburbs which comprise 4 administrative sub-entities (75, 92, 93, 94) and their respective EMS (6·71 million inhabitants). Panel B: Data from general practitioner (GP, SOS Médecins network) were obtained from the Ile-de-France region but the density of activity of this GP network (expressed as number of annual visits per million inhabitants).is heterogeneous within the Ile-de-France region.

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The copyright holder for this preprint this version posted June 5, 2020. . https://doi.org/10.1101/2020.06.02.20117499 doi: medRxiv preprint Electronic Supplement Figure S2 Correlation curves of the 6 tested indicators compared to the number of intensive care unit (ICU) patients during the study period. EMS: emergency calls; GP: general practitioner; ED: emergency department. D: delay (in days) between the two variables. R 2 : Pearson coefficient of correlation.

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We thank Dr. David Baker, DM, FRCA, (Department of Anesthesiology

 Figure S3