COVID-19-associated pulmonary embolism: Difference between revisions

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== Differentiating Pulmonary Embolism from other Diseases ==
== Differentiating Pulmonary Embolism from other Diseases ==
<small>Pulmonary embolism in COVID-19 patients can be sudden and can mimic symptoms of other disorders like pneumonia and ARDS. Therefore it has been suggested there should be lower threshold of imaging like DVT or CTPA reserved for pulmonary embolism in COVID-19 patients admitted to the ICU setting.
==Epidemiology and demographics==


<small>
*Various case reports and case series report relatively high incidence of [[pulmonary embolism]] in ICU patients.
 
== Epidemiology and demographics ==
 
* Various case reports and case series report relatively high incidence of [[pulmonary embolism]] in ICU patients.
* The incidence of  thrombotic complications is reported to be 31 % in one study. In this study pulmonary embolism was the most common [[Thrombosis|thrombotic]] complication.
* The incidence of  thrombotic complications is reported to be 31 % in one study. In this study pulmonary embolism was the most common [[Thrombosis|thrombotic]] complication.
*Another study reported an overall 24% [[cumulative incidence]] of pulmonary embolism in patients with COVID-19 pneumonia, 50% (30–70%) in ICU and 18% (12–27%) in other patients.  
*Another study reported an overall 24% [[cumulative incidence]] of pulmonary embolism in patients with COVID-19 pneumonia, 50% (30–70%) in ICU and 18% (12–27%) in other patients.
* In Non-ICU settings (In-patient), [[pulmonary embolism]] is reported to occur in 3% percent of patients in one study.
* In Non-ICU settings (In-patient), [[pulmonary embolism]] is reported to occur in 3% percent of patients in one study.


== Risk Factors ==
==Risk Factors==
Multivariate analysis showed following risk factors that predispose a patient of COVID-19 to [[pulmonary embolism]]  
Multivariate analysis showed following risk factors that predispose a patient of COVID-19 to [[pulmonary embolism]]
{| class="wikitable"
{| class="wikitable"
|-
|-
|
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* Malignancy
* Malignancy
|}
|}
== Natural History,Complications and Prognosis ==
== Natural History,Complications and Prognosis ==
==== Overview ====
==== Overview ====
[[Pulmonary embolism]] in critically ill patients of [[COVID-19]] is a frequent finding. It can lead to the development of [[cardiogenic shock]], [[Sudden cardiac death|sudden cardiac arrest]] and [[pulmonary hypertension]] if developed chronically. There has been various investigational and treatment approach to treat the [[hypercoagulability]] leading to these complications in COVID-19 patients. Patients that are at risk of pulmonary embolism such as those with [[deep venous thrombosis]] are advised to take oral anticoagulants. Studies show that there is high [[cumulative incidence]] of PE in COVID-19 patients which suggests more frequent use of contrast medium on CT for the evaluation of COVID-19 patients.  
[[Pulmonary embolism]] in critically ill patients of [[COVID-19]] is a frequent finding. It can lead to the development of [[cardiogenic shock]], [[Sudden cardiac death|sudden cardiac arrest]] and [[pulmonary hypertension]] if developed chronically. There has been various investigational and treatment approach to treat the [[hypercoagulability]] leading to these complications in COVID-19 patients. Patients that are at risk of pulmonary embolism such as those with [[deep venous thrombosis]] are advised to take oral anticoagulants. Studies show that there is high [[cumulative incidence]] of PE in COVID-19 patients which suggests more frequent use of contrast medium on CT for the evaluation of COVID-19 patients.  
==== Complications ====
==== Complications ====
Various [[complications]] have been reported ranging from [[Right heart failure|acute right heart failure]] and [[sudden cardiac arrest]] due to [[pulmonary embolism]] in COVID-19 patients. The following complications have been frequently reported in various case reports and case series.  
Various [[complications]] have been reported ranging from [[Right heart failure|acute right heart failure]] and [[sudden cardiac arrest]] due to [[pulmonary embolism]] in COVID-19 patients. The following complications have been frequently reported in various case reports and case series.  


* [[Acute heart failure]]  
*[[Acute heart failure]]
* [[Atrial flutter]]
*[[Atrial flutter]]
* [[Pulseless electrical activity]]
*[[Pulseless electrical activity]]
* [[Sudden cardiac arrest|Sudden Cardiac Arrest]]  
*[[Sudden cardiac arrest|Sudden Cardiac Arrest]]


==== Prognosis ====
==== Prognosis ====
COVID-19 patients presenting with [[pulmonary embolism]] have a poor prognosis. It has been reported that despite adequate [[anticoagulation]] being advised to patients in ICU, there is still relatively high [[incidence]] of PE in these patients. Few studies showed [[Venous thromboembolism|VTE]] to be the main cause of death in COVID-19 patients which suggests setting a lower threshold for [[diagnostic imaging]] for [[Deep vein thrombosis|DVT]] or [[Pulmonary embolism|PE]].
COVID-19 patients presenting with [[pulmonary embolism]] have a poor prognosis. It has been reported that despite adequate [[anticoagulation]] being advised to patients in ICU, there is still relatively high [[incidence]] of PE in these patients. Few studies showed [[Venous thromboembolism|VTE]] to be the main cause of death in COVID-19 patients which suggests setting a lower threshold for [[diagnostic imaging]] for [[Deep vein thrombosis|DVT]] or [[Pulmonary embolism|PE]].
== Diagnosis ==
== Diagnosis ==
==== History and Symptoms ====
==== History and Symptoms ====


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==== Physical Examination ====
==== Physical Examination ====
On physical examination following signs can be demonstrated in COVID-19 patients.
On physical examination following signs can be demonstrated in COVID-19 patients.
====== General ======
====== General ======


* [[Tachypnea]] (>20/min)
*[[Tachypnea]] (>20/min)
* [[Tachycardia]] (>100/min)
*[[Tachycardia]] (>100/min)
* [[Diaphoresis]]
*[[Diaphoresis]]
* [[Cyanosis]]
*[[Cyanosis]]
* [[Temperature]] > 38.5oC (>101.3oF)
*[[Temperature]] > 38.5oC (>101.3oF)


====== Cardiac examination ======
====== Cardiac examination ======
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* Increased [[P2]]
* Increased [[P2]]
* Right ventricular lift
* Right ventricular lift
* [[Jugular venous distension]]
*[[Jugular venous distension]]


====== Lung examination ======
====== Lung examination ======


* [[Rales]] (crackles)
*[[Rales]] (crackles)
* Wheezes
* Wheezes
* [[Rhonchi]]
*[[Rhonchi]]
* Decreased [[breath sounds]]
* Decreased [[breath sounds]]
* [[Pleural friction rub]]
*[[Pleural friction rub]]


====== DVT signs ======
====== DVT signs ======
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==== Imaging studies ====
==== Imaging studies ====
===== Chest-X ray =====
===== Chest-X ray =====
Chest radiography in not a primarily [[diagnostic test]] in [[pulmonary embolism]] patient. It is neither [[Sensitivity (tests)|sensitive]] and nor [[Specificity|specific]]. [[Chest-X ray|Chest-X ray i]]<nowiki/>s used to rule out other conditions that can mimic symptoms of [[pulmonary embolism]] such as [[bacterial pneumonia]] ,cardiogenic cause of [[dyspnea]] and [[pneumothorax]].
Chest radiography in not a primarily [[diagnostic test]] in [[pulmonary embolism]] patient. It is neither [[Sensitivity (tests)|sensitive]] and nor [[Specificity|specific]]. [[Chest-X ray|Chest-X ray i]]<nowiki/>s used to rule out other conditions that can mimic symptoms of [[pulmonary embolism]] such as [[bacterial pneumonia]] ,cardiogenic cause of [[dyspnea]] and [[pneumothorax]].
===== CTPA & Ventilation Perfusion Scan =====
===== CTPA & Ventilation Perfusion Scan =====


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[[File:Covid-19-pneumonia-and-pulmonary-emboli.jpg|thumb|300px|none|Right-sided segmental and subsegmental pulmonary arterial filling defects (yellow arrows) in keeping with acute distal pulmonary emboli. Source: Dr Gianluca Martinelli<nowiki/>https://radiopaedia.org/cases/76817 ]]
[[File:Covid-19-pneumonia-and-pulmonary-emboli.jpg|thumb|300px|none|Right-sided segmental and subsegmental pulmonary arterial filling defects (yellow arrows) in keeping with acute distal pulmonary emboli. Source: Dr Gianluca Martinelli<nowiki/>https://radiopaedia.org/cases/76817 ]]
*
== Treatment ==
== Treatment ==


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*Critically ill patients that have recovered from COVID-19 and had a documented [[Venous thromboembolism|VTE]] are usually given a minimum of 3 months of anticoagulation.
*Critically ill patients that have recovered from COVID-19 and had a documented [[Venous thromboembolism|VTE]] are usually given a minimum of 3 months of anticoagulation.
* Patients not admitted to hospitals but at risk of [[Venous thromboembolism|VTE]], such as prior VTE episode, recent surgery, prolonged immobilization are usually given a prophylactic dose of [[Rivaroxaban]] 10 mg daily for 31 days or 39 days.
* Patients not admitted to hospitals but at risk of [[Venous thromboembolism|VTE]], such as prior VTE episode, recent surgery, prolonged immobilization are usually given a prophylactic dose of [[Rivaroxaban]] 10 mg daily for 31 days or 39 days.
|}
|}[[File:Patho covid anticoagulation.jpg|600px|center]]<br />
 
[[File:Patho covid anticoagulation.jpg|600px|center]]
 
<br />
 
== References ==
== References ==
<references />
<references /><br />

Revision as of 10:58, 27 June 2020

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

  • In May 2020, various autopsies studies revealed pulmonary embolism to be the common cause of death in COVID-19 infected patients.
  • These patients in their mid-70s had preexisting medical conditions such as cardiac diseases, hypertension, diabetes, and obesity.
  • These studies highlight the role of hypercoagulability as the main contributor to the fatality in these patients.
  • Various studies have described Virchow's triad to be the main component of the hypercoagulable state in these patients.

Historical Perspective

  • In late 2019, a novel coronavirus had been identified in Wuhan ,China which has now reached a pandemic state across whole world.
  • Various case reports and case series have suggested hypercoagulability to be one of the cause of death in COVID-19 patients.
  • Proposed mechanism of multiple organ dysfunction that occurs in COVID-19 patients are multifactorial but they include a hypercoagulable state with micro and macro-circulatory thrombosis.
  • Based on these case reports and case series, various guidelines have been proposed now to initiate anticoagulants in critically ill patients and those who are admitted to the hospital.

Classification

Acute Pulmonary Embolism

  • Pathologically an embolus is said to be acute when it is situated centrally within in the vascular lumen, or in other case it causes the occlusion of vessel. It can cause immediate occurence of symptoms.

Chronic Pulmonary Embolism

  • An embolus is said to be chronic , if it is eccentric and lies in lies with the vessel wall.
  • It occouleds the lumen of vessel wall by more than 50 %.
  • There is also evidence of recanalization within the thrombus.
  • Chronic thromboembolism can cause pulmonary hypertension especially when there is >3 months of effective anticoagulation therapy and one of the following criteria. a) Mean pulmonary arterial pressure greater than or equal to 25 mmHg b) Pulmonary arterial wedge pressure less than or equal to 15 mmgHg c) Abnormal lung V/Q scan or imaging findings suggestive of chronic pulmonary embolism on CTPA, CMR, CPA.


Pathophysiology

  • As data on COVID-19 has been incomplete and evolving, the pathogenesis of pulmonary embolism has not yet been completely understood. Various contributors to the pathogenesis of pulmonary embolism in these patients are listed in the table below:
Pathology Description of the underlying mechanism
Endothelial cells dysfunction
  • It has been proposed that endothelial cells contribute towards the initiation and propagation of ARDS by changing the vascular barrier permeability, increasing the chance of procoagulative state that leads to endotheliitis and infiltration of inflammatory cells in the pulmonary vasculature.
  • It has been proposed that COVID-19 can directly affect endothelial cells leading to widespread endotheliitis. SARS-CoV-2 also binds to the ACE2 receptors which alter the activity of ACE2.
  • Reduced ACE2 activity leads to activation of the kallikrein-bradykinin pathway, which increases vascular permeability.
  • The activated neutrophils migrate towards the pulmonary endothelial cells and produce cytotoxic mediators including reactive oxygen species.
Stasis Most hospitalized critically ill immobile COVID-19 patients are prone to stasis of blood flow leading to another contributor towards the pathogenesis of pulmonary embolism.
Hypercoagulable state

Various clinical studies have reported different prothrombotic factors in patients who are critically ill and are hospitalized due to COVID-19. These studies report various key lab factors that play an important role in the pathogenesis of pulmonary embolism.


Causes

Recently, SARS-CoV-2 has been associated with pulmonary embolism and other coagulopathic disorders. Other than SARS-CoV-2, pulmonary embolism can be caused by a number of different factors

Etiologies of Pulmonary Embolism
Hereditary Causes Comorbidities Miscellaneous
Factor V Leiden Mutation Heart failure Surgery
Factor C & S deficiency Congenital heart disease Pregnancy
Antithrombin deficiency Antiphospholipid syndrome OCPs
Obesity Immobilization
Myeloproliferative Disorders Trauma
Paroxysmal nocturnal hemoglobinuria Malignancy

Differentiating Pulmonary Embolism from other Diseases

Pulmonary embolism in COVID-19 patients can be sudden and can mimic symptoms of other disorders like pneumonia and ARDS. Therefore it has been suggested there should be lower threshold of imaging like DVT or CTPA reserved for pulmonary embolism in COVID-19 patients admitted to the ICU setting.

Epidemiology and demographics

  • Various case reports and case series report relatively high incidence of pulmonary embolism in ICU patients.
  • The incidence of thrombotic complications is reported to be 31 % in one study. In this study pulmonary embolism was the most common thrombotic complication.
  • Another study reported an overall 24% cumulative incidence of pulmonary embolism in patients with COVID-19 pneumonia, 50% (30–70%) in ICU and 18% (12–27%) in other patients.
  • In Non-ICU settings (In-patient), pulmonary embolism is reported to occur in 3% percent of patients in one study.

Risk Factors

Multivariate analysis showed following risk factors that predispose a patient of COVID-19 to pulmonary embolism

Natural History,Complications and Prognosis

Overview

Pulmonary embolism in critically ill patients of COVID-19 is a frequent finding. It can lead to the development of cardiogenic shock, sudden cardiac arrest and pulmonary hypertension if developed chronically. There has been various investigational and treatment approach to treat the hypercoagulability leading to these complications in COVID-19 patients. Patients that are at risk of pulmonary embolism such as those with deep venous thrombosis are advised to take oral anticoagulants. Studies show that there is high cumulative incidence of PE in COVID-19 patients which suggests more frequent use of contrast medium on CT for the evaluation of COVID-19 patients.

Complications

Various complications have been reported ranging from acute right heart failure and sudden cardiac arrest due to pulmonary embolism in COVID-19 patients. The following complications have been frequently reported in various case reports and case series.

Prognosis

COVID-19 patients presenting with pulmonary embolism have a poor prognosis. It has been reported that despite adequate anticoagulation being advised to patients in ICU, there is still relatively high incidence of PE in these patients. Few studies showed VTE to be the main cause of death in COVID-19 patients which suggests setting a lower threshold for diagnostic imaging for DVT or PE.

Diagnosis

History and Symptoms

  • COVID-19 patients are usually at high risk of hypercoagulability and as there is an increased incidence of pulmonary embolism in ICU patients, they mostly have overlapping symptoms with pneumonia, ARDS, and sometimes present only with fever progressing to pulmonary embolism and sudden cardiac arrest.
  • Pulmonary embolism can present with no symptoms to shock and even sudden cardiac arrest.
  • The most common symptoms that were observed in Prospective Investigation of Pulmonary Embolism Diagnosis II (PIOPED II) trial include:
    • Dyspnea that is sudden in onset at rest or exertion (73%)
    • Pleuritic pain (44%)
    • Calf or thigh pain (44%)
    • Calf or thigh swelling (41%)
    • Cough (34%)

Physical Examination

On physical examination following signs can be demonstrated in COVID-19 patients.

General
Cardiac examination
Lung examination
DVT signs
  • Calf or thigh
  • Calf and thigh
Laboratory findings

Lab findings of different case studies of patients having pulmonary embolism due to COVID-19 are given as


Imaging studies

Chest-X ray

Chest radiography in not a primarily diagnostic test in pulmonary embolism patient. It is neither sensitive and nor specific. Chest-X ray is used to rule out other conditions that can mimic symptoms of pulmonary embolism such as bacterial pneumonia ,cardiogenic cause of dyspnea and pneumothorax.

CTPA & Ventilation Perfusion Scan
Right-sided segmental and subsegmental pulmonary arterial filling defects (yellow arrows) in keeping with acute distal pulmonary emboli. Source: Dr Gianluca Martinellihttps://radiopaedia.org/cases/76817

Treatment

  • Different treatment strategies for COVID-19 patients suffering from pulmonary embolism are given in the table below:
Different treatment options Details
Prophylaxis All hospitalized patients with COVID 19 should get proper venous thromboembolism prophylaxis in the absence of any contraindication of anticoagulation.
  • In ICU setting, empiric use of intermediate or therapeutic dose anticoagulation should be instituted.
  • In a non-ICU setting, all hospitalized patients should be treated with prophylactic low dose molecular weight heparin.
Acute Pulmonary embolism
Outpatient treatment[1]
  • Critically ill patients that have recovered from COVID-19 and had a documented VTE are usually given a minimum of 3 months of anticoagulation.
  • Patients not admitted to hospitals but at risk of VTE, such as prior VTE episode, recent surgery, prolonged immobilization are usually given a prophylactic dose of Rivaroxaban 10 mg daily for 31 days or 39 days.


References

  1. Invalid <ref> tag; no text was provided for refs named Hematology.org 2020


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