key: cord-0763530-22e3ycup authors: Ebner, Lukas; Funke-Chambour, Manuela; von Garnier, Christophe; Ferretti, Gilbert; Ghaye, Benoit; Beigelman-Aubry, Catherine title: Imaging in the aftermath of COVID-19: what to expect date: 2020-12-28 journal: Eur Radiol DOI: 10.1007/s00330-020-07465-6 sha: 32c8119cf35782d067b9e89266aac5dc1c5c2a9e doc_id: 763530 cord_uid: 22e3ycup nan In many countries, the so-called first wave of infections has diminished, but a gradual re-increase of infections can be expected for fall and winter. Simultaneously, the first patients that recovered from COVID-19 in early 2020 are now presenting with sequelae from the initial Sars-CoV-2 infection. We are presently facing patients that recovered from acute COVID-19 pneumonia, some with ARDS, and that were discharged having recovered from the acute illness. Nevertheless, some of these patients report ongoing dyspnoea and desaturate on exercise. In the aftermath of a COVID-19 pneumonia, we observe in some patients with respiratory symptoms a suggestive pattern on CT images not previously reported in the context of COVID-19. In a subgroup of cured patients, we encounter a multifocal and/or anterior predominant pattern of hypoattenuated areas in the lung parenchyma 3 months after discharge. These areas frequently involve several adjacent, secondary lobules that are sharply demarcated from the surrounding lung parenchyma. In some cases, ground glass bands circumscribing these hypoattenuated areas may be observed. This suspected geographic hyperinflation of pulmonary lobules is characterised by markedly decreased lung density. Additionally, in some cases, the perilobular septae are bulging towards the periphery, reinforcing the detectability and the authenticity of this pattern on inspiratory CT scans. This air trapping could also be confirmed on expiratory scans (Fig. 1 ), but we believe that the distinct morphology and significant decrease intensity may not require systematic use of expiratory CT scan protocols. In our experience, the identification of hyperinflated lobules inspiratory CT scans is facilitated by employing narrow window settings and minimal intensity projections on a series reconstructed with thin slices and soft kernel ( Figs. 1 and 2) . These CT findings are suggestive of small airways disease (SAD). In patients who initially suffered from ARDS, additional hallmark findings are reticulations, architectural distortions with bronchiectasis and curvilinear lines, as well as honeycombing in some cases. These CT features are attributable to sequelae of alveolar damage/ARDS and therefore less characteristic of COVID-19 per se. When added together, post-COVID-19 CT scans may resemble the so-called head-cheese sign described in chronic hypersensitivity pneumonitis, a disorder that primarily affects the peribronchial area. In the follow-up of symptomatic post-COVID-19 patients, the reported signs are pivotal for the understanding of pathological mechanisms involved with SARS-CoV-2 infection. Based on the CT patterns we encountered in cured COVID-19 patients, we noticed that some patients display a SAD predominance, while others present a predominance of classical fibrotic changes or a mixed type pattern. Of note, SAD was also reported in previous MERS, SARS and severe c and d) . These findings are frequent in patients that recovered from ARDS. However, multi-lobular hypoattenuation pattern is also present (arrows) on axial 1-mm-thick slices reconstructed with lung kernel (a) and 10-mmthick minimum intensity projections (mIP) slices with soft kernel (b), and on coronal reformats 1-mm-thick reconstructed with lung kernel (c) and 10-mm-thick minimum intensity projections with soft kernel (d). The mIP post-processing (b, d) highlights a geographic, lobular hypoattenuation pattern that most likely represents multifocal small airways disease. Presumably hyperinflated lobules further exhibit convex perilobular septae towards normal lung parenchyma (small arrows) that should correspond to an air trapping on expiration. Note that the normal lung parenchyma (stars) is more easily assessed on mIP reformats with narrow window settings (b, d), than on classical lung analysis (a, c). Note pneumatoceles in subpleural location described in COVID-19 pneumonia Fig. 1 Three-month follow-up CT scan of a patient after COVID-19 pneumonia presenting with exertional dyspnoea. Sharply demarcated areas of hypoattenuating lung parenchyma are depicted in both upper lobes (a). Reading the same acquisition on inspiration with narrow window settings on a series reconstructed in thin slices with soft kernel facilitates the detection of these abnormal areas and enforces a mosaiclike attenuation pattern (b). An additionally performed expiratory scan confirms the SAD owing to air trapping that matches with several hypoattenuating areas detected in (c). Note the predominant hypoattenuation pattern in this case influenza infection and ARDS [4] [5] [6] . A limiting factor of our findings is that not all patients initially received a baseline CT and we can therefore not completely rule out preexisting conditions such as SAD. These preliminary findings highlight the importance of imaging not only in the acute setting but also in the followup of COVID-19. As we adapt to the pandemic, the death toll is declining and hopefully mild to moderate infections will continue to surpass severe cases. Nevertheless, health care providers will face patients afflicted with long-term impairment. We suggest to scrutinise post-COVID-19 CT scans for findings of mosaic pattern, likely representing air trapping, and indicative of a potential distal airway obstruction. Future research should further address the complex association of SAD and reported vascular involvement [7, 8] . It has to be determined if and to what degree microvascular thrombosis may contribute to bronchiolar constriction or SAD [9] . Another critical aspect is the possible discrepancy between imaging findings and the clinical presentation of patients. To date, this relationship is still unclear. While some patients with minimal findings on chest CT may show a severe decline in lung function, there are patients with extensive diseases that exhibit relatively normal lung function. A correlation between imaging findings and moderate to severe disease course was identified on initial presentation [10] , but focused and welldesigned studies are needed to explore lung function loss and dynamic CT findings in mid-to long-term follow-up of COVID-19. In the light of increasing numbers of patients suffering late effects of COVID-19, we emphasise the importance of longitudinal evaluation to assess potential reversibility of the observed CT patterns. Funding The authors state that this work has not received any funding. Guarantor The scientific guarantor of this publication is C. Beigelman-Aubry. The authors of this manuscript declare no relationships with any companies, whose products or services may be related to the subject matter of the article. Statistics and biometry No complex statistical methods were necessary for this paper. Informed consent Written informed consent was not required for this study because of editorial purpose. Ethical approval Institutional Review Board approval was not required. • Editorial comment COVID-19 patients and the radiology department -advice from the European Society of Radiology (ESR) and the European Society of Thoracic Imaging (ESTI) Coronavirus disease 2019: initial chest CT findings Characteristic CT findings distinguishing 2019 novel coronavirus disease (COVID-19) from influenza pneumonia Radiology of severe acute respiratory syndrome (SARS). 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