key: cord-1011154-fa4eflmk
authors: Ganapathiraju, Meghana; Paulson, Claire L.; Greenberg, Marna Rayl; Roth, Kevin R.
title: BEE FIRST: A standardized point-of-care ultrasound approach to a patient with dyspnea()()()
date: 2022-02-04
journal: Radiol Case Rep
DOI: 10.1016/j.radcr.2022.01.004
sha: 53de6b1e40a615ec5ed5d3c96564101db0a97d8e
doc_id: 1011154
cord_uid: fa4eflmk

Dyspnea is a common complaint in patients who present to the emergency department and can be due to numerous etiologies. This case report details a 90-year-old female with a history significant for hypertension, hyperlipidemia, and new diagnosis of ovarian malignancy whose symptoms increased over the past three days. Point-of-care Ultrasonography showed multiple B-lines, a plethoric IVC without respiratory variation, a markedly low EF and a lack of RV dilation. There was also no evidence of effusion which led the emergency medicine team to the diagnosis of acute decompensated heart failure. This quick diagnosis was possible due to using the standardized POCUS approach guided by the BEE FIRST algorithm. BEE FIRST can help physicians remember: B-lines are indicative of interstitial thickening, Effusion such as pericardial or pleural should be checked for, Ejection Fraction is useful in assessing for heart failure, IVC/Infection/Infarct correlates with central venous pressure, and can be used to assess volume status, check for enlargement, evidence of pneumonia, subpleural consolidation “shred sign”, hepatization of lung, and/or pulmonary infarction related to pulmonary embolism, Right Heart Strain can indicate pulmonary embolism or pulmonary hypertension, Sliding Lung can assess for pneumothorax and pleural characteristics, and lastly, Thrombosis/Tumor can assess for myxoma and interrogation of lower extremities for deep vein thrombosis can aid in dyspnea differentiation. In this report, we demonstrate how the framework BEE FIRST offers a standardized stepwise approach to the utilization of POCUS in a patient with acute dyspnea in the ED setting.

Dyspnea is a common complaint in patients who present to the emergency department and can be due to numerous etiologies. This case report details a 90-year-old female with a history significant for hypertension, hyperlipidemia, and new diagnosis of ovarian malignancy whose symptoms increased over the past three days. Point-of-care Ultrasonography showed multiple B-lines, a plethoric IVC without respiratory variation, a markedly low EF and a lack of RV dilation. There was also no evidence of effusion which led the emergency medicine team to the diagnosis of acute decompensated heart failure. This quick diagnosis was possible due to using the standardized POCUS approach guided by the BEE FIRST algorithm. BEE FIRST can help physicians remember: B -lines are indicative of interstitial thickening, E ffusion such as pericardial or pleural should be checked for, E jection F raction is useful in assessing for heart failure , I VC /I nfection/ I nfarct correlates with central venous pressure, and can be used to assess volume status, check for enlargement, evidence of pneumonia, subpleural consolidation "shred sign", hepatization of lung, and/or pulmonary infarction related to pulmonary embolism, R ight Heart Strain can indicate pulmonary embolism or pulmonary hypertension, S liding Lung can assess for pneumothorax and pleural R Acknowledgements: The authors would like to acknowledge Joanna Schwab, BA or editing and submission assistance. R Competing Interest: The authors have no outside support information, conflicts or financial interest to disclose. R Patient Consent: Per network IRB guidelines, consent was not obtained from the patient for this case report because no identifying information was provided in this report. 

Undifferentiated dyspnea is a common emergency department (ED) presentation. One study in Boston, MA, demonstrated that 23% of all admitted ED patients reported dyspnea in the past 24 hours, and 11% reported dyspnea within 12 hours after admission [1] . The most common causes of dyspnea in the ED have been reported as decompensated heart failure, COPD, pneumonia, pulmonary embolism, and asthma [2] . The COVID-19 pandemic has added to the list of respiratory complaints to be considered in a differential diagnosis. Currently, X-rays, CT scans, laboratory studies, and physical examinations are the most utilized methods of differentiating causes of dyspnea. X-rays and physical examinations are often insufficient, and CT scans have limitations in application due to cost and the exposure to radiation [3] . Most of the above listed diagnostic strategies have an additional significant limiting factor: the time to completion. Increased time to diagnosis may adversely affect both clinical outcomes and the patient's ultimate disposition.

Point-of-care ultrasound (POCUS) has been shown to be accurate in diagnosing a variety of etiologies including acute decompensated heart failure, pneumonia, pneumothorax, pulmonary thromboembolism, pleural/pericardial effusion, and empyema [3] . Previous studies have shown that POCUS is a diagnostically accurate and efficient method to differentiate causes of dyspnea in ED patients [2 ,4-6] . We present a case demonstrating the use of BEE FIRST, a POCUS ultrasound standardized step wise approach that can be used to differentiate the cause of dyspnea in the ED utilizing lung, cardiac, and IVC views.

A 90-year-old female with a history significant for hypertension, hyperlipidemia, and new diagnosis of ovarian malignancy presented to the ED with gradually increasing shortness of breath over three days duration, which improved with sitting up and worsened on exertion. The patient denied any cardiac history or chest pain but acknowledged some chills. Upon presentation, the patient was noted to be hypoxic with severe respiratory distress. On physical examination the patient had blood pressure 101/47, pulse 93, respiratory rate 32, temperature 97.3, and Sp02 95%. She also had decreased breath sounds and accessory muscle use. She had an elevated white blood cell count, predominantly neutrophils, elevated troponins, markedly elevated NT-ProBNP and severe acidosis). The initial electrocardiogram and physical examination did not significantly narrow the differential diagnosis.

Using a systematic BEE FIRST approach to their POCUS, the provider found the presence of multiple B-lines ( Fig. 1 ) , a plethoric IVC without respiratory variation ( Fig. 2 ) , and a markedly low EF and a lack of RV dilation ( Fig. 3 ) . There was no evidence of effusion ( Fig. 3 ) , infection/infarction, or intracardiac mass (thrombosis/tumor). These findings were all consistent with a diagnosis of acute decompensated heart failure. Due to utilizing POCUS and the BEE FIRST algorithm, the diagnosis and initiation of therapy for acute decompensated congestive heart failure within 10 minutes of presenta-tion to the ED hastened the patient's stabilization and admission to the ICU.

Patients that present to the ED in respiratory distress have high mortality, ranging up to 71.4% in patients with massive pulmonary embolism [7] . This presentation requires prompt diagnosis and treatment, as delay can be deadly. A complicating factor is that these patients often are too short of breath to provide a detailed history of present illness. The use of POCUS allows for a substantial amount of information to be determined rapidly. By utilizing the BEE FIRST algorithm ( Table 1 ) as a directed, stepwise approach; the physician in the case was able to initiate treatment prior to the return of lab results and even before imaging had been performed. Each of these different POCUS procedures collectively aid in the diagnosis of the undifferentiated dyspneic patient. At each stage, findings inconsistent with the working diagnosis should prompt a reevaluation of the etiology of the dyspnea.

The absence of right heart strain was also key in this case as the patient was at high risk for pulmonary embolism and was too unstable to be transported to CT scan. Delay in treatment for this patient could have been deadly.

There are practical limitations to this diagnostic strategy, there are body habitus challenges and patient's respiratory distress can limit image quality and the ability to interpret results. Rigorous research utilizing the BEE FIRST approach to managing patients with dyspnea have not been performed. However, authors believe BEE FIRST is a reliable, repeatable method to aid clinicians in the initial evaluation of patients presenting with undifferentiated dyspnea. (for further illustration of the technique, see video, Appendix 1) While the algorithm is not exhaustive, it does quickly identify the major culprits that require timely care. It is important to interpret these ultrasound findings in the context of the patient that is being evaluated. It can also be used to assist in the education of clinicians with limited experience in critical care POCUS applications. Consistent with other application learning curves, authors recommend 25 quality reviewed exams in the BEE FIRST application to establish operator skill level for performance in this bedside approach. There are other diagnostic techniques that provide a more comprehensive evaluation, but a benefit of the BEE FIRST strategy is the rapidity in performance and the teachability it has to educate a large number of clinicians.

The BEE FIRST algorithm is a mnemonic for a standardized POCUS approach which lends itself as a memory tool for a physician actively involved in lifesaving care. This approach allows for prompt diagnosis and streamlines treatment for patients such as our case, who are in undifferentiated respiratory distress that present acutely in the ED setting.

All authors provided substantial contributions to manuscript content. All authors gave final approval of the version of the article to be published., The authors have no outside support information, conflicts or financial interest to disclose, and this work has not been presented elsewhere.

Appendix 1 BEE FIRST in Dyspnea Educational Video

Supplementary material associated with this article can be found, in the online version, at doi: 10.1016/j.radcr.2022.01.004 .

Prevalence of dyspnea among hospitalized patients at the time of admission

Sen Kuan W. Assessment of dyspneic patients in the emergency department using point-of-care lung and cardiac ultrasonography-a prospective observational study

BLUE protocol ultrasonography in Emergency Department patients presenting with acute dyspnea

Can chest ultrasonography replace standard chest radiography for evaluation of acute dyspnea in the ED?

The role of lung ultrasonography in etiologic diagnosis of acute dyspnea in a resource limited setting

Approach to undifferentiated dyspnea in emergency department: aids in rapid clinical decision-making

Long-term mortality after massive, submassive, and low-risk pulmonary embolism