Author: Kianzad, Azar; Meijboom, Lilian J.; Nossent, Esther J.; Roos, Eva; Schurink, Bernadette; Bonta, Peter I.; van den Berk, Inge A. H.; Britstra, Rieneke; Stoker, Jaap; Vonk Noordegraaf, Anton; van der Valk, Paul; Thunnissen, Erik; Bugiani, Marianna; Bogaard, Harm Jan; Radonic, Teodora
Title: COVIDâ€19: Histopathological correlates of imaging patterns on chest computed tomography Cord-id: kc5klszi Document date: 2021_6_22
ID: kc5klszi
Snippet: BACKGROUND AND OBJECTIVE: Patients with coronavirus disease 2019 (COVIDâ€19) pneumonia present with typical findings on chest computed tomography (CT), but the underlying histopathological patterns are unknown. Through direct regional correlation of imaging findings to histopathological patterns, this study aimed to explain typical COVIDâ€19 CT patterns at tissue level. METHODS: Eight autopsy cases were prospectively selected of patients with PCRâ€proven COVIDâ€19 pneumonia with varying clin
Document: BACKGROUND AND OBJECTIVE: Patients with coronavirus disease 2019 (COVIDâ€19) pneumonia present with typical findings on chest computed tomography (CT), but the underlying histopathological patterns are unknown. Through direct regional correlation of imaging findings to histopathological patterns, this study aimed to explain typical COVIDâ€19 CT patterns at tissue level. METHODS: Eight autopsy cases were prospectively selected of patients with PCRâ€proven COVIDâ€19 pneumonia with varying clinical manifestations and causes of death. All had been subjected to chest CT imaging 24–72 h prior to death. Twentyâ€seven lung areas with typical COVIDâ€19 patterns and two radiologically unaffected pulmonary areas were correlated to histopathological findings in the same lung regions. RESULTS: Two dominant radiological patterns were observed: groundâ€glass opacity (GGO) (n = 11) and consolidation (n = 16). In seven of 11 sampled areas of GGO, diffuse alveolar damage (DAD) was observed. In four areas of GGO, the histological pattern was vascular damage and thrombosis, with (n = 2) or without DAD (n = 2). DAD was also observed in five of 16 samples derived from areas of radiological consolidation. Seven areas of consolidation were based on a combination of DAD, vascular damage and thrombosis. In four areas of consolidation, bronchopneumonia was found. Unexpectedly, in samples from radiologically unaffected lung parenchyma, evidence was found of vascular damage and thrombosis. CONCLUSION: In COVIDâ€19, radiological findings of GGO and consolidation are mostly explained by DAD or a combination of DAD and vascular damage plus thrombosis. However, the different typical CT patterns in COVIDâ€19 are not related to specific histopathological patterns. Microvascular damage and thrombosis are even encountered in the radiologically normal lung.
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