key: cord-0927485-d0hqcbxw
authors: Luecke, Eva; Jeron, Andreas; Kroeger, Andrea; Bruder, Dunja; Stegemann-Koniszewski, Sabine; Jechorek, Doerthe; Borucki, Katrin; Reinhold, Dirk; Reinhold, Annegret; Foellner, Sebastian; Walles, Thorsten; Hachenberg, Thomas; Schreiber, Jens
title: Eosinophilic pulmonary vasculitis as a manifestation of the hyperinflammatory phase of COVID-19
date: 2020-10-26
journal: J Allergy Clin Immunol
DOI: 10.1016/j.jaci.2020.09.026
sha: a1968545e8a4ea4b48e359c4e961bec6173b6ed8
doc_id: 927485
cord_uid: d0hqcbxw

nan

To the Editor:

The role of eosinophils in coronavirus disease 2019 (COVID-19) is still a matter of debate 1 and eosinopenia is regarded as a negative predictive factor. 2, 3 A 60-year-old male patient with severe COVID-19 was mechanically ventilated for 6 days before transfer to our hospital. Comorbidities were hypertension and diabetes, but no allergic disorders or asthma. Body mass index was 26.3 kg/m 2 . He was a former smoker. Initially, C-reactive protein was 202 mg/L, procalcitonin 0.693 ng/mL, and white blood cell count 9.45 gpt/L, with normal percentages of eosinophils and lymphocytes.

He received antibiotics and fluid management. Computed tomography on day 5 postintubationem (PI) showed bipulmonary ground glass opacities and basal consolidations, with marked progression on day 16 PI, necessitating extracorporeal membrane oxygenation starting on day 22 PI. Severe acute respiratory syndrome coronavirus 2 PCR was still positive on day 33 PI and negative from day 37 PI. He showed only a very slight increase in anti-severe acute respiratory syndrome coronavirus 2 antibodies in plasma, about one-third in comparison to other patients with a severe course of COVID-19. The arbitrary result of the assay amounted to 13 on day 16 PI with no significant increase in the following month (Elecsys immunoassay; Roche Bronchoalveolar lavage on day 32 PI yielded 30% lymphocytes (97% CD3 1 T cells, 53% cytotoxic CD8 1 CD3 1 T cells), 25% neutrophils, and 36% eosinophils as well as 130 pg/mL IL-6 (Elecsys IL-6; Roche), 2.4 pg/mL IL-5 (ELISA MAX Human IL-5; BioLegend ). Therefore, prednisolone treatment was initiated on day 32 PI. Notably, there had been a constant increase in peripheral blood eosinophils (0% day 6 PI; 2.3% day 41 PI; peak 4.8% day 23 PI), which however did not exceed the ULN Q 5

. Because of intrathoracic bleeding, thoracotomy was performed 8 days after initiation of prednisolone therapy (day 40 PI). Lung parenchyma showed marked eosinophilic vasculitis, organizing diffuse alveolar damage, patchy interstitial inflammation, and acute intraalveolar hemorrhage, without evidence for ongoing infection. This histopathologic pattern has not been described so far (Fig 1  [F1-4/C] ). Serum analysis confirmed hyperinflammation 4 after viral clearance with markedly elevated IL-6 (71 pg/mL day 8 PI; 111 pg/mL day 46 PI; peak 344 pg/mL day 27 PI; Elecsys IL-6; Roche). On day 41 PI, HLA-DR-activated CD8 1 T cells in the blood were increased (282/mL), B lymphocytes reduced (87/mL), and the plasma concentration of IL-5 was 0.5 pg/mL (Cytometric Bead Array Human Th1/Th2/Th17 Kit; BD ELISAs were negative on day 41 PI. After 2 weeks of prednisolone therapy (day 45 PI), a second BAL yielded 8% lymphocytes (52% CD3 1 CD8 1 cytotoxic T cells, 60.2% HLA-DR 1 indicating an activated phenotype), 3% eosinophils, and 62% neutrophils as well as 175 pg/mL IL-6 (Elecsys IL-6; Roche), 2.3 pg/mL IL-5 (ELISA MAX Human IL-5; BioLegend), and 3.6 pg/mL TNF-a (Human TNF-alpha Quantikine ELISA Kit; R&D).

On day 46 PI, flow cytometric analysis confirmed massive HLA-DR activation in peripheral CD8 1 T cells and strong alterations in neutrophils and monocytes as well as dendritic-cell subsets.

In summary, this case shows that the hyperinflammatory phase of COVID-19 may present as eosinophilic inflammation of the pulmonary vasculature without distinct peripheral eosinophilia. Pulmonary eosinophilia might be a potential therapeutic target (eg, corticosteroids and anti-IL-5 antibodies), and this case underlines the diagnostic value of BAL cytology. Furthermore, we assume that even a slight increase in peripheral eosinophils not exceeding ULN Q 9 may be meaningful. Notably, the patient showed a weak humoral immune response in combination with an exceptionally strong activation of CD8 1 T cells detectable in blood and BAL. Our observations indicate that besides the spectrum of hyperinflammation as described very recently, 4 pulmonary eosinophilic vasculitis without preexisting allergic disorders may occur. The cause of the eosinophilia at this point remains elusive. Although it may indicate a type 2 response, we did not detect a significant elevation of type 2 cytokines. Altogether this case demonstrates the vast breadth of heterogeneous immunological mechanisms at play in severe COVID-19 .  1  2  3  4  5  6  7  8  9  10  11  12  13  14  15  16  17  18  19  20  21  22  23  24  25  26  27  28  29  30  31  32  33  34  35  36  37  38  39  40  41  42  43  44  45  46  47  48   49  50  51  52  53  54  55  56  57  58  59  120  121  122  123  124  125  126  127  128  129  130  131  132  133  134  135  136  137  138  139  140  141  142  143  144  145  146  147  148  149  150  151  152  153  154  155  156  157  158  159  160  161  162  163  164  165  166  167  168  169  170  171  172  173  174  175  176  177  178  179  180   181  182  183  184  185  186  187  188  189  190  191  192  193  194  195  196  197  198  199  200  201  202  203  204  205  206  207  208  209  210  211  212  213  214  215  216  217  218  219  220  221  222  223  224  225  226  227  228  229  230  231  232  233  234  235  236  237  238  239 

Eosinophil responses during COVID-19 infections and coronavirus vaccination

The role of peripheral blood eosinophil counts in COVID-19 patients

Eosinopenia is associated with greater severity in patients with coronavirus disease 2019

Characterization of the cytokine storm reflects hyperinflammatory endothelial dysfunction in COVID-19

days after initiation of prednisolone therapy) histology showed diffuse alveolar damage of proliferative organizing phase: polypoid plugs of loose organizing connective tissue protruding into the alveolar ducts (arrows) (A, hematoxylin-eosin, B, Masson-Trichrome), prominent type 2 pneumocyte hyperplasia with cytologic atypia (C, pancytokeratine, red), and alveolar macrophage accumulation (C, CD68, brown). Focally, peribronchial interstitial chronic inflammation with dominating CD3 1 CD8 1 T cells (D, CD3, E, CD8) and single CD20 1 B cells (F) was observed. Patchy subpleural accentuated acute hemorrhage (asterisks) and vasculitis with endothelial swelling