FAST-ED scale for prehospital triage of large vessel occlusion: results in the field

Carbonera, Leonardo Augusto; Souza, Ana Claudia de; Rodrigues, Márcio da Silveira; Mottin, Marcos Darrigo; Nogueira, Raul Gomes; Martins, Sheila Cristina Ouriques

doi:10.1055/s-0042-1755536

Abstract

Background

Acute ischemic stroke (AIS) is an extremely time-sensitive condition. The field triage of stroke patients should consider a careful balance between the best destination for the timely delivery of intravenous and/or endovascular reperfusion therapies. The Field Assessment Stroke Triage for Emergency Destination (FAST-ED) scale has been shown to have an accuracy comparable to that of the National Institutes of Health Stroke Scale (NIHSS). However, it has not been tested in the field.

Objective

To evaluate the accuracy of the FAST-ED scale in the detection of AIS due to large vessel occlusion (LVO) in the prehospital setting.

Methods

A cross-sectional study of consecutive prospective data collected from February 2017 to May 2019 in the city of Porto Alegre, state of Rio Grande do Sul, Southern Brazil, correlating the prehospital FAST-ED scale scores with the hospital diagnosis of LVO. Area under the curve (AUC), sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) were calculated.

Results

In total, 74 patients were included in the analysis. As compared with the diagnosis of LVO upon hospital discharge, the prehospital FAST-ED scale applied by paramedics had a sensitivity of 80%, a specificity of 47.7%, a PPV of 51.1%, an NPV of 77.8%, and an AUC of 0.68 (95% confidence interval [95%CI]: 0.55–0.80). Among the patients with a final diagnosis of AIS, the accuracy was higher, with an AUC of 0.75 (95%CI: 0.60–0.89), a sensitivity of 80%, a specificity of 60%, a PPV of 80%, and an NPV of 60%.

Conclusions

In the present study, the FAST-ED scale, which was applied by paramedics in the field, demonstrated moderate accuracy but high sensitivity and NPV, which are essential attributes for a triage scale. While larger studies are still needed, these findings further support the use of the FAST-ED in stroke triage.

Keywords:
Stroke; Triage; Emergency Medical Services; Thrombectomy; Mobile Applications

Resumo

Antecedentes

O acidente vascular cerebral isquêmico (AVCI) é uma doença altamente dependente do tempo. A triagem de pacientes com AVCI na cena deve considerar um equilíbrio cuidadoso entre o melhor destino para a administração rápida de terapias de reperfusão intravenosas e/ou endovasculares.Jáfoi demonstrado que a escala deAvaliação de campo de triagem de AVC para destino de emergência (Field Assessment Stroke Triage for Emergency Destination, FAST-ED, em inglês) tem precisão comparável à da Escala de AVC dos Institutos Nacionais de Saúde dos Estados Unidos (National Institutes of Health Stroke Scale, NIHSS, em inglês). Entretanto, a FAST-ED não foi testada em campo.

Objetivo

Avaliar a acurácia da escala FAST-ED na detecção de AVCI por oclusão de grande vaso (OGV) no contexto pré-hospitalar.

Métodos

Estudo transversal de dados prospectivos consecutivos, coletados de fevereiro de 2017 a maio de 2019, em Porto Alegre, Rio Grande do Sul, Brasil, em que se correlacionam a pontuação pré-hospitalar na escala FAST-ED e o diagnóstico hospitalar de OGV. A área sob a curva (ASC), a sensibilidade, a especificidade, o valor preditivo positivo (VPP), e o valor preditivo negativo (VPN) foram calculados.

Resultados

Ao todo, 74 pacientes foram incluídosnaanálise. Comparada aodiagnóstico de OGV na alta hospitalar, a escala FAST-ED aplicada em campo por profissionais do préhospitalar teve sensibilidadede80%, especificidadede47,7%, VPPde51,1%, VPN de 77,8%, e ASC de 0,68 (intervalo de confiança de 95% [IC95%]: 0,55–0,80). Entre pacientes com diagnóstico final de AVCI, a precisão foi mais alta, com ASC de 0,75 (IC95%: 0,60–0,89), sensibilidade de 80%, especificidade de 60%, VPP de 80%, e VPN de 60%.

Conclusões

Neste estudo, a escala FAST-ED, aplicada por profissionais do pré-hospitalar em campo, demonstrou precisão moderada, com alta sensibilidade e VPN, atributos essenciaispara umaescaladetriagem.Embora estudoscomamostras maiores ainda sejam necessários, estes achados apoiam o uso da FAST-ED na triagem de AVCI.

Palavras-chave:
Acidente Vascular Cerebral; Triagem; Serviços Médicos de Emergência; Trombectomia; Aplicativos Móveis

INTRODUCTION

Acute ischemic stroke (AIS) is an extremely time-sensitive condition, and its optimal management depends on the referral of the patient to a hospital with adequate staff and structure.²2 Caplan LR. Basic Pathology, Anatomy, and Pathophysiology of Stroke. In: Caplan’s Stroke. Elsevier pp. 22–63,³3 Lima FO, Mont’Alverne FJA, Bandeira D, Nogueira RG. Pre-hospital Assessment of Large Vessel Occlusion Strokes: Implications for Modeling and Planning Stroke Systems of Care. Front Neurol 2019;10:955Epub ahead of print. Doi: 10.3389/fneur.2019.00955
https://doi.org/10.3389/fneur.2019.00955... After studies found evidence of the benefit of mechanical thrombectomy (MT) for the treatment of AIS with large vessel occlusion (LVO),⁴4 Berkhemer OA, Fransen PSS, Beumer D, et al;MR CLEAN Investigators. A randomized trial of intraarterial treatment for acute ischemic stroke. N Engl J Med 2015;372(01):11–20, ⁵5 Campbell BCV, Mitchell PJ, Kleinig TJ, et al;EXTEND-IA Investigators. Endovascular therapy for ischemic stroke with perfusionimaging selection. N Engl J Med 2015;372(11):1009–1018, ⁶6 Goyal M, Demchuk AM, Menon BK, et al;ESCAPE Trial Investigators. Randomized assessment of rapid endovascular treatment of ischemic stroke. N Engl J Med 2015;372(11):1019–1030, ⁷7 Jovin TG, Chamorro A, Cobo E, et al;REVASCAT Trial Investigators. Thrombectomy within 8hours after symptom onset in ischemic stroke. N Engl J Med 2015;372(24):2296–2306, ⁸8 Saver JL, Goyal M, Bonafe A, et al;SWIFT PRIME Investigators. Stent-retriever thrombectomy after intravenous t-PA vs. t-PA alone in stroke. N Engl J Med 2015;372(24):2285–2295 it is no longer only necessary to identify AIS in the prehospital setting, but it has become critical to further categorize the events as potential LVOs to define the best destination for the timely delivery of intravenous and/or endovascular reperfusion therapies.⁹9 Powers WJ, Rabinstein AA, Ackerson T, et al. Guidelines for the Early Management of Patients With Acute Ischemic Stroke: 2019 Update to the 2018 Guidelines for the Early Management of Acute Ischemic Stroke: A Guideline for Healthcare Professionals From the American Heart Association/American Stroke Association. Stroke 2019;50(12):e344–e418

In this setting, many different prehospital stroke scales have been proposed.¹⁰10 Zhelev Z, Walker G, Henschke N, Fridhandler J, Yip S. Prehospital stroke scales as screening tools for early identification of stroke and transient ischemic attack. Cochrane Database Syst Rev 2019; 4:CD011427; Epub ahead of print. Doi: 10.1002/14651858. CD011427.pub2
https://doi.org/10.1002/14651858... Amongst them, the Rapid Arterial Occlusion Evaluation (RACE),¹¹11 Pérez de la Ossa N, Carrera D, Gorchs M, et al. Design and validation of a prehospital stroke scale to predict large arterial occlusion: the rapid arterial occlusion evaluation scale. Stroke 2014;45(01):87–91 the Cincinnati Prehospital Stroke Severity Scale (CPSSS),¹²12 Katz BS, McMullan JT, Sucharew H, Adeoye O, Broderick JP. Design and validation of a prehospital scale to predict stroke severity: Cincinnati Prehospital Stroke Severity Scale. Stroke 2015;46(06): 1508–1512 and the Field Assessment Stroke Triage for Emergency Destination (FAST-ED)¹³13 Lima FO, Silva GS, FurieKL, etal.Field Assessment StrokeTriage for Emergency Destination: A Simple and Accurate Prehospital Scale to Detect Large Vessel Occlusion Strokes. Stroke 2016;47(08): 1997–2002 have been compared with the National Institutes of Health Stroke Scale (NIHSS) regarding the accuracy in the detection of LVO in AIS patients. A previous study¹³13 Lima FO, Silva GS, FurieKL, etal.Field Assessment StrokeTriage for Emergency Destination: A Simple and Accurate Prehospital Scale to Detect Large Vessel Occlusion Strokes. Stroke 2016;47(08): 1997–2002 demonstrated that the FAST-ED scale had an accuracy comparable to that of the NIHSS, and higher accuracy than that of the CPSSS and RACE in the detection of LVO.

The FAST-ED scale was the basis for the development of the JoinTriage app (formerly FAST-ED app),¹⁴14 Nogueira RG, Silva GS, Lima FO, et al. The FAST-ED App: A Smartphone Platform for the Field Triage of Patients With Stroke. Stroke 2017;48(05):1278–1284 a smartphone application intended to deliver the scale in a handheld device, enabling a quicker recognition of the LVO patient in the field. Patients with a score below 4 points are labeled as “low probabilityofLVO”, and should preferablybe directed to the nearest hospital, be it a primary stroke center (PSC) or a comprehensivestroke center (CSC); and patients withascore of 4 or more points are labeled as “high probability of LVO”, and should preferably be directed to an CSC, depending on the distance and the possibility of “drip-and-ship” or “mothership” regional protocols. The scale has shown good agreement among physicians with different levels ofexperience,¹⁵15 Puolakka T, Virtanen P, Kuisma M, et al. Validation of the FAST-ED score for prehospital identification of stroke patients with large-vessel occlusion and a comparison with the clinician’s judgment. In: Abstracts. BritishMedical Journal Publishing Group p. A4.3–A5 as well as between emergency medical services (EMS) personnel and emergency physicians.¹⁶16 Guillory BC, Gupta AA, Cubeddu LX, Boge LA. Can Prehospital Personnel Accurately Triage Patients for Large Vessel Occlusion Strokes? J Emerg Med 2020;58(06):917–921

However, the FAST-ED scale has not been previously tested by prehospital healthcare professionals in the field. The present study aims to evaluate the accuracy of the FASTED scale in the JoinTriage app in the prehospital setting, in the regional stroke network of the city of Porto Alegre, state of Rio Grande do Sul, Southern Brazil.

METHODS

A pragmatic, cross-sectional study that compared the prehospital diagnosis of LVO by the FAST-ED scale to the final diagnosis upon hospital discharge. The FAST-ED scale was prospectively applied to patients with suspected AIS evaluated by the local EMS, called Serviço de Atendimento Móvel de Urgência (SAMU), in the city and metropolitan area of Porto Alegre, from February 2017 to May 2019. The city’s stroke network provides care to ~ 1.5 million inhabitants,¹⁷17 IBGE. Cidades e estados - Porto Alegre. https://www.ibge.gov.br/cidades-e-estados/rs/porto-alegre.html2020, accessed 19 November 2020)
https://www.ibge.gov.br/cidades-e-estado... and had, at the time of the study, 1 public CSC and 3 PSCs. The app was available in 22 ambulances and at the dispatch center. The paramedics assessed the patients according to the SAMU stroke protocol and decided, on their discretion, whether or not to apply the FAST-ED scale within six hours of symptom onset. The inclusion criteria were patients assessed through the FAST-ED scale by the EMS staff, and availability of the data in the patient’s medical records. All patients consecutively assessed were included in the analysis. Hospital emergency physicians and neurologists were unblinded to the score of the pre-hospital scale, but radiologists were blinded.

The JoinTriage App – FAST-ED Scale

The JoinTriage app contains the FAST-ED scale, which was designed to present a series of clinical questions to the healthcare professional to help estimate the probability of LVO in the prehospital setting (►Table 1). Scores are not assigned to questions 1 to 4 in the app, and they can be used in some scenarios as criteria to select the patient’s destination –which was not the case of the present study. The FASTED App and its development has been detailed elsewhere.¹⁴14 Nogueira RG, Silva GS, Lima FO, et al. The FAST-ED App: A Smartphone Platform for the Field Triage of Patients With Stroke. Stroke 2017;48(05):1278–1284

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Table 1
Clinical questions of the FAST-ED scale in the JoinTriage smartphone app

Patients with a score of 4 or more points were preferably referredtothelocal CSC (Hospitalde Clínicasde PortoAlegre, HCPA), whereas patients with a score below 4 points were referred either to the HCPA, to one of the two local PSCs (Hospital Nossa Senhora da Conceição – HNSC – and Hospital Santa Casa de Misericórdia de Porto Alegre, HSCMPA) (►Figure 1). This cutoff point was used according to the findings of the FAST-ED validation study.¹³13 Lima FO, Silva GS, FurieKL, etal.Field Assessment StrokeTriage for Emergency Destination: A Simple and Accurate Prehospital Scale to Detect Large Vessel Occlusion Strokes. Stroke 2016;47(08): 1997–2002 The diagnostic evaluation and clinical management followed institutional guidelines.

Figure 1
Abbreviations: SAMU, Serviço de AtendimentoMóvel de Urgência; FAST-ED, Field Assessment Stroke Triage for Emergency Destination. Protocol of patient referral based on the score on the FAST-ED scale. Abbreviations: SAMU, Serviço de Atendimento Móvel de Urgência; FAST-ED, Field Assessment Stroke Triage for Emergency Destination.

Definition of large vessel occlusion

For the purpose of the present study, patients were considered as having AIS with LVO if they presented one of the following: 1) evidence of complete occlusion of the middle cerebral artery (MCA, M1 or proximal M2 segments), internal carotid artery (ICA) or basilar artery on computed tomographyangiography (CTA), and/or 2) evidence of a large territory infarction consistent with occlusion in one of the aforementioned arteries. The latter strategy was adopted because spontaneous reperfusion could have occurred prior to the imaging studies as well as due to the fact that CTA was not routinely performed for all patients in some of the PSCs. The neuroimaging was interpreted by a neuroradiologist who was blinded to the FAST-ED score of the patient.

Data collection

Data was retrieved from the registries of the JoinTriage app, the SAMU database and patient medical records in the three hospitals. We collected data on the time it took to perform certain services and procedures (symptom onset, call to the SAMU, arrival at the scene, arrival at the emergency department (ED), neurological examination, neuroimaging acquisition, intravenous thrombolysis, and groinpuncture for MT), the score on the FAST-ED scale, the NIHSS score upon the admission, the diagnostic suspicion after the first medical encounter, the diagnosis after neuroimaging, and the final diagnosis at the hospital discharge. The study was registered in the local Institutional Review Board, and a consent form waiver was obtained. Authorization to collect data from the patient records was obtained from the SAMU and the three hospitals participating in the study. The access to the data was limited to members of the study staff, and measures were taken to ensure confidentiality. Given the sensitive nature of the data collected, requests to access the dataset from qualified researchers trained in human subject confidentiality protocols maybesent tothe corresponding author.

Data analysis

The sensitivity, specificity, positive predictive value (PPV), negative predictive value (NPV) and accuracy(area under the curve, AUC) were calculated comparing the pre-hospital FAST-ED score (from 0 to 7 points) as the test variable to the final diagnosis at hospital discharge (absence of LVO as negative, presence of LVO as positive) as the state variable. Nominal variables (gender, age, diagnosis and hospital of destination) were presented as frequencies and compared using the chi-squared test. The continuous variables (service and procedure times) were presented as medians with respective interquartile ranges (IQRs) and compared using the Mann-Whitney U test. Values of p below 0.05 were considered statistically significant. The Statistical Package for the Social Sciences (IBM SPSS Statistics for Windows, IBM Corp., Armonk, NY, United States) software, version 26.0, was used for the statistical analysis.

Ethical procedures

All procedures in the studies involving human participants were performed in accordance with the ethical standards of the institutional and/or national research committee, as well as with the 1964 Helsinki Declaration and its later amendments or comparable ethical standards. The present study was approved by the Local Ethics Committee of HCPA, and the consent form was waived.

RESULTS

A total of 74 patients were included in the analysis. The median of age was of 67.5 years, and 43.2% were female patients. The median score on the NIHSS was 12 (IQR: 7–14), with no statistical differences among hospitals (p = 0.335). Four patients were excluded becausewewere notabletofind the on the hospital databases (►Figure 2). The diagnosis at hospital discharge was of AIS in 45 (60.8%) out of the 74 patients, and 30 (66.6%) out these 45 cases of AISwere due to LVO. The rates of hemorrhagic stroke, transient ischemic attack (TIA), and stroke mimics were of 13.5%, 5.4%, and 20.2% respectively (►Table 2).

Figure 2
Study Flowchart. Abbreviations: SAMU, Serviço de Atendimento Móvel de Urgência; FAST-ED: Field Assessment Stroke Triage for Emergency Destination.

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Table 2
Final diagnosis at discharge of the patients included in the study^* * p-value> 0.05 for all variables. In this cohort, stroke mimics comprises: anemia (1); functional neurological deficit (1); hyperglycemia (1); sepsis (1); recrudescence of deficits (1); seizure (3); chronic neurological deficits (1); syncope (2); encephalitis (1); and undetermined etiology (3). Values expressed as absolute numbers, followed by relative percentages.

Among the 30 LVO patients, 20 presented an arterial occlusion on CTA (in the ICA in 1 patient, in the MCA-M1 in 15 patients, in the MCA-M2 in 3 patients, and in the basilar artery in 1 patient). The remaining 10 patients presented infarction in the territories of MCA-M1 (8 patients) and MCA-M2 (2 patients). More patients with a FAST-ED score of 4 or more points were referred to the CSC than to other hospitals (34 versus 5 versus 8; p = 0.017). The diagnosis at discharge was of AIS for 85.1% (40/47) of the patients with a FAST-ED score ≥ 4, without statistically significant difference compared with patients with a FAST-ED score < 4 (70.3%; 19/27; p = 0.129). The score on the FAST-ED scale (0–7 points) demonstrated moderate correlation to the NIHSS score (0–42 points) (Spearman r = 0.58). The median time from onset to ED arrival was of 202 (IQR: 136–260) minutes.

As compared with the diagnosis of LVO at hospital discharge, including patients with presumed LVO whose CTA was not available, the pre-hospital assessment through the FAST-ED scale by paramedics had a sensitivity of 80%, a specificity of 47.7%, a PPV of 51.1%, an NPV of 77.8%, and an AUC of 0,68 (95% confidence interval [95%CI]: 0.55–0.80). The analysis was also performed excluding patients with presumed LVO, and slightly different results were obtained: sensitivity of 80%, specificityof 47.7%, PPV of 41%, NPV of 84%, and AUC of 0,58 (95%CI: 0.45–0.70). Among the patients with a final diagnosis of AIS, the accuracy was higher, with an AUC of 0.75 (95%CI: 0.60–0.89), sensitivity of 80%, specificity of 60%, PPV of 80%, and NPV of 60% (►Figure 3).

Figure 3
Receiver operating characteristic (ROC) curves of patients assessed through the FAST-ED scale in the prehospital setting. A comparison was made between the probability of LVO obtained with the scale and the presence of LVO as the diagnosis at discharge. Curve “a” refers to all patients submitted to the triage. Curve “b” refers to patients whose final diagnosis was of stroke of any type. Curve “c” refers to patients whose final diagnosis was of AIS only. Abbreviations: AIS, acute ischemic stroke; FAST-ED, Field Assessment Stroke Triage for Emergency Destination; LVO, large vessel occlusion; PPV, positive predictive value; NPV, negative predictive value.

Logistic regression was used to evaluate the association of the ordinal FAST-ED score with the probability of LVO among different diagnoses at discharge: all diagnoses, all types of stroke, and AIS only. The higher the FAST-ED score, the higher the probability of LVO. Among AIS patients, the probability was more expressive than among all diagnoses (►Table 3).

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Table 3
Probability of large vessel occlusion (LVO) according to the score in the FAST-ED scale

DISCUSSION

In the current study, the FAST-ED scale demonstrated lower accuracy in the detection of LVO in the prehospital setting (AUC:0.68) as compared with the original study by Lima et al.¹³13 Lima FO, Silva GS, FurieKL, etal.Field Assessment StrokeTriage for Emergency Destination: A Simple and Accurate Prehospital Scale to Detect Large Vessel Occlusion Strokes. Stroke 2016;47(08): 1997–2002 When the results were applied to patients with confirmed AIS, the accuracy was better (AUC 0.75). Lima et al.¹³13 Lima FO, Silva GS, FurieKL, etal.Field Assessment StrokeTriage for Emergency Destination: A Simple and Accurate Prehospital Scale to Detect Large Vessel Occlusion Strokes. Stroke 2016;47(08): 1997–2002 found a good accuracy (AUC: 0.81) in the validation paper of the FAST-ED scale. It must be taken into account that their study was retrospective, hospital-based, and the scale was applied only to data in the medical records of patients with AIS diagnosed by neurologists. The CPSSSwas also retrospectively applied by Katz et al.¹²12 Katz BS, McMullan JT, Sucharew H, Adeoye O, Broderick JP. Design and validation of a prehospital scale to predict stroke severity: Cincinnati Prehospital Stroke Severity Scale. Stroke 2015;46(06): 1508–1512 to 303 patients with an AIS diagnosis, and an AUC of 0.67 for the detection of LVO was obtained. The present study evaluated the accuracy of the FAST-ED scale prospectively applied in the field by EMS healthcare professionals, usually paramedics, which may explain some of the differences.

Pérez de la Ossa et al.¹¹11 Pérez de la Ossa N, Carrera D, Gorchs M, et al. Design and validation of a prehospital stroke scale to predict large arterial occlusion: the rapid arterial occlusion evaluation scale. Stroke 2014;45(01):87–91 validated the RACE scale in a prospective study of 357 patients with suspected AIS, with theapplicationof thescalebytrained emergency technicians in the prehospital setting, and they obtained good accuracy (AUC: 0.82). In their study,¹¹11 Pérez de la Ossa N, Carrera D, Gorchs M, et al. Design and validation of a prehospital stroke scale to predict large arterial occlusion: the rapid arterial occlusion evaluation scale. Stroke 2014;45(01):87–91 the final diagnosis was of AIS in 240 patients (67.2%), with 76 presenting LVO; hemorrhagic strokein 52 (14.6%), TIA in 20 (5.6%), and other diagnoses in 45 patients (12.6%). In the present study, the cohort had a higher prevalence of LVO (40.5% versus 21.2%) and stroke mimics (19.4% versus 12.6%), which might have influenced our results.

Regarding all patients with suspected stroke who were assessed with the FAST-ED scale for the detection of LVO, we found a high sensitivity (80%) and a high NPV (77.8%). This means that the odds of missing an LVO patient are low. This is an important attributefor a triage scale and it remained even after the exclusion of patients with presumed LVO (infarction in a large territory without CTA available). Besides that, when the patient did not have an AISwith LVO, the otherconditions in majority should have been evaluated in a tertiary hospital – such as hemorrhagic stroke. Assessment through the FASTED scale may also reduce the need for interhospital transfers and speed up the treatment of the patient, even though we did not find any difference in treatment times between the groups.

Our results evidence a moderate correlation between the FAST-ED and NIHSS scores upon admission, which is also conflicting with the previous literature¹³13 Lima FO, Silva GS, FurieKL, etal.Field Assessment StrokeTriage for Emergency Destination: A Simple and Accurate Prehospital Scale to Detect Large Vessel Occlusion Strokes. Stroke 2016;47(08): 1997–2002 (r = 0.578 versus r = 0.92; p < 0,001). We cannot identify a single factor responsible for this, but the small sample and the difference in terms of clinical expertise of the personnel administering the scale may have played a role.

In the present study, only 10% of the patients with LVO (3 out of 30) received MT, because MT is currently not reimbursed in the public healthcare system in Brazil. Thus, the HCPA was the only hospital where this procedure was performed and, even there, only for patients randomized to the treatment arm of the “Endovascular Treatment with Stent-retriever and/or Thromboaspiration vs. Best Medical Therapy in Acute Ischemic Stroke” (RESILIENT) trial.¹⁸18 Martins SO, Mont’Alverne F, Rebello LC, et al;RESILIENT Investigators. Thrombectomy for Stroke in the Public Health Care System of Brazil. N Engl J Med 2020;382(24):2316–2326

The present study has some limitations. The number of subjects included in the analysis was low (74 subjects) and comprised only a small proportion of the number of patients eligible for EMS screening over the study period (n = 2,222), leading to a potential selection bias. However, the study aimed to provide the tool for use by the EMS staff upon their discretion. There was a lack of integration between the prehospital and intrahospital databases, which may have led to missing patient data.

In this small study evaluating the performance of the application of the FAST-ED scale by paramedics in the field for the prediction of LVO among suspected stroke patients, the scale demonstrated a moderate accuracy but high sensitivity (80%) and negative predictive value (77.8%), which are essential attributes for a triage scale. While larger studies are still needed, these preliminary findings further support the use of the FAST-ED scale in stroke triage.

Acknowledgments

We would like to thank the team at Serviço de Atendimento Móvel de Urgência (SAMU) of Porto Alegre, for their engagement in the stroke network; and Alex Yeh, PharmD, for the implementation of the JoinTriage application in Brazil.

This article is a result of the theses for achievement of the Master’s Degree in Medicine – Medical Sciences at Universidade Federal do Rio Grande do Sul.¹1 Carbonera LA. Validação do aplicativo FAST-ED na triagem préhospitalar de oclusão de grande vaso em pacientes com acidente vascular cerebral isquêmico. 2019. 40 f. Dissertação (Mestrado) – Curso de Medicina – Ciências Médicas, Universidade Federal do Rio Grande do Sul, Porto Alegre, 2019. Disponível em: https://www.lume.ufrgs.br/handle/10183/206562. Acesso em: 03 ago. 2022
https://www.lume.ufrgs.br/handle/10183/2...

References

¹
Carbonera LA. Validação do aplicativo FAST-ED na triagem préhospitalar de oclusão de grande vaso em pacientes com acidente vascular cerebral isquêmico. 2019. 40 f. Dissertação (Mestrado) – Curso de Medicina – Ciências Médicas, Universidade Federal do Rio Grande do Sul, Porto Alegre, 2019. Disponível em: https://www.lume.ufrgs.br/handle/10183/206562 Acesso em: 03 ago. 2022
» https://www.lume.ufrgs.br/handle/10183/206562
²
Caplan LR. Basic Pathology, Anatomy, and Pathophysiology of Stroke. In: Caplan’s Stroke. Elsevier pp. 22–63
³
Lima FO, Mont’Alverne FJA, Bandeira D, Nogueira RG. Pre-hospital Assessment of Large Vessel Occlusion Strokes: Implications for Modeling and Planning Stroke Systems of Care. Front Neurol 2019;10:955Epub ahead of print. Doi: 10.3389/fneur.2019.00955
» https://doi.org/10.3389/fneur.2019.00955
⁴
Berkhemer OA, Fransen PSS, Beumer D, et al;MR CLEAN Investigators. A randomized trial of intraarterial treatment for acute ischemic stroke. N Engl J Med 2015;372(01):11–20
⁵
Campbell BCV, Mitchell PJ, Kleinig TJ, et al;EXTEND-IA Investigators. Endovascular therapy for ischemic stroke with perfusionimaging selection. N Engl J Med 2015;372(11):1009–1018
⁶
Goyal M, Demchuk AM, Menon BK, et al;ESCAPE Trial Investigators. Randomized assessment of rapid endovascular treatment of ischemic stroke. N Engl J Med 2015;372(11):1019–1030
⁷
Jovin TG, Chamorro A, Cobo E, et al;REVASCAT Trial Investigators. Thrombectomy within 8hours after symptom onset in ischemic stroke. N Engl J Med 2015;372(24):2296–2306
⁸
Saver JL, Goyal M, Bonafe A, et al;SWIFT PRIME Investigators. Stent-retriever thrombectomy after intravenous t-PA vs. t-PA alone in stroke. N Engl J Med 2015;372(24):2285–2295
⁹
Powers WJ, Rabinstein AA, Ackerson T, et al. Guidelines for the Early Management of Patients With Acute Ischemic Stroke: 2019 Update to the 2018 Guidelines for the Early Management of Acute Ischemic Stroke: A Guideline for Healthcare Professionals From the American Heart Association/American Stroke Association. Stroke 2019;50(12):e344–e418
¹⁰
Zhelev Z, Walker G, Henschke N, Fridhandler J, Yip S. Prehospital stroke scales as screening tools for early identification of stroke and transient ischemic attack. Cochrane Database Syst Rev 2019; 4:CD011427; Epub ahead of print. Doi: 10.1002/14651858. CD011427.pub2
» https://doi.org/10.1002/14651858
¹¹
Pérez de la Ossa N, Carrera D, Gorchs M, et al. Design and validation of a prehospital stroke scale to predict large arterial occlusion: the rapid arterial occlusion evaluation scale. Stroke 2014;45(01):87–91
¹²
Katz BS, McMullan JT, Sucharew H, Adeoye O, Broderick JP. Design and validation of a prehospital scale to predict stroke severity: Cincinnati Prehospital Stroke Severity Scale. Stroke 2015;46(06): 1508–1512
¹³
Lima FO, Silva GS, FurieKL, etal.Field Assessment StrokeTriage for Emergency Destination: A Simple and Accurate Prehospital Scale to Detect Large Vessel Occlusion Strokes. Stroke 2016;47(08): 1997–2002
¹⁴
Nogueira RG, Silva GS, Lima FO, et al. The FAST-ED App: A Smartphone Platform for the Field Triage of Patients With Stroke. Stroke 2017;48(05):1278–1284
¹⁵
Puolakka T, Virtanen P, Kuisma M, et al. Validation of the FAST-ED score for prehospital identification of stroke patients with large-vessel occlusion and a comparison with the clinician’s judgment. In: Abstracts. BritishMedical Journal Publishing Group p. A4.3–A5
¹⁶
Guillory BC, Gupta AA, Cubeddu LX, Boge LA. Can Prehospital Personnel Accurately Triage Patients for Large Vessel Occlusion Strokes? J Emerg Med 2020;58(06):917–921
¹⁷
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Publication Dates

Publication in this collection
23 Jan 2023
Date of issue
2022

History

Received
22 Apr 2021
Accepted
16 Nov 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] This article is a result of the theses for achievement of the Master’s Degree in Medicine – Medical Sciences at Universidade Federal do Rio Grande do Sul.¹1 Carbonera LA. Validação do aplicativo FAST-ED na triagem préhospitalar de oclusão de grande vaso em pacientes com acidente vascular cerebral isquêmico. 2019. 40 f. Dissertação (Mestrado) – Curso de Medicina – Ciências Médicas, Universidade Federal do Rio Grande do Sul, Porto Alegre, 2019. Disponível em: https://www.lume.ufrgs.br/handle/10183/206562. Acesso em: 03 ago. 2022
https://www.lume.ufrgs.br/handle/10183/2...

Question	Answers
1. Is the patient on anticoagulants?	Yes/No/Unknown
2. How old is the patient?	Older than 80 years/80 years old or younger/Age is unknown
3. Did anyone see when the symptoms started?	Yes (enter time)/No
4. What time was the patient last seen well?	Yes (enter time)/No
5. Does the patient have facial weakness?	Normal (score: 0)/Abnormal (score: 1)
6. Does the patient have arm weakness?	No weakness (score: 0)/Mild (score: 1)/Moderate/severe (score:2)
7. Check speech content and ask the patient to name 3 common items:	Normal (score: 0)/Abnormal (score: 1)
8. Ask the patient: “show me two fingers”	Normal (score: 0)/Abnormal (score: 1)
9. Does the patient have gaze deviation to the other side?	Normal (score: 0)/Gaze preference (score: 1)/Forced deviation (score: 2)
10. Ask the patient: “are you weak anywhere?” (Question only shown if answer is “normal” on items 6 and 7)	Normal (score: 0)/Abnormal (score: 1)
11. Ask the patient: “whose arm is this?” (Question only shown if answer is “normal” on items 6 and 7)	Normal (score: 0)/Abnormal (score: 1)

	HCPA (n = 45)	HNSC (n = 14)	HSCMPA (n = 15)	Total (n = 74)
AIS	29 (64.4%)	5 (35.7%)	11 (73.3%)	45 (60.8%)
AIS treated with tPA	11/29 (37.9%)	–	2/11 (18.2%)	13/45 (28.9%)
AIS with LVO	20/29 (68.9%)	4/5 (80%)	6/11 (54.5%)	30/45 (66.7%)
AIS with LVO treated with thrombectomy	3/20 (15%)	–	–	3/30 (10%)
Hemorrhagic stroke	6 (13.3%)	4 (28.5%)	–	10 (13.5%)
TIA	1 (2.2%)	3 (21.4%)	–	4 (5.4%)
Stroke mimics	9 (20.0%)	2 (14.3%)	4 (26.7%)	15 (20.2%)

FAST-ED score	All patients (n = 74)	Stroke patients (n = 59)	AIS patients (n = 45)
0	0.137	0.195	0.197
1	0.184	0.256	0.297
2	0.244	0.328	0.421
3	0.315	0.409	0.556
4	0.396	0.496	0.683
5	0.483	0.582	0.787
6	0.571	0.664	0.864
7	0.655	0.737	0.916

Brasil

Brasil

FAST-ED scale for prehospital triage of large vessel occlusion: results in the field

Escala FAST-ED para a triagem pré-hospitalar de oclusão de grande vaso: resultados de campo

Abstract

Background

Objective

Methods

Results

Conclusions

Resumo

Antecedentes

Objetivo

Métodos

Resultados

Conclusões

INTRODUCTION

METHODS

The JoinTriage App – FAST-ED Scale

Definition of large vessel occlusion

Data collection

Data analysis

Ethical procedures

RESULTS

DISCUSSION

Acknowledgments

References

Publication Dates

History