key: cord-0963679-p4c2d5y3 authors: Khurram, Ruhaid; Johnson, Franklin T F; Naran, Revati; Hare, Samanjit title: Spontaneous tension pneumothorax and acute pulmonary emboli in a patient with COVID-19 infection date: 2020-08-11 journal: BMJ Case Rep DOI: 10.1136/bcr-2020-237475 sha: 2c59a01a2cd532fcb304aa6eb244e6d8e96996e8 doc_id: 963679 cord_uid: p4c2d5y3 The COVID-19 pandemic has had a significant impact on the structure and operation of healthcare services worldwide. We highlight a case of a 64-year-old man who presented to the emergency department with acute dyspnoea on a background of a 2-week history of fever, dry cough and shortness of breath. On initial assessment the patient was hypoxic (arterial oxygen saturation (SaO(2)) of 86% on room air), requiring 10 L/min of oxygen to maintain 98% SaO(2). Examination demonstrated left-sided tracheal deviation and absent breath sounds in the right lung field on auscultation. A chest radiograph revealed a large right-sided tension pneumothorax which was treated with needle thoracocentesis and a definitive chest drain. A CT pulmonary angiogram demonstrated segmental left lower lobe acute pulmonary emboli, significant generalised COVID-19 parenchymal features, surgical emphysema and an iatrogenic pneumatocoele. This case emphasises the importance of considering coexisting alternative diagnoses in patients who present with suspected COVID-19. The COVID-19 pandemic has had a significant impact on the structure and operation of healthcare services worldwide. We highlight a case of a 64-year-old man who presented to the emergency department with acute dyspnoea on a background of a 2-week history of fever, dry cough and shortness of breath. On initial assessment the patient was hypoxic (arterial oxygen saturation (SaO 2 ) of 86% on room air), requiring 10 L/min of oxygen to maintain 98% SaO 2 . Examination demonstrated leftsided tracheal deviation and absent breath sounds in the right lung field on auscultation. A chest radiograph revealed a large right-sided tension pneumothorax which was treated with needle thoracocentesis and a definitive chest drain. A CT pulmonary angiogram demonstrated segmental left lower lobe acute pulmonary emboli, significant generalised COVID-19 parenchymal features, surgical emphysema and an iatrogenic pneumatocoele. This case emphasises the importance of considering coexisting alternative diagnoses in patients who present with suspected COVID-19. The novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) was first reported in December 2019 in Wuhan, China and has now had a significant effect on populations worldwide in the form of the COVID-19 pandemic. As of 4 June 2020, there have been 6 416 828 confirmed cases of COVID-19 reported worldwide with 382 858 deaths, with an overall case fatality rate of approximately 6% 1 ; this has therefore led to a substantial burden on health and intensive care services. The presenting features reported are general and non-specific, including dry cough, fever, malaise, difficulty in breathing, and in severe cases profound hypoxaemia and cardiorespiratory arrest. In the early part of 2020, it has been a common presenting cause of significant hypoxia to the emergency department. Despite its high prevalence, clinicians must ensure not to allow themselves to be distracted by this relatively new phenomenon, and to continue to practise good history taking and examination skills to identify coexisting, alternative potential life-threatening diagnoses and to provide optimal, timely treatment to patients. We exhibit a case of a 64-year-old man with suspected COVID-19 pneumonia who presented acutely to the emergency department with tension pneumothorax and acute pulmonary emboli. A 64-year-old man presented to the emergency department with intermittent fevers, dry cough and progressive shortness of breath over a 2-week period. On the day of attendance, he acutely deteriorated with increased difficulty in breathing and pleuritic chest pain. His medical history included hypertension, type II diabetes mellitus and hypercholesterolaemia. He had no known drug allergies and was taking simvastatin 20 mg once daily, ramipril 2.5 mg once daily and metformin 1 g two times per day as his regular medications. He is a socially independent man and a lifelong non-smoker with no pre-existing respiratory conditions and no significant family history. On examination, he was significantly breathless at rest with a respiratory rate of 30 breaths/min and an arterial oxygen saturation of 86% on air. Oxygen saturations were stabilised at 98% on 10 L/ min of oxygen (60% fractional inspired oxygen (FiO 2 )). Other vital signs measured included a heart rate of 115 beats/min, blood pressure of 125/95 mm Hg and temperature of 37.0°C. His trachea was deviated to the left and he had asymmetrical chest expansion (reduced on the right). Chest auscultation revealed absent breath sounds throughout the right hemithorax and widespread crepitations on the left. Heart sounds were unremarkable, abdomen was soft and non-tender with no organomegaly, and calves were non-tender bilaterally with no evidence of peripheral oedema. A portable chest radiograph in the emergency department demonstrated a large right-sided tension pneumothorax with mediastinal shift and diffuse airspace shadowing throughout the left lung, which was more pronounced peripherally (figure 1). A 12-lead ECG showed sinus tachycardia at a rate of 120 beats/min. Arterial blood gas performed on FiO 2 of 60% showed pH 7.44, partial pressure of oxygen (pO 2 ) 8.06 kPa, partial pressure of carbon dioxide (PCO 2 ) 4.46 kPa, bicarbonate (HCO 3 ) 23.6 mEq/L, base excess −0.8 mmol/L, glucose 7.4 mmol/L and lactate 1.8 mmol/L, in keeping with type 1 respiratory failure. Routine blood test results on admission were as follows: haemoglobin: 129 g/L; white cell count: 11.2×10 9 /L; platelets: 538×10 9 /L; neutrophils: Following initial management for the tension pneumothorax, a repeat chest radiograph demonstrated lung re-expansion with a small residual pneumothorax, but with no mediastinal shift; peripheral ground glass airspace opacities were accentuated, in keeping with COVID-19 infection (figure 2). A CT pulmonary angiogram (CTPA) was performed on the second day of inpatient admission which highlighted multiple abnormalities contributing to this patient's hypoxia. There was evidence of acute segmental pulmonary emboli in the left lower lobe alongside generalised COVID-19 alveolar opacities in the lower lobes. Residual right-sided pneumothorax was visible alongside surgical emphysema as well as an iatrogenic secondary pneumatocoele, likely related to the depth of the chest drain tip (figure 3). The patient had a positive reverse transcriptase (RT)-PCR nasopharyngeal swab for COVID-19. On recognition of the tension pneumothorax, the patient was initially treated with needle decompression with a large-bore, 14-gauge cannula inserted in the right second intercostal space in the mid-clavicular line. This was followed with a 12-French Seldinger chest drain inserted into the 'triangle of safety' on the right side to achieve definitive management. The patient received supplemental oxygen to maintain target saturations of >94% and commenced on broad spectrum intravenous antibiotics (co-amoxiclav and clarithromycin) for treatment of superadded bacterial pneumonia. Treatment dose low molecular weight heparin (tinzaparin sodium) was initiated for the pulmonary emboli visualised on CTPA. The chest drain was removed on day 3 of admission following the CTPA findings of iatrogenic pneumatocoele, and a repeat chest radiograph showed significant reinflation of the right lung with no residual pneumothorax. Once oxygen saturations normalised without supplementary oxygen (96% on air), the patient was discharged after a 4-day admission with a 3-month course of apixaban 5 mg two times per day and follow-up in the anticoagulation clinic. He was reviewed in the outpatient ambulatory care clinic 5 days postdischarge; at this point, he remained normoxic and a repeat chest radiograph showed complete resolution of pneumothorax. However, right basal consolidation persisted, for which he received a further 1-week course of antibiotics ( figure 4) . He is now due for routine follow-up with the respiratory team in 4-6 months' time. He was advised to remain isolated until his symptoms resolved after discharge. This case outlines the importance of timely identification and treatment of other contributory reversible causes of hypoxia on a background of COVID-19 infection. To our knowledge, we have reported the first documented case of a patient with COVID-19 pneumonia presenting with both spontaneous tension pneumothorax and acute pulmonary emboli. The evolution of spontaneous pneumothorax 2 3 and pneumomediastinum 4-6 with concomitant COVID-19 infection, prior to ventilation procedures, are rare entities, with very few cases reported in the literature. The rupture of subpleural bullae or pneumatocoeles is the most common cause of primary spontaneous pneumothorax, and risk factors for development include pre-existing chronic lung conditions, smoking, male gender and prolonged coughing. The precise mechanism of this phenomena in the context of COVID-19 is not fully understood and a coincidental association cannot be excluded. However, studies have reported the presence of pneumatocoeles and cystic lung parenchymal features in patients with COVID-19, 7 which may increase the chance of developing secondary pneumothoraces. Several studies have reported the increased prevalence of thromboembolic events in COVID-19 infection. [8] [9] [10] The systemic inflammation associated with COVID-19 and endothelial dysfunction, along with the generated hypercoagulable state, are the likely contributory factors to the pathogenesis of acute pulmonary emboli. The viscosity of blood is further increased by the hypoxia from severe pneumonia. Biomarkers such as elevated D-dimer, lactate dehydrogenase and ferritin levels are associated with a worse prognosis. 11 It is essential to therefore identify and treat thromboembolic events with timely anticoagulation along with stringent prevention strategies aiming at adequate thromboembolic prophylaxis with low molecular weight heparin. The current widely accepted and implemented method for the diagnosis of COVID-19 is the RT-PCR, with a pooled sensitivity in meta-analyses reported to be of 89%. 12 However, a high false negative rate poses several clinical and social challenges. CT chest imaging is a useful evaluation tool reserved for assessing disease severity, progression, coexisting pathologies and complications. The classic radiological findings on CT are bilateral, peripheral ground glass opacifications, crazy-paving pattern, bronchovascular thickening and consolidation. 13 14 Atypical CT findings reported include pleural effusions, mediastinal lymphadenopathy, pneumothoraces and cavitations, which raise the suspicion of superadded bacterial infection and are often more apparent during the later courses of the disease. 15 Typical CT findings have also been observed on asymptomatic patients with COVID-19. 16 Using CT as a diagnostic or screening tool for COVID-19 alone is discouraged by many radiological societies and institutions 17 due to recent meta-analyses showing a pooled high sensitivity and low specificity of 94% and 37%, respectively, as well as a high rate of false positives. 12 Furthermore, routine use of CT poses risks, for example, increased ionising radiation and usage of finite personal protective resources between patients in the event of shortage. 18 Nevertheless, CT imaging in the context of our case had considerable benefit in the identification of additional diagnoses, namely pulmonary emboli, as well as an assessment of the severity of infection. The rationale for using CTPA as opposed to CT thorax without contrast was due to local data from our centre showing that 34.5% of patients who were SARS-CoV-2-positive were diagnosed with pulmonary embolism as an inpatient, alongside an increasingly high number of readmissions with thromboembolism in previously discharged patients. 19 The identification of an iatrogenic pneumatocoele on CT assisted in the timely removal of the chest drain. There have been noticeable changes to the structure and operation of healthcare services in the fight against this pandemic. Many trusts have adopted protocols and escalation pathways for patients with COVID-19, which may risk patients being given incorrect and potentially dangerous treatment in the event of other coexisting pathologies. For example, protocol-driven prompt continuous positive airway pressure treatment without appropriate assessment in our patient with profound hypoxia would have been extremely detrimental to his condition. In the current climate, it is important for clinicians to maintain an individualised, thorough approach to patients presenting with symptoms of COVID-19 and to exclude additional underlying pathologies in the interest of patient-centred care. ► Spontaneous pneumothorax and acute pulmonary emboli are important coexisting respiratory pathologies to consider on a background of COVID-19 infection. ► It is important to maintain an individualised approach to exclude additional underlying pathologies, which can be assisted with good history taking and examination skills. ► CT chest imaging can provide assistance with the assessment of coexisting pathologies, disease severity, progression and complications. Contributors RK is the lead author in this case report and played a significant role in writing the manuscript, obtaining consent and following up the patient. FTFJ contributed to writing the manuscript and clerked the patient in the emergency department. RN is a clinical fellow in respiratory medicine who was involved in the care of the patient and contributed to writing the manuscript. SH is a consultant chest radiologist who provided expert opinion, supervised and contributed to writing the manuscript. Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors. 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Provenance and peer review Not commissioned; externally peer reviewed.This article is made freely available for use in accordance with BMJ's website terms and conditions for the duration of the covid-19 pandemic or until otherwise determined by BMJ. You may use, download and print the article for any lawful, non-commercial purpose (including text and data mining) provided that all copyright notices and trade marks are retained. Ruhaid Khurram http:// orcid. org/ 0000-0002-6987-6698