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Anesthesia & Critical Care: Open Access

Case Report Volume 13 Issue 1

Cerebral thromboangiitis associated with Covid-19 infection: a young woman case report

Mirabella Lucia,1 Barberio Francesco,1 Caporusso Roberta,1 Tullo Livio,1 Labella Daniela,1 Mariano Karim,1 Rauseo Michela,1 Macarini Luca,2 Cinnella Gilda1

1Department of Intensive Care, University of Foggia, Italy
2Department of Radiology and Radioterapy, University of Foggia, Italy

Correspondence: Mirabella Lucia, Department of Intensive Care, University of Foggia, Italy , Tel +393407712211, Fax 0881732387

Received: February 15, 2021 | Published: February 25, 2021

Citation: Mirabella L, Francesco B, Roberta C, et al. Cerebral thromboangiitis associated with Covid-19 infection: a young woman case report. J Anesth Crit Care Open Access. 2021;13(1):75‒77. DOI: 10.15406/jaccoa.2021.13.00472

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Abstract

COVID-19 may predispose to both venous and arterial thromboembolic disease due to excessive inflammation, hypoxia, and immobilization. Remarkably, thrombotic complications have hardly been described. We describe a patient with severe pneumonia, COVID-19 correlated, who developed a presumable and rare form of thromboangioiitis with cerebrovascular thrombotic complication and neurological symptoms, in absence of other cardio-vascular risk factor. Significant inflammation is present in our patient, which may explain more dramatic activation of coagulation and arterial endothelium vessels damage. The probable mechanism of this cardiovascular injury may be a direct effect of coronavirus related to Angiotensin-converting enzyme 2 receptor (ACE2-r). The exact mechanisms by which COVID-19 induced hypercoagulability remain incompletely elucidated and more research are necessary.

Introduction

The novel Coronavirus (COVID-19) can cause severe pneumonia and respiratory symptoms that need admission to Intensive Care Unit for respiratory support. In many cases, systemic thrombotic complications have been described, including venous thromboembolism and arterial thrombotic events.1 Reports on the incidence of thrombotic complications are however not available but focus on arterial embolism, Covid-19 related, is important for decision making concerning thromboprophylaxis, especially in patients admitted to the intensive care unit (ICU) who are at highest thrombotic risk. We describe a young patient with a severe form of COVID-19 who developed cerebrovascular thrombotic complications with neurological symptoms and cerebral vascular disease suggestive for viral thromboangiitis, in absence of other cardio-vascular risk factors or another cardio-vascular risk factor.

Case report

A 29-year-old woman was admitted to the Intensive Care Unit for interstitial pneumonia with respiratory distress in March 2020, after 7 days of cough and fever. The patient’s medical history was relevant for not specified psychiatric disease treated with Sodium Valproate and Sertraline. Physical examination revealed a body temperature of 37,4°, blood pressure 130/85 mmHg, pulse 115 beats per minute, respiratory rate of 60 breaths per minute, with oxygen saturation (SpO2) 65% room air, rhonchi at auscultation. Reverse transcriptase–polymerase chain reaction assay of a nasopharyngeal swab tested positive for severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). Chest radiography was performed, which reported patchy air space opacification in both lung middle-lower zones with diffuse ground-glass haze bilaterally, results consistent with pneumonia (Figure 1).

Figure 1 Anteroposterior Chest Radiographs March 2020. Patchy air space opacification in both lung middle-lower zones with diffuse ground glass haze bilaterally, results consistent with pneumonia.

In accordance with hospital guidance, infection was treated with a combination of antiretroviral drugs (Darunavir/Cobicistat) and Hydroxychloroquine, then Enoxaparin 6000UI twice a day was introduced. 12 days later, the patient experienced an improvement of the pulmonary disease as shown at chest radiography and blood gas analysis (P/F ratio=220), the pharmacological coma was suspended. The patient was contactable, carried out simple orders but the neurological examination revealed left-side hemiplegia. A non-contrast head CT scan was immediately performed, which a large area of hypo-attenuation with loss of gray-white matter differentiation involving the right frontal and parietal lobes, the lentiform nucleus, and the caudate head, with effacement of sulci; findings are indeterminate and appearance in keeping with hypoxic-ischemic injury (Figure 2). On day 14 a Magnetic Resonance Imaging (MRI) scan was performed, which reported “large right cortical and subcortical lesion of an altered signal involving the vascular distribution territory of the Anterior Cerebral Artery (ACA) and the upper and deep cortical areas of the Middle Cerebral Artery (MCA), with signs of hemorrhagic infarction, cortical laminar necrosis and wallerian degeneration of cortical-spinal tract. The distribution and morphology of subacute hypoxic-ischemic lesions and the angio-MRI findings, in the absence of cardiovascular risk factors, were supposed to be suggestive of viral thromboangiitis (Figure 3).

Figure 2 Non-contrast head CT demonstrate large area of hypo-attenuation with loss of gray matter differentiation involving the right frontal and parietal lobes, the lentiform nucleus and the caudate head, with effacement of the sulci.

Figure 3 MRI images demonstrate hemorrhagic infarction of lentiform nucleus and the caudate head and cortical laminar necrosis parietal on T1 SE (a) gyroscopic enhancement frontal and parietal on T1 SE after the contrast (b), cortical and subcortical lesion frontal-parietal and Wallerian degeneration of the corticospinal tract on FLAIR(c); azygos ACA and stenosis of M1 before the early bifurcation with a filiform and irregular appearance of two trunks on.

During the weaning phase, the patient presented hypertension resistant at medications. Screening for thrombophilia, pheochromocytoma, malignant hypertension, common serum autoantibody (anti-CCP antibodies, antinuclear antibodies (ANAs), anti-neutrophil cytoplasmic antibodies (ANCA) and anti-phospholipid antibodies) resulted negative. On the results of the MRI, corticosteroid therapy and physio-kinetic therapy were set up. The patient gradually resumed mobility on the left leg and partially on the left arm. On hospital day 60, pulmonary disease solved, with nasopharyngeal swabs tested negative for 2019-nCoV, the patient was transferred to the rehabilitation unit.

Discussion

Our report illustrates a rare manifestation of cerebral viral thromboangiitis in a young woman affected by COVID-19 pneumonia in absence of other thrombotic risk factors.  Several studies described ischemic and neurological symptoms in patients affected by Severe Acute Respiratory Syndrome (SARS) in 2003 and during COVID 19 outbreak.2,3 According to literature COVID 19 may predispose to, both venous and arterial, thromboembolic complications caused by an inflammatory response, with increasing of inflammatory cytokines, D-dimers, and leukocytes levels, which leads to coagulopathy.4 The probable mechanism of this cardiovascular injury may be related to Angiotensin-converting enzyme 2 receptor (ACE2-r) that has been identified as a functional receptor for coronaviruses.5 Through ACE2-r, COVID-19 invades not only alveolar epithelial cells, resulting in pneumonia but also the endothelium of the cardiovascular system, inducing vascular inflammation and thromboembolic complications. As reported, significant inflammation is present in patients with 2019nCoV-2 infection, with elevated levels of IL-6, C-reactive protein, and D-dimers, and the subsequent activation of coagulation.1,6 Our patient, as others, described, should have had a more pronounced inflammatory response to infection with SARS-CoV-2, which may explain more dramatic changes in coagulation and arterial endothelium vessels.

As shown in Table 1, levels of pro-inflammatory values in our patient increase in the second week and could be compatible with the ischemic cerebral damage observed and start to decrease once corticosteroid therapy was started. Despite the link between ACE2-r and Coronavirus mechanism could explain the vascular implication observed in 2019nCoV-2 patients, other mechanisms should be investigated to better define this arteritis cause. Arteritis pathogenesis could be “primarily” or “secondary”. In “primarily” arteritis inflammation of wall vessels is caused by an excess of autoantibodies directed against the endothelium; in many cases, the etiology of these autoantibodies is unknown. “Secondary” arteritis are due to dysregulated immune response to infections, cancer or other autoimmune diseases. We can speculate that COVID-19 disease stimulating immune system lead to a production of cross-antibodies against wall vessels causing observed arteritis. In this case, the search for the common autoantibody panel had negative results, therefore the underlying mechanism that could have determined the onset of arteritis, could be ascribed to other, not yet defined antibody reaction of the COVID-19 disease.

ICU Day

D-Dimers

Procalcitonin

C-Reactive Protein

Creatine Phosphokinase

Myoglobin

WBC

 

ng/mL

ng/mL

mg/L

U/L

ng/mL

10˄3/uL

1

6.912

3,62

-

75

42,1

14790

3

6.520

1,53

258,90

32

34,6

12980

7

21.370

0,03

-

250

122,00

14200

9

19.500

0,03

-

83

98,70

12400

10

14.039

0,30

-

-

102,90

10880

11

13.392

0,03

322,50

508

70,70

14920

12

7.304

0,02

216,70

29

92,10

14230

13

7.090

0,45

116,50

32,00

109,10

10810

19

4.961

0,03

0,55

63

91,50

9170

20

6.777

<0,02

9,10

39

69,50

9200

Table 1 Timeline of infiammatory values

Conclusion

Although the main manifestation of the COVID-19 infection is viral pneumonia, many different manifestations have been highlighted in other organs, especially regarding the cardiovascular system. Recent publications have highlighted a coagulation disorder in severely diseased patients, responsible for a hypercoagulable state which might explain disseminated intravascular coagulation and organ failure. Some hypothesize a direct effect of coronavirus on vascular endothelial cells to justify acute arterial thrombosis. Further mechanisms should be investigated to explain the arterial damage caused by COVID-19. ACE2-r pathway could explain cardiovascular involvement but on the basis on this patient imaging results autoimmune pathway should be investigated.

Acknowledgments

None.

Conflicts of interest

None.

References

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©2021 Mirabella, et al. This is an open access article distributed under the terms of the, which permits unrestricted use, distribution, and build upon your work non-commercially.