key: cord-0909429-2xxjyvmi authors: Castro-Verdes, Mireya; Gkouma, Antonia; Wort, John; Ridge, Carole; Mirsadraee, Saeed; Padley, Simon; Sheikh, Awais; Singh, Suveer title: Corona Virus Disease 2019 in situ arterial and venous thrombosis in critically ill patients: a case series date: 2020-12-12 journal: Eur Heart J Case Rep DOI: 10.1093/ehjcr/ytaa470 sha: 68612cebb397fbfc64c3723ef8cd978fa547b4f9 doc_id: 909429 cord_uid: 2xxjyvmi BACKGROUND: Corona Virus Disease 2019 (COVID-19) pneumonitis associated with severe respiratory failure carries a high mortality. Coagulopathy has emerged as a significant contributor to thrombotic complications. CASE SUMMARY: We describe two cases of severe COVID-19 pneumonitis refractory to conventional mechanical ventilation and proning position, transferred to our specialist centre for cardiorespiratory failure. Cross-sectional imaging demonstrated concurrent venous and aortic thrombosis with end-organ ischaemic changes. One patient received thrombolysis with a partial response. This could not be offered to the other patient due to a recent haemorrhagic event. Both patients died of multi-organ failure in the hospital. DISCUSSION: Concurrent aortic and venous thromboses are rare. This finding in COVID-19 cases, who were both critically ill patients, likely reflects the strongly thrombogenic nature of this illness which ultimately contributed to poor outcomes. The absence of deep vein thrombosis or a potential systemic source of embolism suggests in situ thrombosis. Further, the management of anticoagulation and thrombolysis is challenging in patients where an attendant bleeding risk exists. • Patients admitted to the intensive care unit (ICU) for Corona Virus Disease 2019 (COVID-19) pneumonitis may have venous and arterial thromboses that require a low index of suspicion and early thorough investigations. • Venous and arterial thromboses can coexist in COVID- 19. Comprehensive imaging is required to assess this complication, among others, in critically ill patients with COVID- 19. • Thrombolysis, in addition to anticoagulation, requires consideration in COVID-19 patients with extensive thrombosis. Its timing and an assessment of bleeding risk is important. Patients admitted to the intensive care unit (ICU) for severe acute respiratory syndrome coronavirus 2 (SARS-COV2) primarily present with severe acute respiratory failure (SARF) due to acute respiratory distress syndrome (ARDS). An increasingly recognized subphenotype of the COVID-19 lung presentation is a hyperinflammatory and pro-thrombotic state, characterized by deep vein thrombosis (DVT), de novo pulmonary thrombosis [often described as pulmonary embolism (PE)] and even a micro-thrombotic angiopathy. 1, 2 The result is impaired perfusion, potentially exacerbating dead-space ventilation, and refractory hypoxaemia. Whilst Virchow's triad of blood stasis, endothelial activation and hypercoagulability can effectively explain the venous thrombosis that SARS COV2 appears to generate, the presence of reported systemic arterial thrombotic events is less understood. 3 We describe two cases with severe COVID-19 pneumonitis admitted to intensive care who presented with venous and arterial thrombosis. Escalation of antibiotics for sepsis. Transfer to our centre. CT on admission revealed thrombus in pulmonary artery and abdominal aorta. IV Heparin: continuous infusion started targeting anti-Xa level 0.5-0.7 IU/mL. Transthoracic echocardiogram (TTE) on admission showed moderately impaired RV. RRT commenced due to anuria and metabolic acidosis. Renal replacement therapy (RRT) commenced for ongoing renal failure. Ongoing sepsis, antibiotics escalated. Epoprostenol nebulizers commenced. Repeat TTE revealed severe RV dysfunction. Thrombolysis performed for suspected bowel ischaemia: systemic administration of alteplase (bolus followed by infusion 1 mg/mL, 90 mg in total). Corticosteroids commenced. Further deterioration with brain haemorrhage. Multi-organ failure. Death. Some improvement in clot burden on repeat CT. Ongoing clinical deterioration. Multi-organ failure. Death. . detected laminar thrombus and a sessile clot on the anterior wall of the aortic arch ( Figure 1 and Supplementary material online, Video S1). The right ventricle (RV) was severely dilated and impaired [RV fractional area change (FAC) 7%-normal value > 35%], with suspicion of a laminar thrombus in the RV outflow tract extending into the main pulmonary artery. There was also a right to the left shunt of flow across a patent foramen ovale (PFO) that resolved on repositioning the return cannula to a lower location under TOE guidance. Regarding anticoagulation, the patient received prophylactic low molecular weight heparin (LMWH) during his stay at the local hospital and a bolus of unfractionated heparin of 3000 international units (IU) at VV ECMO cannulation, followed by continuous infusion aiming for a therapeutic anti-Xa target of 0.5-0.7 IU/mL at admission to our tertiary centre. Due to development of melaena on the following day, the anti-Xa target was reduced to 0.2-0.35 IU/mL until it resolved the next day, when it was set at 0.3-0.5 IU/mL and maintained at that range thereafter, as per discussion with haematology. Thromboelastography indicated the thrombus formation was normal in the context of heparin treatment, as was the platelet function assay, whilst there was absence of intrinsic fibrinolytic activity (0%). Serial repeat CTs demonstrated progressive intra-cavity RV thrombosis correlating with increasing D-dimer levels (peak of 11 000 ng/mL), and worsening lung consolidation coinciding with vasopressor dependent shock. There were no carotid or cerebral artery disease detected in CT angiography. Pulmonary vasodilators were introduced (initially intravenous sildenafil followed by nebulized epoprostenol) for ongoing hypoxaemia and severe RV dysfunction. Renal replacement therapy (RRT) was started on Day 9 for worsening kidney function. Unfortunately, the patient suffered a massive intracranial haemorrhage on Day 18 and died. A 53-year-old male with type II diabetes mellitus (DM) and treated hypertension, presented with a 2-week history of cough and shortness of breath to his local hospital. He tested positive for COVID- 19. Despite standard treatment and prophylactic LMWH, SARF ensued on NIV, requiring intubation and mechanical ventilation at Day 10. Progressive respiratory acidosis and haemodynamic deterioration, with cold peripheries and persistent hypotension requiring high doses of vasopressors (noradrenaline 0.55 mcg/kg/min and vasopressin 0.4 U/min), initiated a transfer to our centre. Empirical azithromycin, piperacillin/tazobactam, and hydroxychloroquine were added, and shock dose hydrocortisone. Computed tomography of the chest, abdomen, and pelvis performed as per protocol after ECMO cannulation, showed extensive bilateral ground-glass opacification, and dense dependent consolidation consisted of COVID-19 related ARDS. Additionally, there was thrombus in a small pulmonary segmental artery and a large upper abdominal aortic thrombus compromising the flow into the superior mesenteric artery (SMA) with radiological evidence of ischaemic colitis, and splenic infarcts ( Figure 2) . Unfractionated heparin infusion was commenced to achieve therapeutic anti-Xa targets (0.5-0.7 IU/mL) since admission to our tertiary centre. Despite normal imaging appearances of the kidneys, the patient became anuric and required RRT. Transthoracic echocardiogram (TTE) on admission showed a hyper-dynamic left ventricle, moderately impaired RV function (FAC 25%) with septal motion suggesting pressure overload and no significant valvular disease. The patient's condition deteriorated with increasing vasopressor requirements and rising lactate. Further RV function deterioration (FAC 13.5%) motivated initiation of inotropic support with milrinone the following day. Following specialist multidisciplinary discussion, systemic fibrinolysis with alteplase was commenced (bolus followed by infusion at 1 mg/mL, 90 mg in total) in view of suspected hypoperfusion related progressive bowel ischaemia. A repeat CT the following day demonstrated a reduction in the size of aortic thrombus and improvement of bowel oedema, which corresponded with mild, transient clinical improvement. Unfortunately, further deterioration ensued, and the patient died on Day 3 from multi-organ failure, as renal function, respiratory failure, bowel ischaemia, and right ventricular performance continued to deteriorate. Several previous studies have observed high rates of thrombosis in COVID-19 patients but very few concomitant arterial and venous thrombosis. [4] [5] [6] The range of observed thrombosis in COVID-19 patients admitted to ICU ranges from 7.7% to 31% despite prophylactic anticoagulation. Most events were PE, DVT, stroke, and acute myocardial infarction but in situ aortic thrombosis has not been described. 7, 8 Acute thrombosis of a previously implanted aortic graft in a patient with COVID-19 related pneumonia has also been described, 9 as well as high incidence of acute leg ischaemia in patients with COVID- 19. 10 However, these observations may have been limited by the low rates of cross-sectional imaging performed (10%) in one study. 8 Venous thrombosis has been classically associated with the components of Virchow's triad of blood stasis, endothelial activation, and hypercoagulability, identifying predisposed subgroup of patients including those with cancer, recent surgery, and prolonged immobilization, as in ICU. Arterial thrombosis however, is more commonly related with damage to the endothelium of the vessel and increased platelet reactivity, affecting mostly patients with accepted cardiovascular risk factors for atherosclerosis such as tobacco smoking, systemic hypertension, and DM. Nevertheless, in recent years, common pathways for both venous and arterial thrombosis have been described, with inflammation and hypercoagulation being key factors in the mechanism of both types of thrombotic events. 11 Although the mechanisms underlying vascular thrombosis in COVID-19 have not been clearly defined yet, several have been postulated. The tropism that the virus shows for the angiotensinconverting enzyme-2 receptor of the endothelial cells results in an endothelialopathy and endothelial cell apoptosis. 12 The corresponding inflammation involves cytokine release, further endothelial cell dysfunction, haemostatic activation, decreased levels of tissue factor pathway inhibitor, and increased tissue factor. In addition, liver injury can lead to impaired coagulation and anti-thrombin formation. Infection-related disseminated intravascular coagulopathy (DIC) could also generate a pro-thrombotic state that contributes to venous and arterial thrombosis, including myocardial infarction. 12, 13 However, coagulopathy in COVID-19 seems to differ from classical sepsis-related DIC, associated with higher levels of D-dimer and relatively normal levels of prothrombin time (PT), fibrinogen, and platelets. 14 Additionally, the presence of antiphospholipid antibodies has been associated with micro-thrombosis in COVID-19 patients. 15 Nevertheless, these have not been tested in both cases and therefore, we are unable to suggest a correlation in this regard. Transoesophageal echocardiogram in patient 1 demonstrated a shunt across the PFO facilitated by an advanced position of the return ECMO cannula. However, paradoxical embolism is unlikely in this case given the fact that the aortic thrombus was much larger in size than the VV-ECMO return cannula lumen (i.e 23 Fr femoral venous cannula with an internal diameter of 0.6 mm by CT scan). In addition, intra-cannula clot and DVT were excluded by CT venography, and extensive laminar thrombus was present along the anterior wall of the ascending aorta, characteristic of an in situ aetiology. Both patients had received prophylactic anticoagulation with LMWH since presentation to their local hospitals. This was not effective in preventing thrombosis, which was already present at imaging performed at admission to our centre and could likely have contributed to the clinical deterioration that motivated the transfer. Patient 1 had a short history of symptoms, whilst Patient 2 was symptomatic for 2 weeks prior to presentation to his local hospital, 13 days before transfer. Therefore, the exact timing of thrombosis in the course of the disease and optimal treatment for COVID-19 thrombosis remain unknown, but our experience suggests comprehensive imaging should be considered soon after the presentation as thrombosis may happen early and would warrant full anticoagulation. Previous studies describe thrombotic events in patients already on prophylactic anticoagulation, 7, 8 and improved survival in patients with full anticoagulation has been suggested by Tang et al. 16 Indeed, a recent report has hypothesized that full anticoagulation is most likely needed in most COVID-19 patients and thrombolysis should be considered early in critically ill patients given the suboptimal rate of thrombus resolution on heparin alone. 17 In this regard, a case of catheter-directed thrombolysis administration for a large pulmonary embolism has been described. 18 Similarly, thrombolysis has been proposed for treating COVID-19 related ischaemic stroke. 19 In one of our patients, there was a documented improvement in the extent of aortic thrombosis and clinical status, although this did not ultimately affect the outcome. Clearly, any benefit of thrombolysis should be balanced against the risk of bleeding, which is often considerable in ICU patients and can lead to intracranial haemorrhage, particularly in patients supported by ECMO. 20 Patients treated for COVID-19 pneumonitis are at high risk of thrombotic events. Our two cases suggest aortic and venous thrombosis can coexist even in the absence of significant premorbid history. Even though aortic thrombosis is not a frequent complication, it has a devastating outcome. Although the in-hospital prevalence is very low, the true incidence is an unknown and a low index of suspicion is needed in an acutely deteriorating patient. We believe that early and comprehensive imaging is needed to help detect and treat these complications. Our case series shows that prophylactic anticoagulation was not adequate to prevent thrombotic events in critically ill COVID-19 patients and full anticoagulation or even thrombolysis should be considered early. However, this approach can be controversial in practice, as frequently a high risk of bleeding coexists in critically ill patients. Further studies on detailed and early laboratory, clinical and imaging characterization are needed to understand better the pathophysiology of the thrombotic nature of COVID- 19 . The timing of its development, its trajectory and which haematological pathways can be safely manipulated remain uncertain. Dr Castro-Verdes graduated with honours from the University of Santiago de Compostela in 2010. She completed the Spanish national training in cardiology at the University Hospital of Vigo, Spain, in 2016. She is currently a fellow in paediatric cardiology at the Royal Brompton Hospital in London, where she is developing her career in imaging and congenital heart disease. She previously trained in echocardiography in critical care in the adult intensive care unit of the same hospital, where she also was a first-line doctor during the COVID-19 pandemic in 2020. 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Supplementary material is available at European Heart Journal -Case Reports online.Slide sets: A fully edited slide set detailing this case and suitable for local presentation is available online as Supplementary data. The authors confirm that written consent for submission and publication of this case series including images and associated text has been obtained from the patients' family in line with the Committee on Publication Ethics guidance. Funding: none declared.