Dear Editor,
From the 23rd of February 2020, corresponding to the beginning of stage 1 epidemic outbreak in France, to the 5th of May, 25 patients (men: 24/25; 96%) with a mean age of 57 ± 17 years [16–84] had bronchial artery embolization (BAE) for severe hemoptysis (SH). All BAE was performed in a decontaminated positive pressure angiography suite. COVID-19 patients followed a specific pathway including a dedicated intensive care unit (ICU) and elevator. In addition, staff had personal protective equipment including a FFP2 mask, gown, goggles and shoe protection and a face shield [1].
A total of 4 men with 7 BAE had positive COVID-19 RT-PCR (Tables 1, 2), and 3 patients had severe acute respiratory syndrome (SARS-CoV-2). Subpleural and inferior bilateral ground-glass opacities with crazy-paving suggesting COVID-19 were found in 3 patients with < 50% of pulmonary involvement in one patient and > 75% in 2 patients. Bronchial arteries enlargement was seen in 3 patients, and 3 patients had consolidation; no patient had alveolar hemorrhage compared to 17 (17/21; 81%) non-COVID-19 patients (p = 0.005, Chi-square test) (Fig. 1). Of all, 71% of BAE was performed under general anesthesia for COVID-19 patients, and none in the non-COVID-19 group (p < 0.01, Chi-square test). Microspheres were the most common embolization material, 87% and 71% respectively. Pulmonary shunt was more frequent in COVID-19 (71% vs. 17%, p < 0.01, Chi-square test) (Fig. 2).
Embolization of all eutopic and heterotopic bronchial arteries was performed in 86% of COVID-19 patients during the first BAE, and 24-h clinical efficacy was 75% and 100% after a second BAE. Thirty-day mortality was 10% (2/21) in the non-COVID-19 group and 0% in the COVID-19 group. No complication related to BAE was reported. The mean ICU length of stay was superior in COVID-19 patients 23 ± 8 days [13–32] versus 12 ± 14 days [1–46] (p = 0.007, Student t test).
This case series is the first describing clinical, imaging and outcome of SH and COVID-19 treated with BAE. One patient had bronchiectasis and COVID-19; conversely, the 3 others with SARS-COV-2 had no bronchial or pulmonary condition favoring SH, suggesting the role of COVID-19 in pulmonary parenchyma injury responsible for SH. Of note, all SARS-COV-2 patients had heparin for deep venous thrombosis prophylaxis favoring SH.
Characteristics of BAE were similar between groups suggesting the absence of influence of COVID-19 on the catheter or embolic material choice. COVID-19 patients did not demonstrate localized alveolar hemorrhage on CT. However, COVID-19 imaging features and alveolar hemorrhage overlap and may lead to misinterpretation. Consequently, the performance of chest CT to identify and localize the bleeding site may be hampered [2]. Localization of hemoptysis should, thus, solely be based on the results of fibroscopy.
At angiography, COVID-19 patients demonstrated more frequently pulmonary shunts. This may be the result of distal microembolisms in pulmonary arteries [3]. The pulmonary alveolus vascular supply may then be supported by bronchial arteries, favoring an antegrade bronchial–pulmonary shunt [4].
Thanks to a dedicated COVID-19 pathway and strong safety guidelines, no chances were lost for COVID-19 and non-COVID-19 patients, making possible the practice of emergency interventional radiology (IR). In our study, COVID-19 infection status in the first positive patient was unknown and safety guidelines were neglected. He was possibly responsible for the contamination of two members of the IR staff. Of interest, the conversion of positive to negative pressure room during infectious airborne disease outbreak should be considered to limit the pathogen dispersion to personnel working in adjacent areas [5].
Management of SH in COVID-19 patients with BAE was feasible and efficient. However, respect of safety guidelines is of utmost importance to protect the IR staff.
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Barral, M., Sirol, M., El Hajjam, M. et al. Bronchial Artery Embolization Performed in COVID-19 Patients: Tolerance and Outcomes. Cardiovasc Intervent Radiol 43, 1949–1951 (2020). https://doi.org/10.1007/s00270-020-02621-3
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DOI: https://doi.org/10.1007/s00270-020-02621-3