Subject(s)
Airway Management , Coma , Poisoning , Humans , Coma/etiology , Coma/therapy , Airway Management/methods , Poisoning/therapy , Poisoning/complications , Acute DiseaseSubject(s)
Coma , Glasgow Coma Scale , Intubation, Intratracheal , Humans , Coma/therapy , Poisoning/therapy , Randomized Controlled Trials as Topic , Male , FemaleABSTRACT
Introduction: The optimal diagnosis strategy for pulmonary embolism (PE) in the emergency department (ED) remains complex. This review summarizes PE diagnosis with clinical presentation, decision rules and investigations for acute PE. Methods: This review was performed using studies published between January 1, 2010, and September 1, 2023. Results: PE should be considered in ED in patients with chest pain, shortness of breath, syncope or signs of deep veinous thrombosis. Definitive diagnosis of PE relies on thoracic imaging, with the use of CTPA or ventilation/perfusion lung scintigraphy. To limit the continuous increased use of chest imaging, the clinical probability should be the first step for PE work out. The Pulmonary Embolism Rule-out Criteria (PERC rule) can rule out PE at this stage. If not, for low or intermediate probability, several clinical decision rules (CDR) have been validated, either by ruling out PE on clinical signs, or by raising D-Dimer thresholds (YEARS or PEGeD) or by combination of these different rules. It is recommended that patients with a high clinical probability of PE should undergo chest imaging without the need for D-dimer testing. The PE diagnostic approach can be tailored in specific populations such as pregnant, younger, COVID-19, or cancer patients. Conclusion: PE diagnosis workout illustrates the complexity of modern probabilistic-based approaches of decision-making in medicine. It is recommended to use a Bayesian approach with the evaluation of clinical probability, then order D-Dimer if the PERC rule is positive, then adapt the D-Dimer threshold for ordering chest imaging using CDR.
ABSTRACT
Objetivos: Evaluar la capacidad de la regla PERC (Pulmonary Embolism Rule-out Criteria) y la regla modificada por edad (PERC-35) para descartar tromboembolia pulmonar (TEP) en servicios de urgencias hospitalarios (SUH) en pacientes # 35 años. El objetivo secundario fue analizar otras reglas de decisión clínica. Método: Análisis post-hoc de 3 estudios de cohorte europeos (PROPER, PERCEPIC y MODIGLIANI). Se incluyeron pacientes # 35 años con sospecha de TEP en SUH y con seguimiento a 3 meses. La seguridad y eficacia de PERC yPERC-35 se evaluaron con su tasa de error -no detectar TEP- y la proporción de pacientes con diagnóstico de TEP descartado. Se evaluó la seguridad y eficacia de las reglas YEARS y PEGeD. Resultados: Se analizaron 1.235 pacientes # 35 años. Hubo 22 (1,8%, IC 95%: 1,2-2,7) TEP diagnosticados a los 3 meses. Hubo 6 (1,0%, IC 95%: 0,5-2,2) y 5 (0,9%, IC 95%: 0,4-2,1) TEP no diagnosticados con las reglas PERC y PERC-35 respectivamente. Estas reglas permitieron descartar TEP en 591 (48,2%, IC 95%: 45,4- 51,0) y 554 (46,2%, IC 95%: 43,4- 49,0) respectivamente. La tasa de error de YEARS y PEGeD fue del 0,4% (IC 95%: 0,1- 1,1) y 0,5% (IC 95%: 0,2-1,2), con una eficacia similar. Conclusiones: En pacientes # 35 años, las reglas PERC y PERC-35 mostraron perfiles de seguridad y eficacia similares. Sin embargo, el amplio intervalo de confianza comunicado en este estudio no permite confirmar su seguridad. (AU)
Objectives: To assess the performance of the Pulmonary Embolism Rule-out Criteria (PERC) and the age-modified PERC-35 tool in hospital emergency departments (EDs) for evaluating patients aged 35 years or younger. A secondary aim was to assess other decision-making criteria. Method: Post-hoc analysis of 3 European cohort studies. We included data for patients aged 35 years or younger suspected of PE who were followed for 3 months. The safety and efficacy of applying the PERC and PERC-35 were assessed with the diagnostic error rate (failure to detect PE) and the proportion of patients in whom a diagnosis of PE was ruled out. We also assessed the safety and efficacy of applying the YEARS and PEGeD criteria. Results: Data for 1235 patients aged 35 years or younger were analyzed. Twenty-two (1.8%; 95% CI, 1.2%-2.7%) PE cases were diagnosed at 3 months. Six (1.0%; 95% CI, 0.5%-2.2%) and 5 (0.9%; 95% CI, 0.4%-2.1%) PE cases were not diagnosed by the PERC and PERC-35 tools, respectively. These tools allowed PE to be ruled out in 591 (48.2%; 95% CI, 45.4%-51.0%) and 554 (46.2%; 95% CI, 43.4%-49.0%) cases, respectively. The error rates of the YEARS and PEGeD criteria, respectively, were 0.4% (95% CI, 0.1%-1.1%) and 0.5% (95% CI, 0.2%-1.2%); their efficacy was similar. Conclusions: The safety and efficacy profiles of the PERC and PERC-35 algorithms were similar in patients aged 35 years or younger. However, the large confidence intervals we report do not allow us to confirm the safety of using the tools in patients in this age group. (AU)
Subject(s)
Humans , Male , Female , Infant, Newborn , Infant , Child, Preschool , Child , Adolescent , Young Adult , Adult , Pulmonary Embolism , Emergency Service, Hospital , Cohort Studies , Prospective Studies , EuropeABSTRACT
OBJECTIVES: To assess the performance of the Pulmonary Embolism Rule-out Criteria (PERC) and the age-modified PERC-35 tool in hospital emergency departments (EDs) for evaluating patients aged 35 years or younger. A secondary aim was to assess other decision-making criteria. MATERIAL AND METHODS: Post-hoc analysis of 3 European cohort studies. We included data for patients aged 35 years or younger suspected of PE who were followed for 3 months. The safety and efficacy of applying the PERC and PERC-35 were assessed with the diagnostic error rate (failure to detect PE) and the proportion of patients in whom a diagnosis of PE was ruled out. We also assessed the safety and efficacy of applying the YEARS and PEGeD criteria. RESULTS: Data for 1235 patients aged 35 years or younger were analyzed. Twenty-two (1.8%; 95% CI, 1.2%-2.7%) PE cases were diagnosed at 3 months. Six (1.0%; 95% CI, 0.5%-2.2%) and 5 (0.9%; 95% CI, 0.4%-2.1%) PE cases were not diagnosed by the PERC and PERC-35 tools, respectively. These tools allowed PE to be ruled out in 591 (48.2%; 95% CI, 45.4%-51.0%) and 554 (46.2%; 95% CI, 43.4%-49.0%) cases, respectively. The error rates of the YEARS and PEGeD criteria, respectively, were 0.4% (95% CI, 0.1%-1.1%) and 0.5% (95% CI, 0.2%-1.2%); their efficacy was similar. CONCLUSION: The safety and efficacy profiles of the PERC and PERC-35 algorithms were similar in patients aged 35 years or younger. However, the large confidence intervals we report do not allow us to confirm the safety of using the tools in patients in this age group.
OBJETIVO: Evaluar la capacidad de la regla PERC (Pulmonary Embolism Rule-out Criteria) y la regla modificada por edad (PERC-35) para descartar tromboembolia pulmonar (TEP) en servicios de urgencias hospitalarios (SUH) en pacientes 35 años. El objetivo secundario fue analizar otras reglas de decisión clínica. METODO: Análisis post-hoc de 3 estudios de cohorte europeos (PROPER, PERCEPIC y MODIGLIANI). Se incluyeron pacientes 35 años con sospecha de TEP en SUH y con seguimiento a 3 meses. La seguridad y eficacia de PERC y PERC-35 se evaluaron con su tasa de error -no detectar TEP- y la proporción de pacientes con diagnóstico de TEP descartado. Se evaluó la seguridad y eficacia de las reglas YEARS y PEGeD. RESULTADOS: Se analizaron 1.235 pacientes 35 años. Hubo 22 (1,8%, IC 95%: 1,2-2,7) TEP diagnosticados a los 3 meses. Hubo 6 (1,0%, IC 95%: 0,5-2,2) y 5 (0,9%, IC 95%: 0,4-2,1) TEP no diagnosticados con las reglas PERC y PERC-35 respectivamente. Estas reglas permitieron descartar TEP en 591 (48,2%, IC 95%: 45,4- 51,0) y 554 (46,2%, IC 95%: 43,4- 49,0) respectivamente. La tasa de error de YEARS y PEGeD fue del 0,4% (IC 95%: 0,1- 1,1) y 0,5% (IC 95%: 0,2-1,2), con una eficacia similar. CONCLUSIONES: En pacientes 35 años, las reglas PERC y PERC-35 mostraron perfiles de seguridad y eficacia similares. Sin embargo, el amplio intervalo de confianza comunicado en este estudio no permite confirmar su seguridad.
Subject(s)
Pulmonary Embolism , Humans , Prospective Studies , Pulmonary Embolism/diagnosis , Cohort Studies , Emergency Service, Hospital , HospitalsABSTRACT
Importance: Tracheal intubation is recommended for coma patients and those with severe brain injury, but its use in patients with decreased levels of consciousness from acute poisoning is uncertain. Objective: To determine the effect of intubation withholding vs routine practice on clinical outcomes of comatose patients with acute poisoning and a Glasgow Coma Scale score less than 9. Design, Setting, and Participants: This was a multicenter, randomized trial conducted in 20 emergency departments and 1 intensive care unit (ICU) that included comatose patients with suspected acute poisoning and a Glasgow Coma Scale score less than 9 in France between May 16, 2021, and April 12, 2023, and followed up until May 12, 2023. Intervention: Patients were randomized to undergo conservative airway strategy of intubation withholding vs routine practice. Main Outcomes and Measures: The primary outcome was a hierarchical composite end point of in-hospital death, length of ICU stay, and length of hospital stay. Key secondary outcomes included adverse events resulting from intubation as well as pneumonia within 48 hours. Results: Among the 225 included patients (mean age, 33 years; 38% female), 116 were in the intervention group and 109 in the control group, with respective proportions of intubations of 16% and 58%. No patients died during the in-hospital stay. There was a significant clinical benefit for the primary end point in the intervention group, with a win ratio of 1.85 (95% CI, 1.33 to 2.58). In the intervention group, there was a lower proportion with any adverse event (6% vs 14.7%; absolute risk difference, 8.6% [95% CI, -16.6% to -0.7%]) compared with the control group, and pneumonia occurred in 8 (6.9%) and 16 (14.7%) patients, respectively (absolute risk difference, -7.8% [95% CI, -15.9% to 0.3%]). Conclusions and Relevance: Among comatose patients with suspected acute poisoning, a conservative strategy of withholding intubation was associated with a greater clinical benefit for the composite end point of in-hospital death, length of ICU stay, and length of hospital stay. Trial Registration: ClinicalTrials.gov Identifier: NCT04653597.
Subject(s)
Coma , Pneumonia , Humans , Female , Adult , Male , Coma/etiology , Coma/therapy , Hospital Mortality , Intubation, Intratracheal , Emergency Service, HospitalABSTRACT
BACKGROUND: The aim of this trial-based economic evaluation was to assess the incremental costs and cost-effectiveness of the modified diagnostic strategy combining the YEARS rule and age-adjusted D-dimer threshold compared with the control (which used the age-adjusted D-dimer threshold only) for the diagnosis of pulmonary embolism (PE) in the Emergency Department (ED). METHODS: Economic evaluation from a healthcare system perspective alongside a non-inferiority, crossover, and cluster-randomized trial conducted in 16 EDs in France and two in Spain with three months of follow-up. The primary endpoint was the additional cost of a patient without failure of the diagnostic strategy, defined as venous thromboembolism (VTE) diagnosis at 3months after exclusion of PE during the initial ED visit. Mean differences in 3-month failure and costs were estimated using separate generalized linear-regression mixed models, adjusted for strategy type, period, and the interaction between strategy and period as fixed effects and the hospital as a random effect. The incremental cost-effectiveness ratio (ICER) was obtained by dividing the incremental costs by the incremental frequency of VTE. RESULTS: Of the 1,414 included patients, 1,217 (86%) were analyzed in the per-protocol analysis (648 in the intervention group and 623 in the control group). At three months, there were no statistically significant differences in total costs (-46; 95% CI: -93 to 0.2), and the failure rate was non inferior in the intervention group (-0.64%, one-sided 97.5% CI: -∞ to 0.21%, non-inferiority margin 1.5%) between groups. The point estimate of the incremental cost-effectiveness ratio (ICER) indicating that each undetected VTE averted in the intervention group is associated with cost savings of 7,142 in comparison with the control group. There was a 93% probability that the intervention was dominant. Similar results were found in the as randomized population. CONCLUSIONS: Given the observed cost decrease of borderline significance, and according to the 95% confidence ellipses, the intervention strategy has a potential to lead to cost savings as a result of a reduction in the use of chest imaging and of the number of undetected VTE averted. Policy-makers should investigate how these monetary benefits can be distributed across stakeholders. CLINICALTRIALS: Trial registration number ClinicalTrials.gov Identifier: NCT04032769; July 25, 2019.
Subject(s)
Pulmonary Embolism , Venous Thromboembolism , Humans , Venous Thromboembolism/diagnosis , Venous Thromboembolism/epidemiology , Cost-Benefit Analysis , Pulmonary Embolism/diagnosis , Emergency Service, Hospital , FranceABSTRACT
Importance: Patients in the emergency department (ED) who are waiting for hospital admission on a wheeled cot may be subject to harm. However, mortality and morbidity among older patients who spend the night in the ED while waiting for a bed in a medical ward are unknown. Objective: To assess whether older adults who spend a night in the ED waiting for admission to a hospital ward are at increased risk of in-hospital mortality. Design, Settings, and Participants: This was a prospective cohort study of older patients (≥75 years) who visited the ED and were admitted to the hospital on December 12 to 14, 2022, at 97 EDs across France. Two groups were defined and compared: those who stayed in the ED from midnight until 8:00 am (ED group) and those who were admitted to a ward before midnight (ward group). Main Outcomes and Measures: The primary end point was in-hospital mortality, truncated at 30 days. Secondary outcomes included in-hospital adverse events (ie, falls, infection, bleeding, myocardial infarction, stroke, thrombosis, bedsores, and dysnatremia) and hospital length of stay. A generalized linear-regression mixed model was used to compare end points between groups. Results: The total sample comprised 1598 patients (median [IQR] age, 86 [80-90] years; 880 [55%] female and 718 [45%] male), with 707 (44%) in the ED group and 891 (56%) in the ward group. Patients who spent the night in the ED had a higher in-hospital mortality rate of 15.7% vs 11.1% (adjusted risk ratio [aRR], 1.39; 95% CI, 1.07-1.81). They also had a higher risk of adverse events compared with the ward group (aRR, 1.24; 95% CI, 1.04-1.49) and increased median length of stay (9 vs 8 days; rate ratio, 1.20; 95% CI, 1.11-1.31). In a prespecified subgroup analysis of patients who required assistance with the activities of daily living, spending the night in the ED was associated with a higher in-hospital mortality rate (aRR, 1.81; 95% CI, 1.25-2.61). Conclusions and Relevance: The findings of this prospective cohort study indicate that for older patients, waiting overnight in the ED for admission to a ward was associated with increased in-hospital mortality and morbidity, particularly in patients with limited autonomy. Older adults should be prioritized for admission to a ward.
Subject(s)
Activities of Daily Living , Hospitalization , Humans , Male , Female , Aged , Aged, 80 and over , Prospective Studies , Emergency Service, Hospital , Hospital MortalityABSTRACT
AIMS: Risk stratification is used for decisions regarding need for imaging in patients with clinically suspected acute pulmonary embolism (PE). The aim was to develop a clinical prediction model that provides an individualized, accurate probability estimate for the presence of acute PE in patients with suspected disease based on readily available clinical items and D-dimer concentrations. METHODS AND RESULTS: An individual patient data meta-analysis was performed based on sixteen cross-sectional or prospective studies with data from 28 305 adult patients with clinically suspected PE from various clinical settings, including primary care, emergency care, hospitalized and nursing home patients. A multilevel logistic regression model was built and validated including ten a priori defined objective candidate predictors to predict objectively confirmed PE at baseline or venous thromboembolism (VTE) during follow-up of 30 to 90 days. Multiple imputation was used for missing data. Backward elimination was performed with a P-value <0.10. Discrimination (c-statistic with 95% confidence intervals [CI] and prediction intervals [PI]) and calibration (outcome:expected [O:E] ratio and calibration plot) were evaluated based on internal-external cross-validation. The accuracy of the model was subsequently compared with algorithms based on the Wells score and D-dimer testing. The final model included age (in years), sex, previous VTE, recent surgery or immobilization, haemoptysis, cancer, clinical signs of deep vein thrombosis, inpatient status, D-dimer (in µg/L), and an interaction term between age and D-dimer. The pooled c-statistic was 0.87 (95% CI, 0.85-0.89; 95% PI, 0.77-0.93) and overall calibration was very good (pooled O:E ratio, 0.99; 95% CI, 0.87-1.14; 95% PI, 0.55-1.79). The model slightly overestimated VTE probability in the lower range of estimated probabilities. Discrimination of the current model in the validation data sets was better than that of the Wells score combined with a D-dimer threshold based on age (c-statistic 0.73; 95% CI, 0.70-0.75) or structured clinical pretest probability (c-statistic 0.79; 95% CI, 0.76-0.81). CONCLUSION: The present model provides an absolute, individualized probability of PE presence in a broad population of patients with suspected PE, with very good discrimination and calibration. Its clinical utility needs to be evaluated in a prospective management or impact study. REGISTRATION: PROSPERO ID 89366.
Subject(s)
Pulmonary Embolism , Venous Thromboembolism , Adult , Humans , Venous Thromboembolism/diagnosis , Venous Thromboembolism/epidemiology , Prospective Studies , Cross-Sectional Studies , Models, Statistical , Prognosis , Pulmonary Embolism/diagnosis , Pulmonary Embolism/epidemiology , Fibrin Fibrinogen Degradation Products/analysisABSTRACT
BACKGROUND: In patients clinically suspected of having pulmonary embolism (PE), physicians often rely on intuitive estimation ("gestalt") of PE presence. Although shown to be predictive, gestalt is criticized for its assumed variation across physicians and lack of standardization. OBJECTIVES: To assess the diagnostic accuracy of gestalt in the diagnosis of PE and gain insight into its possible variation. METHODS: We performed an individual patient data meta-analysis including patients suspected of having PE. The primary outcome was diagnostic accuracy of gestalt for the diagnosis of PE, quantified as risk ratio (RR) between gestalt and PE based on 2-stage random-effect log-binomial meta-analysis regression as well as gestalts' sensitivity and specificity. The variability of these measures was explored across different health care settings, publication period, PE prevalence, patient subgroups (sex, heart failure, chronic lung disease, and items of the Wells score other than gestalt), and age. RESULTS: We analyzed 20 770 patients suspected of having PE from 16 original studies. The prevalence of PE in patients with and without a positive gestalt was 28.8% vs 9.1%, respectively. The overall RR was 3.02 (95% CI, 2.35-3.87), and the overall sensitivity and specificity were 74% (95% CI, 68%-79%) and 61% (95% CI, 53%-68%), respectively. Although variation was observed across individual studies (I2, 90.63%), the diagnostic accuracy was consistent across all subgroups and health care settings. CONCLUSION: A positive gestalt was associated with a 3-fold increased risk of PE in suspected patients. Although variation was observed across studies, the RR of gestalt was similar across prespecified subgroups and health care settings, exemplifying its diagnostic value for all patients suspected of having PE.
Subject(s)
Physicians , Pulmonary Embolism , Humans , Pulmonary Embolism/diagnosis , Pulmonary Embolism/epidemiology , Sensitivity and Specificity , Male , FemaleABSTRACT
Emergency department (ED) crowding is a worsening global problem caused by hospital capacity and other health system challenges. While patients across a broad spectrum of illnesses may be affected by crowding in the ED, patients with cardiovascular emergencies-such as acute coronary syndrome, malignant arrhythmias, pulmonary embolism, acute aortic syndrome, and cardiac tamponade-are particularly vulnerable. Because of crowding, patients with dangerous and time-sensitive conditions may either avoid the ED due to anticipation of extended waits, leave before their treatment is completed, or experience delays in receiving care. In this educational paper, we present the underlying causes of crowding and its impact on common cardiovascular emergencies using the input-throughput-output process framework for patient flow. In addition, we review current solutions and potential innovations to mitigate the negative effect of ED crowding on patient outcomes.
Subject(s)
Emergencies , Emergency Service, Hospital , Humans , CrowdingABSTRACT
BACKGROUND: Recently, validated clinical decision rules have been developed that avoid unnecessary use of computed tomographic pulmonary angiography (CTPA) in patients with suspected pulmonary embolism (PE) in the emergency department (ED). OBJECTIVE: To measure any resulting change in CTPA use for suspected PE. DESIGN: Retrospective analysis. SETTING: 26 European EDs in 6 countries. PATIENTS: Patients with CTPA performed for suspected PE in the ED during the first 7 days of each odd month between January 2015 and December 2019. MEASUREMENTS: The primary end points were the CTPAs done for suspected PE in the ED and the number of PEs diagnosed in the ED each year adjusted to an annual census of 100 000 ED visits. Temporal trends were estimated using generalized linear mixed regression models. RESULTS: 8970 CTPAs were included (median age, 63 years; 56% female). Statistically significant temporal trends for more frequent use of CTPA (836 per 100 000 ED visits in 2015 vs. 1112 in 2019; P < 0.001), more diagnosed PEs (138 per 100 000 in 2015 vs. 164 in 2019; P = 0.028), a higher proportion of low-risk PEs (annual percent change [APC], 13.8% [95% CI, 2.6% to 30.1%]) with more ambulatory management (APC, 19.3% [CI, 4.1% to 45.1%]), and a lower proportion of intensive care unit admissions (APC, -8.9% [CI, -17.1% to -0.3%]) were observed. LIMITATION: Data were limited to 7 days every 2 months. CONCLUSION: Despite the recent validation of clinical decision rules to limit the use of CTPA, an increase in the CTPA rate along with more diagnosed PEs and especially low-risk PEs were instead observed. PRIMARY FUNDING SOURCE: None specific for this study.
Subject(s)
Pulmonary Embolism , Tomography, X-Ray Computed , Humans , Female , Middle Aged , Male , Retrospective Studies , Pulmonary Embolism/diagnostic imaging , Emergency Service, Hospital , AngiographySubject(s)
Heart Failure , Humans , Heart Failure/therapy , Hospitalization , Patient Admission , Acute DiseaseABSTRACT
PURPOSE: Task interruptions (TI) are frequent disturbances for emergency professionals performing advanced life support (ALS). The aim of our study was to evaluate a specific training intervention with TI on the quality of simulated ALS. METHODS: During this multi centered randomized controlled trial, each team included one resident, one nurse and one emergency physician. The teams were randomized for the nature of their training session: control (without interruption) or intervention (with TI). The primary outcome was non-technical skills assessed with the TEAM score. We also measured the no flow time, the Cardiff score and chest compression depth and rate. RESULTS: On a total of 21 included teams, 11 were randomized to a control training session and 10 to the specific TI training. During training, teams' characteristics and skills were similar between the two groups. During the evaluation session, the TEAM score was not different between groups: median score for control group 33,5 vs 31,5 for intervention group. We also report similar no flow time and Cardiff score. CONCLUSION: In this simulated ALS study, a specific training intervention with TI did not improve technical and non-technical skills. Further research is required to limit the impact of TI in emergency settings.
