key: cord-1019384-2mh13u2o
authors: Borazjani, Roham; Seraj, Seyed Reza; Fallahi, Mohammad Javad; Rahmanian, Zhila
title: Acute portal vein thrombosis secondary to COVID-19: a case report
date: 2020-11-19
journal: BMC Gastroenterol
DOI: 10.1186/s12876-020-01518-2
sha: 6a849a69aef738e77127e2a4ae84b1610f96d9a2
doc_id: 1019384
cord_uid: 2mh13u2o

BACKGROUND: COVID-19 pneumonia exhibits several extra-pulmonary complications. CASE PRESENTATION: A 23-year old, asthmatic male with coronavirus pneumonia developed with generalized, acute abdominal pain. Further evaluations revealed a mild ascites and portal vein thrombosis although the patient received proper anticoagulation therapy. Routine lab data regarding the secondary causes of portal vein thrombosis were normal. CONCLUSION: We speculated that the underlying cause of portal vein thrombosis in our case was coronaviruses. Therefore, clinicians should always consider thrombosis and other hypercoagulable diseases in patients with COVID-19.

Novel Coronavirus pneumonia was first described as pneumonia of unknown cause in Wuhan, China, at the end of 2019 [1] and rapidly became pandemic. With time, some new extra-pulmonary manifestations of this viral pneumonia were described. Increased incidence of thromboembolic events was frequently reported [2] .

Herein, we aim to describe a 26-year-old male with COVID-19 pneumonia and acute Portal Vein Thrombosis (PVT).

A 26-year-old male, a known case of asthma, was brought to the Emergency Department (ED) in Faghihi hospital, Shiraz, Iran, on 11 April 2020 due to acute-onset dyspnea and a decrease in the level of consciousness since the day of admission. He was admitted with the impression of an acute asthma attack. There was no history of fever, hemoptysis, diarrhea, nausea, vomiting (N/V), lower gastrointestinal tract bleeding, incontinence, and stroke signs and symptoms. He had asthma for several years and only used the salbutamol inhaler as needed. His social history was positive for alcohol, cigarette smoking, and occasionally marijuana.

We intubated the patient due to severe hypoxia and respiratory distress; blood Oxygen saturation (O 2 Sat.) was 60% and 97% before and after intubation, respectively. The initial vital signs included temperature: 36.9 °C, pulse rate: 110/min, respiratory rate: 36/min, and blood pressure: 120/90 mmHg. Generalized wheezing was heard through auscultation. Other physical findings were normal. Brain computed tomography (CT) was normal. Chest CT showed bilateral peripheral and peribronchovascular patchy ground-glass opacities in both lung fields with tree-in-bud appearance (Fig. 1) .The tracheal aspirate was positive for real-time polymerase chain reaction (RT-PCR) for SARS-COV2. The blood routine tests are summarized in Table 1 .

Electrocardiography showed sinus tachycardia, and other findings were normal. Urine analysis was positive for marijuana, benzodiazepine, and morphine. Venous Blood gas analysis was as follows: pH 6.97, partial Open Access *Correspondence: fallahimj@sums.ac.ir pressure of carbon dioxide (PCO 2 ) = 103 mmHg, and venous bicarbonate level (HCO 3 ) = 23 mmol/L. We started the initial treatment immediately with dexamethasone (4 mg, IV every 8 h), Piperacillin/tazobactam (3.375 g, IV every 6 h), prophylactic heparin (5000 IU every 12 h). Due to significant patient-ventilator asynchrony, the patient was paralyzed with cisatracurium in addition to midazolam and propofol. During the mechanical ventilation course, he developed progressive thrombocytopenia (Table 1 ), but no apparent cause was found. Therefore, intravenous immunoglobulin (25 g per day for 3 days) was prescribed empirically for presumed SARS-COV2-induced thrombocytopenic purpura as idiopathic thrombocytopenic purpura. His respiratory condition got better during the next 5 days when we started weaning the patient off the mechanical ventilation, and he was extubated on 16 April 2020, but thrombocytopenia persisted.

On 21 April 2020 (10 days after admission), the patient developed upper GI bleeding associated with generalized abdominal pain with distension. Upper GI endoscopy was normal, except for the presence of minimal erythema and congestion in the cardia and fundus. No esophageal and fundal varices and duodenal ulcers were reported. Abdominopelvic Sonography showed mild free fluid in the abdominal cavity. The diagnostic abdominal tap was done, and the results are summarized in Tables 1 and 2 . Regarding concomitant abdominal pain and abnormal liver biochemistries (Table 2) , abdominal CT was requested which showed hypoperfused areas in the posterior segment of the right (Rt.) hepatic lobe and the medial and lateral segments of left (Lt.) lobe along with evidence of filling defect in the main Rt. Portal vein. Also, the Lt. portal vein was not opacified (Fig. 2) . Color Doppler Sonography (CDS) of the abdomen showed the absence of flow in the portal vein without collateral veins consistent with acute portal vein thrombosis. An extensive evaluation of the possible underlying hypercoagulable state was unremarkable (Table 3) .

When gastrointestinal bleeding was stopped, Enoxaparin was started at a minimum effective dose of 1.5 IU/kg/ day (60 IU every 12 h) regarding recent thrombocytopenia and risk of gastrointestinal re-bleeding. After about 1 week, his abdominal pain well improved, and platelet count became normal, and finally the patient was discharged with oral warfarin. Unfortunately, patient did not come to our OPD clinic for follow up and further investigation.

Herein, we report a coincidence of the acute portal vein thrombosis and COVID-19 respiratory pneumonia in the background of an acute asthma attack. PVT is a rare venous thromboembolic disease typically occurring in patients with an underlying disease such as [2] . Our patient did not have any of the mentioned risk factors. There is some unproven concern about the increased thrombotic event during or early after IV immunoglobulin exists. Still, no episode of portal vein thrombosis is linked to IVIG to date [3] . Several studies showed that thromboembolic events increased in patients with SARS-CoV-2 infection since the pandemic declared by the World Health Organization (WHO) [4] [5] [6] . In previous studies, thromboembolic events were pulmonary emboli, deep venous thrombosis (DVT), and cerebral infarction usually occurring in the elderly with severe COVID-19 and comorbid diseases such as hypertension and diabetes [5] [6] [7] [8] . To the best of our knowledge, our patient is the third case with PVT. The first was a 79-year old female without unknown medical comorbidities who had diarrhea and epigastric abdominal pain and acute dyspnea 8 days after abdominal pain [9] . The second case was a 72-year-old male with Parkinson's disease and mild vascular dementia who was suffering from jaundice, fever, hypotension, elevated liver enzyme, and acute kidney injury. At first, he was admitted with the impression of Escherichia Coli sepsis. Therefore, he received proper antibiotic regimen, but the fever was not resolved [10] . However, in our study, the patient was a young man without any significant comorbidities, except for a history of asthma and chronic alcohol consumption. The exact pathophysiology of the increased prevalence of thromboembolism events in COVID-19 positive patients remains unclear [5] . However, immobilization and hypoxemia, as seen in our patient at the time of admission along with the increase in inflammatory cytokines such as interleukin-6 (IL-6), IL-10, and Tumor Necrosis Factor Alfa (TNF-α) are the possible mechanisms [11] [12] [13] . Unfortunately, we cannot assess the serum level of these cytokines. The attachment of the viruses to the endothelial surfaces via angiotensin-converting enzyme receptor (ACE-R), leads to the lymphocytic endothilitis, interferon-1 (INF-1), and prothrombotic genes overexpression [14] . Becker speculated that the attachment of COVID-19-related extracellular RNA to the factor XI and XII which belongs to the contact pathway of the coagulation cascade leads to the interferon-γ (INF-γ) suppression and a hyper-inflammatory state [15] . Our patient was a smoker. Smoking has been deemed as a risk factor for severe COVID pneumonia and a minor risk factor for thrombotic event which may potentiate the above-mentioned hypercoagulable state [16] .

Our report of portal vein thrombosis in the setting of COVID-19 pneumonia adds portal vein thrombosis to other COVID-19 associated thrombotic phenomenon and denotes that the clinician who cares for these patients should have a high index of suspicion to diagnose this unusual presentation in a proper clinical scenario. 

Review of the clinical characteristics of coronavirus disease 2019 (COVID-19)

Confirmation of the high cumulative incidence of thrombotic complications in critically ill ICU patients with COVID-19: an updated analysis

Intravenous immunoglobulin-related thromboembolic events-an accusation that proves the opposite

Venous thrombosis and arteriosclerosis obliterans of lower extremities in a very severe patient with 2019 novel coronavirus disease: a case report

A case of coronavirus disease 2019 with concomitant acute cerebral infarction and deep vein thrombosis

Severe acute respiratory syndrome coronavirus 2 infection and the upper limb deep vein thrombosis risk

Prevalence of venous thromboembolism in patients with severe novel coronavirus pneumonia

Etiologic Subtypes of Ischemic Stroke in SARS-COV-2 Virus patients

Arterial and venous abdominal thrombosis in a 79-year-old woman with COVID-19 pneumonia

Acute portal vein thrombosis in SARS-CoV-2 infection: a case report

Clinical features of patients infected with 2019 novel coronavirus in Wuhan

Thrombosis and thromboembolism related to COVID-19 A clarion call for obtaining solid estimates from large-scale multicenter data

Thromboinflammation and the hypercoagulability of COVID-19

Human iPSCderived cardiomyocytes are susceptible to SARS-CoV-2 infection

COVID-19 update: Covid-19-associated coagulopathy

COVID-19 and smoking: a systematic review of the evidence

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Authors' contributions R.B., R.S, M.F., and Z.M. contributed to the design and implementation of the research, to the analysis of the results and the writing of the manuscript. All authors read and approved the final manuscript.

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The datasets generated and/or gathered during this study are not publicly available given our commitment to patient privacy rights. However, anonymous data may be requested from the corresponding author for valid use.

This case report was conducted in accordance with the Declaration of Helsinki. Ethical approval for this study was obtained from the Research Ethics 

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The authors declare that they have no competing interests.