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Revision as of 12:03, 12 July 2020

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

Overview

Historical Perspective

  • In Italy, for the first time in a 69-year-old patient, who was presented with cardiogenic shock due to COVID-19 infection, myocardial involvement by viral particles was pathologically proved through biopsy. [1]

Classification

There is no specific classification for COVID-19 associated cardiogenic shock. For more information regarding general classification, see the cardiogenic shock classification.

Pathophysiology

Two mechanisms are more probable to contribute to cardiogenic shock related to Covid-19:

  • Direct invasion of the virus into the cardiomyocytes
  • Cytokine storm activated by T helper cells (Th1 and Th2) and trigger a systemic hyperinflammatory response.[2] [3]


Differentiating COVID-19 associated cardiogenic shock from other Diseases

  • Cardiogenic shock related to COVID-19 must be differentiated from other diseases when hemodynamics not changing, such as:
  • COVID-19 associated distributive shock
  • COVID-19 associated hypovolemic shock
  • COVID-19 associated mixed (distributive and cardiogenic shock) [4] [5]
CO PCWP SVR PAD
Septic shock
Hypovolemic shock
Cardiogenic shock ↑↔

Epidemiology and Demographics

  • The prevalence of cardiogenic shock-associated COVID-19 has not yet been reported.There are several anecdotal reports of cardiogenic shock related to COVID-19:
  • A 69-year-old patient from Italy has been reported by Tavazzi et al., as a cardiogenic shock-associated COVID-19 case. The patient had flu-like symptoms when he was hospitalized and quickly deteriorated into respiratory distress and cardiogenic shock. [1]
  • Four patients with cardiogenic shock complication related to COVID-19 were reported by Sanchez-Recalde, et al. They were hospitalized between 1 March and 15 April 2020 including:
    • A 42-year-old woman, who had dyslipidemia as a cardiovascular risk factor
    • A 50-year-old man, without any cardiovascular risk factors, admitted by severe bilateral pneumonia related to COVID-19. After a few hours, he developed cardiogenic shock.
    • A 75-year-old man did not have any cardiovascular risk factors and was admitted due to dyspnea, chest pain, and bilateral SARS-CoV-2 pneumonia.
    • A 37-year-old woman, obese with a history of deep venous thrombosis, had symptoms of dyspnea and chest pain [6]

Causes

The causes of cardiogenic shock related to COVID-19 might include:

  • Newly emerging COVID-19 associated myocarditis, cardiac arrhythmias, cardiomyopathy, or an acute coronary syndrome deteriorated into cardiogenic shock
  • Worsening of previous left ventricular failure due to COVID-19 [7]

Complications and Prognosis

According to an observational study in China, COVID-19 associated cardiogenic shock has a poor prognosis. In spite of using Extracorporeal membrane oxygenation (ECMO), 83% of patients died. [8] [9]

Diagnosis

Diagnostic Criteria

  • The diagnosis of [disease name] is made when at least [number] of the following [number] diagnostic criteria are met:
  • [criterion 1]
  • [criterion 2]
  • [criterion 3]
  • [criterion 4]

Symptoms

The history of patients presented cardiogenic shock related to COVID-19, according to a few anecdotal reports were different. Some did not have any cardiovascular risk factors.

  • A 69-year-old patient from Italy has been reported by Tavazzi et al., as a cardiogenic shock-associated COVID-19 case. The patient had flu-like symptoms when he was hospitalized and quickly deteriorated into respiratory distress and cardiogenic shock. [1]

Four patients with cardiogenic shock complication related to COVID-19 were reported by Sanchez-Recalde, et al. They were hospitalized between 1 March and 15 April 2020 including:[6]

  • A 42-year-old woman, who had dyslipidemia as a cardiovascular risk factor
  • A 50-year-old man, without any cardiovascular risk factors, admitted by severe bilateral pneumonia related to COVID-19. After a few hours, he developed cardiogenic shock.
  • A 75-year-old man did not have any cardiovascular risk factors and was admitted due to dyspnea, chest pain, and bilateral SARS-CoV-2 pneumonia.
  • A 37-year-old woman, obese with a history of deep venous thrombosis, had symptoms of dyspnea and chest pain

Physical Examination

  • When Systolic Blood Pressure is lower than 90 mmHg for more than 15 minutes with impaired organ perfusion while Urine output is less than 30 m/hr in a COVID-19 patient cardiogenic shock should be considered.[10]
  • Physical examination may be remarkable for Covid-19 associated cardiogenic shock:[11]
  • Assessment of consciousness level
  • Extremities whether they are warm or cool is helpful for evaluation of cardiogenic shock
  • Vital signs (tachycardia and hypotension and tachypnea)
  • Evaluation of volume status: CVP (increased JVP), edema
  • Skin pallor

Laboratory Findings

  • In COVID-19 patients, it is essential to differentiate the shock types. Two tests are more valuable to clarify this, which are elevated in cardiogenic shock related to COVID-19 : [12]
  • serum brain natriuretic peptide (BNP)
  • Troponin
  • The increase of some biomarkers demonstrates poor prognosis, increased mortality, and more severe symptoms in COVID-19 patients:[13]
  • cTnT and cTnI levels
  • The association of elevated CK-MB and BNP

Electrocardiogram

Imaging Findings

  • There are no [imaging study] findings associated with [disease name].
  • [Imaging study 1] is the imaging modality of choice for [disease name].
  • On [imaging study 1], [disease name] is characterized by [finding 1], [finding 2], and [finding 3].
  • [Imaging study 2] may demonstrate [finding 1], [finding 2], and [finding 3].

Other Diagnostic Studies

  • [Disease name] may also be diagnosed using [diagnostic study name].
  • Findings on [diagnostic study name] include [finding 1], [finding 2], and [finding 3].

Treatment

Medical Therapy

  • Fluid resuscitation (crystalloid IV fluids are more efficient than colloid solutions)
  • Administration of vasopressors and inotropes to stabilize shock

Surgery

  • Surgery is the mainstay of therapy for [disease name].
  • [Surgical procedure] in conjunction with [chemotherapy/radiation] is the most common approach to the treatment of [disease name].
  • [Surgical procedure] can only be performed for patients with [disease stage] [disease name].

Prevention

  • There are no primary preventive measures available for [disease name].
  • Effective measures for the primary prevention of [disease name] include [measure1], [measure2], and [measure3].
  • Once diagnosed and successfully treated, patients with [disease name] are followed-up every [duration]. Follow-up testing includes [test 1], [test 2], and [test 3].

References

  1. 1.0 1.1 1.2 Tavazzi, Guido; Pellegrini, Carlo; Maurelli, Marco; Belliato, Mirko; Sciutti, Fabio; Bottazzi, Andrea; Sepe, Paola Alessandra; Resasco, Tullia; Camporotondo, Rita; Bruno, Raffaele; Baldanti, Fausto; Paolucci, Stefania; Pelenghi, Stefano; Iotti, Giorgio Antonio; Mojoli, Francesco; Arbustini, Eloisa (2020). "Myocardial localization of coronavirus in COVID‐19 cardiogenic shock". European Journal of Heart Failure. 22 (5): 911–915. doi:10.1002/ejhf.1828. ISSN 1388-9842.
  2. Siddiqi, Hasan K.; Mehra, Mandeep R. (2020). "COVID-19 illness in native and immunosuppressed states: A clinical–therapeutic staging proposal". The Journal of Heart and Lung Transplantation. 39 (5): 405–407. doi:10.1016/j.healun.2020.03.012. ISSN 1053-2498.
  3. Ye, Qing; Wang, Bili; Mao, Jianhua (2020). "The pathogenesis and treatment of the `Cytokine Storm' in COVID-19". Journal of Infection. 80 (6): 607–613. doi:10.1016/j.jinf.2020.03.037. ISSN 0163-4453.
  4. Boukhris, Marouane; Hillani, Ali; Moroni, Francesco; Annabi, Mohamed Salah; Addad, Faouzi; Ribeiro, Marcelo Harada; Mansour, Samer; Zhao, Xiaohui; Ybarra, Luiz Fernando; Abbate, Antonio; Vilca, Luz Maria; Azzalini, Lorenzo (2020). "Cardiovascular Implications of the COVID-19 Pandemic: A Global Perspective". Canadian Journal of Cardiology. doi:10.1016/j.cjca.2020.05.018. ISSN 0828-282X.
  5. Rajagopal, Keshava; Keller, Steven P.; Akkanti, Bindu; Bime, Christian; Loyalka, Pranav; Cheema, Faisal H.; Zwischenberger, Joseph B.; El Banayosy, Aly; Pappalardo, Federico; Slaughter, Mark S.; Slepian, Marvin J. (2020). "Advanced Pulmonary and Cardiac Support of COVID-19 Patients". Circulation: Heart Failure. 13 (5). doi:10.1161/CIRCHEARTFAILURE.120.007175. ISSN 1941-3289.
  6. 6.0 6.1 Sánchez-Recalde, Ángel; Solano-López, Jorge; Miguelena-Hycka, Javier; Martín-Pinacho, Jesús Javier; Sanmartín, Marcelo; Zamorano, José L. (2020). "COVID-19 and cardiogenic shock. Different cardiovascular presentations with high mortality". Revista Española de Cardiología (English Edition). doi:10.1016/j.rec.2020.04.012. ISSN 1885-5857.
  7. Mahajan, Kunal; Chandra, K.Sarat (2020). "Cardiovascular comorbidities and complications associated with coronavirus disease 2019". Medical Journal Armed Forces India. doi:10.1016/j.mjafi.2020.05.004. ISSN 0377-1237.
  8. Yang X, Yu Y, Xu J, Shu H, Xia J, Liu H; et al. (2020). "Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study". Lancet Respir Med. 8 (5): 475–481. doi:10.1016/S2213-2600(20)30079-5. PMC 7102538 Check |pmc= value (help). PMID 32105632 Check |pmid= value (help).
  9. Takahashi M, Arai H, Kokubo T, Furukawa F, Kurata Y, Ito N (1980). "An ultrastructural study of precancerous and cancerous lesions of the pancreas in Syrian golden hamsters induced by N-nitrosobis(2-oxopropyl)amine". Gan. 71 (6): 825–31. PMID 7274628.
  10. Dhakal, Bishnu P.; Sweitzer, Nancy K.; Indik, Julia H.; Acharya, Deepak; William, Preethi (2020). "SARS-CoV-2 Infection and Cardiovascular Disease: COVID-19 Heart". Heart, Lung and Circulation. doi:10.1016/j.hlc.2020.05.101. ISSN 1443-9506.
  11. Tse, FirstName (2011). Oxford Desk Reference : Cardiology. Oxford: OUP Oxford. ISBN 978-0-19-956809-3.
  12. Lal, Sean; Hayward, Christopher S.; De Pasquale, Carmine; Kaye, David; Javorsky, George; Bergin, Peter; Atherton, John J.; Ilton, Marcus K.; Weintraub, Robert G.; Nair, Priya; Rudas, Mate; Dembo, Lawrence; Doughty, Robert N.; Kumarasinghe, Gayathri; Juergens, Craig; Bannon, Paul G.; Bart, Nicole K.; Chow, Clara K.; Lattimore, Jo-Dee; Kritharides, Leonard; Totaro, Richard; Macdonald, Peter S. (2020). "COVID-19 and Acute Heart Failure: Screening the Critically Ill – A Position Statement of the Cardiac Society of Australia and New Zealand (CSANZ)". Heart, Lung and Circulation. doi:10.1016/j.hlc.2020.04.005. ISSN 1443-9506.
  13. Aboughdir, Maryam; Kirwin, Thomas; Abdul Khader, Ashiq; Wang, Brian (2020). "Prognostic Value of Cardiovascular Biomarkers in COVID-19: A Review". Viruses. 12 (5): 527. doi:10.3390/v12050527. ISSN 1999-4915.

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