Archives of Academic Emergency Medicine. 2020; 8(1): e88

CA S E RE P O RT

Pulmonary Thromboembolism and Infarction Mimicking
COVID-19 Symptoms; Report of three Cases
Rama Bozorgmehr1, Mehdi Pishgahi2, Zohreh Tajabadi 3∗, Mohammad Aryafar4

1. Clinical Research Development Unit, Shohadaye Tajrish Hospital, Shahid Beheshti University of Medical Sciences, Tehran, Iran.

2. Cardiology Research Center, Shohadaye Tajrish Hospital, Shahid Beheshti University of Medical Sciences, Tehran, Iran.

3. Student Research Committee, School of Medicine, Shahid Beheshti University of Medical Sciences, Tehran, Iran.

4. Department of Anesthesiology, Tehran Medical Sciences Branch, Islamic Azad University, Tehran, Iran.

Received: October 2020; Accepted: October 2020; Published online: 2 November 2020

Abstract: Since the novel coronavirus emerged in late December, 2019 in Wuhan, China, millions of people have been
infected and thousands of patients have died. Fever and dyspnea are the most common symptoms of infection
with SARS-CoV-2. However, these symptoms are neither specific nor diagnostic for COVID-19. Symptom overlap
between COVID-19 and some other conditions may lead other diseases to be missed and underdiagnosed. Just
like COVID-19, pulmonary thromboembolism (PTE) and pulmonary infarction may present with fever and res-
piratory symptoms. Since COVID-19 emerged and spread worldwide, many clinicians are focused on diagnosis
and treatment of this novel viral infection. Hence, other diseases presenting with the same symptoms as COVID-
19 may remain underdiagnosed. Here, we report three cases of PTE and pulmonary infarction presenting with
fever and respiratory symptoms mimicking COVID-19.

Keywords: Pulmonary embolism; pulmonary infarction; COVID-19; venous thrombosis; signs and symptoms, respiratory

Cite this article as: Bozorgmehr R, Pishgahi M, Tajabadi Z, Aryafar M. Pulmonary Thromboembolism and Infarction Mimicking COVID-19

Symptoms; Report of three Cases. Arch Acad Emerg Med. 2020; 8(1): e88.

1. Introduction

SARS-CoV-2 is a single-strand RNA virus, which belongs

to Coronaviridae family (1). Since the novel coronavirus

emerged in late December, 2019 in Wuhan, China, millions

of people have been infected and thousands of patients have

died. Nowadays, COVID-19 pandemic is a major concern

for both people and health-care systems. Fever and dysp-

nea are the most common symptoms of infection with SARS-

CoV-2 (2). However, these symptoms are neither specific

nor diagnostic for COVID-19. Many other diseases initially

present with fever and respiratory symptoms. Symptom

overlap between COVID-19 and some other conditions may

result in other diseases being missed and underdiagnosed.

Underdiagnosis of the disease may increase the risk of mor-

bidity and mortality due to misdiagnosis, mistreatment, or

delay in treatment initiation. Like COVID-19, pulmonary

∗Corresponding Author: Zohreh Tajabadi, Shahid Beheshti university of med-
ical sciences, faculty of medicine, Evin, Tehran, Iran. Tel: +989399304075, E-
mail: Zohre.tajabadi@sbmu.ac.ir. ORCID: https://orcid.org/0000-0002-9854-
7260

thromboembolism (PTE) may present with fever and respira-

tory symptoms such as dyspnea, tachypnea and hemoptysis

(1). PTE occurs among one third of patients with deep vein

thrombosis (DVT) and is associated with increased risk of

morbidity and mortality (3). Furthermore, recent researches

have demonstrated that COVID-19 is associated with coag-

ulopathy and increases the risk of DVT and PTE (4). Due to

overlap of symptoms and findings between these conditions,

diagnosis of these diseases is challenging. During COVID-

19 pandemic, pulmonary thromboembolism, pulmonary in-

farction, and other diseases presenting with fever and respi-

ratory symptoms should also be considered to prevent mis-

diagnosis of these diseases. In this series, pulmonary throm-

boembolism and associated pulmonary infarction mimick-

ing the symptoms and findings of COVID-19 is reported in

a young post-partum woman with history of thrombosis, an

old woman with a history of recent trauma, and a young man

without any history of underlying medical diseases.

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R. Bozorgmehr et al. 2

Figure 1: Central filling defect in right inter-lobar artery and left lower segmental artery with infarction of both peripheral superior segments

of right lower lobe and left lower lobe.

2. Case presentations

2.1. Case 1

A 29-year-old postpartum woman from Qom city, where the

first COVID-19 case in Iran was observed, presented to our

emergency department with a history of dyspnea, tachyp-

nea, and pleuritic chest pain. At the time of admission, an

O2 saturation of 92%, heart rate of 108 bpm, respiratory rate

of 28/minutes and oral temperature of 38 0C were noted.

Her blood pressure was within the normal range. Physi-

cal examination revealed edema, tenderness, and warmth

of the right leg. The left leg was normal in physical exam-

ination. Electrocardiogram was normal. At the time of ad-

mission, laboratory tests revealed normal white blood cell

count (6.2×103/mm3), platelet count (226×103/mm3), blood

urea nitrogen (14 mg/dl) and creatinine (0.8 mg/dl). In blood

examination, hemoglobin =10.1 gr/dl, prothrombin time=16

seconds, international normalized ratio (INR) =1.4, and ery-

throcyte sedimentation rate (ESR) = 50 mm/hour were noted.

Liver function tests were normal. Other laboratory parame-

ters were in normal ranges. Due to dyspnea and fever, spi-

ral chest computed tomography (CT) scan was done to as-

sess COVID-19, which had some bilateral and sub-pleural

patchy ground glass infiltration. The radiologist report was

consistent with COVID-19. But the patient had a history of

left leg pain and edema from seven days ago and because of

that we considered pulmonary thromboembolism and pul-

monary infarction. The patient had a previous history of left

transverse and sigmoid sinus thrombosis, right cavernous si-

nus thrombosis, and several episodes of seizure six years ago.

The patient was on heparin treatment for six years but had

received no treatment during pregnancy. Since the symp-

toms and CT scan findings were consistent with both COVID-

19 and pulmonary infarction, the reverse transcriptase poly-

merase chain reaction (RT-PCR) test and a multi-detector

CT angiography of lungs were performed. The RT-PCR test

showed negative results. CT angiography demonstrated evi-

dences of central filling defect in left lower artery and right

inter-lobar artery extending to segmental branches (Figure

1). Furthermore, bilateral wedge-shaped consolidation of

peripheral superior segment was found. Findings of CT

angiography were consistent with pulmonary thromboem-

bolism (PTE) and pulmonary infarction. She also underwent

color-flow Doppler sonography, which indicated abnormal

venous flow in right common femoral, superficial femoral,

popliteal, and external iliac veins indicating acute deep vein

thrombosis (DVT) in these veins. During compression ultra-

sound, the veins were unable to compress. Venous blood flow

was normal through inferior vena cava. Echocardiography

showed normal ventricular size and function. No evidence of

pulmonary thromboembolism was detected on echocardio-

graphy. Therefore, due to previous history of thrombophilia

and concurrent DVT, pulmonary thromboembolism leading

to pulmonary infarction was diagnosed and anticoagulant

therapy was started. Several days after admission, she devel-

oped fever and chills, and dyspnea worsened. Due to a high

suspicion of COVID-19, both RT-PCR test and IgM and IgG

antibody tests for COVID-19 were performed, which showed

negative results and COVID-19 was ruled out. Since post-

partum women are at increased risk of infections and also

pulmonary infarction is associated with a greater risk of in-

fections, pneumonia was considered in this patient. There-

fore, intravenous antibiotic therapy was initiated. Subse-

quently, sputum smear and culture for bacterial infections

were performed, which showed negative results. Further-

more, all thrombophilic evaluations were negative. Dur-

ing hospitalization, leg pain and edema improved gradually.

Fever and chills resolved. Patient’s clinical condition signifi-

cantly improved and she was finally discharged from the hos-

pital.

2.2. Case 2

An 80-year-old woman from Tehran presented to our emer-

gency department with a history of one week of dyspnea,

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3 Archives of Academic Emergency Medicine. 2020; 8(1): e88

Figure 2: Filling defect in left main pulmonary artery and right lower lobe with bilateral sub-pleural infarction.

productive cough, and left-sided pleuritic chest pain. The

patient had a history of asthma and was receiving salbuta-

mol. She had a history of falling down resulting in a blunt

chest trauma about three weeks ago. At the time of ad-

mission, an O2 saturation of 93% and a respiratory rate of

24/minutes was noted. Heart rate, blood pressure, and oral

temperature were within normal ranges. On physical exam-

ination, inspiratory basal crackles in left lung were noted.

The right lung was clear on auscultation. An electrocar-

diography was performed, which was normal. At the time

of admission, laboratory tests revealed normal white blood

cell count (5.9×103/mm3), platelet count (314×103/mm3),

ESR (6 mm/hour), c-reactive protein (CRP) (5.6 mg/dl), and

creatinine (1.32 mg/dl). In blood examination, blood urea

nitrogen = 30 mg/dl, hemoglobin = 11.3 gr/dl, Calcium =

11.15 mg/dl, and phosphorus = 5.5 mg/dl were noted. Ve-

nous blood gas analysis was normal for pH (7.39), PCO2 (40

mmHg) and HCO3 (23.9 mEq/L). Other laboratory parame-

ters were within normal ranges. Due to respiratory symp-

toms, a spiral chest CT scan was performed on admission,

which showed ground glass opacities of sub-pleural regions

in left lung. CT imaging revealed multiple consolidations and

atelectasis in right lung. The radiologist report was consis-

tent with COVID-19. However, since symptoms and imag-

ing findings were consistent with both COVID-19 and pul-

monary infarction, the patient underwent RT-PCR test and

CT angiography. The RT-PCR test revealed negative results.

CT angiography of lungs showed evidence of filling defect

in left pulmonary artery extending to segmental branches,

which was consistent with pulmonary infarction due to pul-

monary embolism (figure 2). CT angiography revealed no

abnormal findings in right lung. Subsequently, the patient

underwent color-flow Doppler sonography of lower extrem-

ities to find evidence of any vein thrombosis. However, no

findings of acute DVT were reported. Since the diagnosis

of PTE and pulmonary infarction was confirmed, anticoag-

ulant therapy was started. During hospitalization, the lev-

els of hemoglobin gradually decreased to 10.7 gr/dl, and ESR

and CRP increased to 24 and 33.2 mg/dl, respectively. During

hospitalization, dyspnea and pleuritic chest pain improved

and productive cough was resolved gradually. After six days,

the patient was discharged without any complaints or com-

plications.

2.3. Case 3

A 23-year-old man presented to our emergency department

with a history of progressive dyspnea and dry cough from 10

days ago. He also complained of right-sided chest pain that

exacerbated by lying flat, which had started 3 days ago. Fever

and sore throat also started one day ago. He had a history

of exposure to COVID-positive patients during the last two

weeks. The patient denied any history of underlying med-

ical diseases. He also denied any history of smoking, alco-

hol, or drug use. At the time of admission, a heart rate of

125 beat/minute and blood pressure of 100/75 mmHg were

noted. O2 saturation was 91% in room air, which increased to

97% with mask. Respiratory rate and oral temperature were

normal. Physical examinations did not reveal any abnormal-

ities. The heart and lungs were clear to auscultation. On ad-

mission, blood examinations revealed white blood cell count

(WBC) =7500×103 /mm3; hemoglobin =14.9 gr/dl; Platelet =

196000; CRP=10 mg/dl and ESR = 7 mm/hour, all of which

were within normal ranges. Biochemical tests showed creati-

nine = 0.9 mg/dl; blood urea nitrogen (BUN) = 13 mg/dl; Na

= 140 meq/L; K = 3.5 meq/L; creatine phosphokinase (CPK)

= 162 IU/L; creatine kinase-MB (CKmb) = 21 IU/L, and lac-

tate dehydrogenase (LDH) = 381 U/L. Venous blood gas anal-

ysis demonstrated a pH of 7.35, PCO2 of 51.9 mmHg, and

HCO3 of 27.9 mEq/L, which were indicative of respiratory

acidosis. Due to fever, respiratory symptoms, and recent his-

tory of exposure to COVID-positive patients, initially, COVID-

19 was suspected. The patient underwent spiral CT scan of

lungs, which revealed bilateral and sub-pleural ground glass

opacities. Since symptoms and imaging findings were con-

sistent with both COVID-19 and pulmonary infarction, the

patient underwent RT-PCR test and CT angiography. The

result of RT-PCR test for COVID-19 was negative. CT an-

giography of lungs showed massive PTE in both right and

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R. Bozorgmehr et al. 4

Figure 3: Central filling defect in main pulmonary branch of left lower lobe with infarction in posterior-basal segment of left lower lobe on

pulmonary angiography.

left pulmonary arteries (figure 3). Furthermore, peripheral

patchy lesions without enhancement were seen, which were

indicative of pulmonary infarction in both lungs. There-

fore, infection with SARS-CoV-2 was ruled out and the di-

agnosis of pulmonary infarction due to PTE was confirmed

for the patient by performing echocardiography and color-

flow Doppler sonography of the abdomen and lower limbs.

Echocardiography revealed a Large PTE and a severely di-

lated right ventricle. However, color-flow Doppler sonogra-

phy showed no evidence of acute DVT. Furthermore, mesen-

teric veins had normal blood flow and peak systolic veloc-

ity. Since the diagnosis of PTE and pulmonary infarction

was confirmed using imaging, fibrinolytic and anticoagulant

therapy were started. Prothrombine time (PT), partial throm-

boplastin time (PTT), and INR were closely monitored. Dur-

ing hospitalization, dyspnea, productive cough, and chest

pain resolved. The fever improved gradually. On the last

day of hospitalization, blood tests revealed WBC=5100/mm3;

hemoglobin = 14.9 gr/dl; platelet count = 233000/mm3; PT =

13 seconds; INR = 1 and PTT = 32 seconds, which were all

within normal ranges. The patient was discharged on the

sixth day without any complications.

3. Discussion

COVID-19 emerged in winter, 2019 in Wuhan province, China

and rapidly spread all over the world. In March 2020, world

health organization declared COVID-19 as a pandemic (5). To

date more than 20,000,000 people have been infected around

the world. Infection with this novel coronavirus is associated

with a considerable rate of morbidity and mortality. COVID-

19 usually presents with fever and respiratory symptoms in-

cluding dyspnea, tachypnea, cough, and hemoptysis. These

symptoms are neither specific nor diagnostic for COVID-19.

Many other infectious or respiratory disorders also present

with constitutional and respiratory symptoms. Hence, dur-

ing COVID-19 pandemic, for the patients presenting with

fever and respiratory symptoms, other diseases should also

be considered to prevent misdiagnosis of the underlying dis-

ease. Pulmonary thromboembolism and pulmonary infarc-

tion are among the respiratory disease, which usually present

with respiratory symptoms such as dyspnea, chest pain, and

hemoptysis. Recent researches have indicated that COVID-

19 increases the risk of thrombosis development. A recent

study carried out by Pishgahi et al., reported massive throm-

boembolism development among three ICU admitted pa-

tients with COVID-19 (6). Patients with COVID-19 usually

suffer from hypoxia and sepsis, which are among the major

causes of thrombosis formation (4). Furthermore, the novel

coronavirus can infect cells via ACE2 receptor, which results

in endothelial damage (6). However, the exact mechanism is

unknown. COVID-19 can induce inflammation, platelet acti-

vation, endothelial dysfunction, and stasis, leading to throm-

botic events such as DVT and PTE (7). Thrombotic events

are associated with increased risk of death among patients

infected with SARS-CoV-2 virus (4). Deep vein thrombosis

accounts for two-thirds of venous thromboembolism cases,

occurring in 1 out of 1000 individuals each year (3). Venous

stasis, vascular injury, and hypercoagulability, known as “Vir-

chow’s Triad”, are the major factors leading to thrombosis

formation (3). Pregnancy, prolonged immobility, and previ-

ous history of thrombosis are associated with an increased

risk of DVT. Our first patient had the history of recent preg-

nancy, previous hypercoagulability, and cerebral vein throm-

bosis associated with increased risk of thrombotic events. Pa-

tients with DVT usually present with leg pain, warmth sensa-

tion, swelling and leg ulcers (3). Also patients with DVT may

be asymptomatic (7). Because of safety, cost-effectiveness,

and reliability, ultrasound imaging is the first modality used

for the diagnosis of DVT (3). Color-flow Doppler sonography

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5 Archives of Academic Emergency Medicine. 2020; 8(1): e88

is also used for better evaluation of thrombosis. The reported

patients underwent color-flow Doppler sonography. The first

patient had no normal venous flow in right common femoral,

superficial femoral, popliteal, and external iliac veins, indi-

cating acute DVT in these veins. These findings were con-

sistent with DVT. However, other patients showed no evi-

dence of vein thrombosis in color-flow Doppler sonography.

Sometimes DVT may progress to PTE. PTE is among the ma-

jor manifestations of venous thromboembolism. Pulmonary

thromboembolism can present with a wide range of non-

specific symptoms, which makes the diagnosis of the disease

difficult (8). Studies showed that patients with COVID-19 are

at an increased risk of PTE development. Ohana et al., re-

ported that 30% of patients with COVID-19 developed PTE,

which was greater than PTE rate among ill patients without

SARS-CoV-2 infection (9). PTE can lead to pulmonary infarc-

tion, which is a rare complication of pulmonary embolism

(10). Pulmonary infarction does not occur frequently due to

robust oxygenation supports and vascular supplies of lungs

from pulmonary circulation, bronchial circulation, and air-

ways (11). Risk factors for pulmonary infarction are the same

as DVT and PTE (12). Pulmonary infarction may present

with chest pain, bleeding, and hemoptysis. However, pleu-

ritic chest pain and sudden dyspnea are the most common

symptoms of pulmonary infarction (11). These three patients

all presented with dyspnea and chest pain. A retrospective

study carried out by Chengsupanimit et al., reported that six-

month survival of patients who develop pulmonary infarc-

tion was 88%. Also researchers found that 55% of patients

with pulmonary infarction had a history of DVT (10). Concur-

rent peripheral consolidation and central clearance, mixed

peripheral consolidation with ground glass opacity (GGO),

and peripheral GGO are among the most common CT scan

findings in patients who develop pulmonary infarction (10).

On the other hand, GGO, mixed GGO, crazy-paving patterns,

peripheral and subpleural consolidations, and bilateral in-

volvement of both lower lungs are among the typical find-

ings of CT scan among patients with COVID-19 (13). There-

fore, in the presence of these findings, both COVID-19 and

pulmonary infarction should be considered. The reported

patients underwent CT scan of lungs, which revealed multi-

ple consolidations and ground glass opacities. CT scan find-

ings were consistent with both COVID-19 and pulmonary

infarction. COVID-19 was considered first. However, re-

verse transcriptase polymerase chain reaction for COVID-19

showed negative results and other diseases were considered.

During COVID-19 pandemic, some of the diseases may re-

main underdiagnosed. COVID-19 usually presents with con-

stitutional symptoms such as fever, chills, myalgia, fatigue,

and respiratory symptoms including dyspnea, cough, and

tachypnea, and in some cases hemoptysis. Many other clin-

ical situations such as malignancies, anemia, metabolic dis-

orders, and infections may also initiate with constitutional

symptoms. Furthermore, respiratory disorders such as up-

per respiratory tract infections, pneumonias, pulmonary em-

bolism, and pulmonary infarction can present with respira-

tory symptoms. Since COVID-19 emerged and spread world-

wide, many clinicians are focused on diagnosis and treat-

ment of this novel viral infection. Hence, other diseases pre-

senting with the same symptoms as COVID-19 may remain

underdiagnosed. In the reported cases, PTE and pulmonary

infarction presented with fever and respiratory symptoms,

mimicking COVID-19. Since there was high suspicion for

COVID-19, diagnostic tests were performed, which showed

negative results. After COVID-19 was ruled out, the diagno-

sis of underlying pulmonary condition was considered. CT

angiography of lung confirmed the diagnosis of PTE associ-

ated with pulmonary infarction. When the diagnosis of pul-

monary infarction due to PTE was confirmed, anticoagulant

therapy was started. Studies showed that anticoagulant ther-

apy decreases the risk of thrombosis recurrence (3). Also, re-

cent researches demonstrated that thromboprophylaxis and

anticoagulant therapy lower the risk of mortality among pa-

tients with severe COVID-19 (4). During hospitalization, pa-

tients’ clinical conditions improved significantly. At the time

of writing this manuscript, these patients are still symptom-

free.

4. Conclusion

Since COVID-19 emerged and spread worldwide, many

health-care workers have focused on diagnosis and treat-

ment of this viral infection. Similarities between symptoms

of COVID-19 and many other diseases makes the diagno-

sis of the underlying disease harder during COVID-19 pan-

demic. Under-diagnosis of the diseases leads to delay in di-

agnosis and treatment initiation, which may increase the risk

of patient morbidity and mortality. Therefore, it is important

to consider other underlying diseases presenting with con-

stitutional and respiratory symptoms during COVID-19 pan-

demic.

5. Declarations

5.1. Acknowledgements

None.

5.2. Authors contribution

All authors met the criteria for gaining authorship based

on the recommendations of the International Committee of

Medical Journal Editors.

5.3. Conflict of interest

The authors have no conflicts of interest.

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R. Bozorgmehr et al. 6

5.4. Funding

None.

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	Introduction
	Case presentations
	Discussion
	Conclusion
	Declarations
	References