COVID-19-associated spontaneous coronary artery dissection: Difference between revisions

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{{COVID-19}}
{{SI}}
{{Main|COVID-19}}
{{Main|COVID-19}}


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'''For COVID-19 frequently asked outpatient questions, click [[COVID-19 frequently asked outpatient questions|here]]'''
'''For COVID-19 frequently asked outpatient questions, click [[COVID-19 frequently asked outpatient questions|here]]'''


{{CMG}}; {{AE}} {{AyeshaFJ}} {{RAB}}
{{CMG}}; {{AE}} {{Sara.Zand}} {{RAB}} {{AyeshaFJ}}
 
{{SK}} Covid-19, cardiac manifestation, Spontaneous coronary artery dissection, SCAD, Atherosclerothic-spontaneous coronary artery dissection, A-SCAD, Non-atherosclerothic spontaneous coronary artery dissection, NA-SCAD
==Overview==
==Overview==
Severe acute respiratory syndrome coronavirus 2 [[(SARS‐CoV‐2]]) is caused by novel coronavirus disease 2019 virus ([[COVID‐19]]).It has infected over 1.5 million patients worldwide with cardiac manifestations and injury in up to 20–28% of patients.<ref name="urlSpontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID‐19 infection - Kumar - - Catheterization and Cardiovascular Interventions - Wiley Online Library">{{cite web |url=https://onlinelibrary.wiley.com/doi/full/10.1002/ccd.28960#ccd28960-bib-0001 |title=Spontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID‐19 infection - Kumar - - Catheterization and Cardiovascular Interventions - Wiley Online Library |format= |work= |accessdate=}}</ref> <ref name="urlCoronavirus disease (COVID-19)">{{cite web |url=https://www.who.int/emergencies/diseases/novel-coronavirus-2019 |title=Coronavirus disease (COVID-19) |format= |work= |accessdate=}}</ref>.[[Spontaneous coronary artery dissection]] (SCAD) is a non-iatrogenic non-traumatic separation of the coronary arterial wall. It could be either [[atherosclerotic]] or non-atherosclerotic.
Severe acute respiratory syndrome coronavirus 2 ([[SARS-CoV-2|SARS‐CoV‐2]]) is caused by novel [[coronavirus disease 2019 virus]] ([[COVID-19|COVID‐19]]). [[Cardiac]] manifestations and injury were identified in up to 20–28% of [[patients]]. [[Spontaneous coronary artery dissection]] ([[SCAD]]) is one of the [[cardiac]] complication of [[covid-19]] and can be  either [[atherosclerotic]] or non-[[atherosclerotic]] resulting  from  attaching [[covid-19]] to [[ACE]] receptos of [[vessles]] wall and producing intense [[inflammation]] and [[endothelial dysfunction]], [[sympathetic over-reactivity]] that are the precursors of [[intimal dissection]]. [[SCAD]] can be manifested as [[STEMI]] or [[NSTEMI]]  in [[patients]] with [[covid-19]] in which high clinical suspicion is warranted before administration of [[fibrinolysis]] in such [[patients]].  Among nine reported cases of [[covid-19]] associated [[SCAD]] there were not found any previous conventional risk factors of [[SCAD]] such as [[fibromuscular disease]], steraneous  [[physical exercise]], [[ sex hormone]], or [[peripartum period]], except one case reported after intense [[cough]] in hospitalized [[covid-19]] [[patients]]. In reported [[covid-19]] [[patients]] associated with [[SCAD]], it was more common in [[men]] and all nine cases were survived with consevative therapy or [[percutaneous coronary intervention]] based upon the anatomical site of [[dissection]].


==Historical Perspective==
==Historical Perspective==
*[[COVID-19]] was first reported in Wuhan, Hubei Province,China in December 2019.<ref name="pmid32563019">{{cite journal |vauthors=Meng X, Deng Y, Dai Z, Meng Z |title=COVID-19 and anosmia: A review based on up-to-date knowledge |journal=Am J Otolaryngol |volume=41 |issue=5 |pages=102581 |date=June 2020 |pmid=32563019 |pmc=7265845 |doi=10.1016/j.amjoto.2020.102581 |url=}}</ref>
*[[COVID-19]] was first reported in Wuhan, Hubei Province, China in December 2019.<ref name="pmid32563019">{{cite journal |vauthors=Meng X, Deng Y, Dai Z, Meng Z |title=COVID-19 and anosmia: A review based on up-to-date knowledge |journal=Am J Otolaryngol |volume=41 |issue=5 |pages=102581 |date=June 2020 |pmid=32563019 |pmc=7265845 |doi=10.1016/j.amjoto.2020.102581 |url=}}</ref>
*The World Health Organization declared the [[COVID-19]] outbreak a [[pandemic]] on March 12, 2020.
*The World Health Organization declared the [[COVID-19]] outbreak a [[pandemic]] on March 12, 2020.
* On June 22, 2020, the first case of COVID-19 with spontaneous coronary artery dissection was reported.<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref>
* On June 22, 2020, the first case of COVID-19 with spontaneous coronary artery dissection was reported.<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref>


==Classification==
==Classification==
*Based on origin COVID-19 associated spontaneous coronary artery dissection can be of two types:<ref name="SeresiniAlbiero2020">{{cite journal|last1=Seresini|first1=Giuseppe|last2=Albiero|first2=Remo|last3=Liga|first3=Riccardo|last4=Camm|first4=Christian Fielder|last5=Liga|first5=Riccardo|last6=Camm|first6=Christian Fielder|last7=Thomson|first7=Ross|title=Atherosclerotic spontaneous coronary artery dissection (A-SCAD) in a patient with COVID-19: case report and possible mechanisms|journal=European Heart Journal - Case Reports|year=2020|issn=2514-2119|doi=10.1093/ehjcr/ytaa133}}</ref>
*Based on origin COVID-19 associated [[spontaneous coronary artery dissection]] can be of two types:<ref name="SeresiniAlbiero2020">{{cite journal|last1=Seresini|first1=Giuseppe|last2=Albiero|first2=Remo|last3=Liga|first3=Riccardo|last4=Camm|first4=Christian Fielder|last5=Liga|first5=Riccardo|last6=Camm|first6=Christian Fielder|last7=Thomson|first7=Ross|title=Atherosclerotic spontaneous coronary artery dissection (A-SCAD) in a patient with COVID-19: case report and possible mechanisms|journal=European Heart Journal - Case Reports|year=2020|issn=2514-2119|doi=10.1093/ehjcr/ytaa133}}</ref>
**[[Atherosclerotic]] (A-SCAD)
**[[Atherosclerotic]] (A-[[SCAD]])
**Non-atherosclerotic (NA-SCAD)
**Non-atherosclerotic (NA-[[SCAD]])


==Pathophysiology==
==Pathophysiology==
*[[Spontaneous coronary artery dissection|SCAD]] can be secondary to an [[Atherosclerosis|atherosclerotic]] (A-[[SCAD]]) or non-[[atherosclerotic]] (NA-[[SCAD]]) lesion in origin.
* Lessons from the previous [[coronavirus]] and [[influenza]] [[Epidemic|epidemics]] suggest that these viral infections can trigger [[Acute coronary syndromes|acute coronary syndrome]] primarily owing to a combination of a significant systemic [[inflammatory response]] plus localized [[vascular]] inflammation at the arterial [[plaque]] level.
====Phathophysiology of [[SCAD]] in [[covid-19]] [[patients]]====
* The exact pathogenesis of [[spontaneous coronary artery dissection]] in [[covid-19]] [[patients]] is not fully understood.
* It is thought that [[SCAD]] in [[covid-19]] [[patients]]  is the result of either Intense [[inflammation]] and [[endothelial dysfunction]] causing [[sympathetic overreactivity]] leading to [[intimal dissection]].
* High dose of [[corticosteroid therapy]] may induce spontaneous rupture of injured [[arterial]] wall.
*[[Covid-19]] may causes activation and infiltration of [[T cell]]s in [[coronary]] [[adventitia]] and [[periadventitial fat]] leading to release of [[cytokines]] and [[protease]] and dissection of [[injured wall]].
* [[Covid-19]] may enhance [[angiogenesis]] and [[proliferation ]] of [[vasavasarum]].
* Rupture of [[fragiled]] [[vasavasarum]] is the cause of  [[intramural hematoma]].
* Transition of [[inflammatory]] cell via [[vasavasarum]] to the [[medial ]] and [[adventitial layer]]s of the [[vessels]] may lead to rupture of [[vasavasarum]].
* [[Covid-19]] may attach to [[ACE]] receptors on [[endothelial]] and [[smooth muscle]] of [[coronary artery]] leading to [[inflammation]] in the muscle wall, massive death of [[endotheliocytes]], [[vascular tone]] impairment, [[hemostatic impairment]], and vulnerability of [[vessels]] wall to [[dissection]].
====[[Atherosclerotic]]-[[Spontaneous Coronary Artery Dissection]] (A-[[SCAD]]) :====
*[[Coronary artery dissection]] may be related to intraplaque [[hemorrhage]] resulting in an intra-adventitial [[hematoma]], which can spread longitudinally along the [[coronary artery]], dissecting the tunicae.<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref><ref name="SawMancini20162">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
*In COVID-19 patients, due to high [[inflammatory]] load, a localized [[inflammation]] of the coronary [[adventitia]] and periadventitial fat can occur. This can lead to the development of sudden coronary artery [[Dissection (medical)|dissection]] in a susceptible [[patient]] with underlying [[cardiovascular disease]].<br /><ref name="urlSpontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID‐19 infection - Kumar - - Catheterization and Cardiovascular Interventions - Wiley Online Library">{{cite web |url=https://onlinelibrary.wiley.com/doi/full/10.1002/ccd.28960#ccd28960-bib-0001 |title=Spontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID‐19 infection - Kumar - - Catheterization and Cardiovascular Interventions - Wiley Online Library |format= |work= |accessdate=}}</ref>
====Non-[[Atherosclerotic]]-[[Spontaneous Coronary Artery Dissection]] (NA-[[SCAD]]):====
* It can result in extensive [[Dissection (medical)|dissection]] lengths, especially in the presence of [[arterial]] fragility from predisposing [[arteriopathies]].
*NA-[[SCAD]] can develop in any layer ([[Tunica intima|intima]], media, or [[adventitia]]) of the [[coronary artery]] wall. However, the initiation and the pattern of [[Dissection (medical)|dissection]] in NA-[[SCAD]] is different from the pattern observed in [[patients]] with pre-existing [[atherosclerosis]].


*[[Spontaneous coronary artery dissection|SCAD]] can be secondary to an atherosclerotic (A-SCAD) or non-atherosclerotic (NA-SCAD) lesion.
==Causes==
* Lessons from the previous coronavirus and influenza epidemics suggest that these viral infections can trigger acute coronary syndrome primarily owing to a combination of a significant systemic inflammatory response plus localized vascular inflammation at the arterial plaque level.
[[Common]] causes of [[covid-19]]-associated with [[spontaneous coronary artery dissection]] include:
* [[Inflammation]]
* [[sympathetic]] overreactivity
* Use of [[corticosteroids]]
* Underlying [[coronary artery disease]]
*:For other causes of spontaneous coronary artery dissection, [[Spontaneous coronary artery dissection causes|Click here]].


<br />
==Differentiating COVID-19-associated spontaneous coronary artery dissection from other Diseases==
====Atherosclerotic-Spontaneous Coronary Artery Dissection (A-SCAD) :====
*To view the differential diagnosis of COVID-19, [[COVID-19 differential diagnosis|click here]].<br />
*To view a differential diagnosis on the other causes of chest pain, [[Chest pain differential diagnosis|click here]].
==Epidemiology and Demographics==
* The exact [[prevalence]] of [[spontaneous coronary artery dissection]] in [[covid-19]] is not fully understood yet.
===Age===
* The range of age of reported cases of [[spontaneous coronary artery dissection ]] associated [[covid-19]] in literature were between 35-70 years old.


*While the exact mechanism of cardiac injury in this population is unknown, the proposed etiology is thought that as a result of the infection there is changes in myocardial demand leading to an ischemic cascade and increased [[inflammatory]] markers that predispose patients to [[plaque]] instability and subsequent rupture. <ref name="urlSpontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID‐19 infection - Kumar - - Catheterization and Cardiovascular Interventions - Wiley Online Library">{{cite web |url=https://onlinelibrary.wiley.com/doi/full/10.1002/ccd.28960#ccd28960-bib-0001 |title=Spontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID‐19 infection - Kumar - - Catheterization and Cardiovascular Interventions - Wiley Online Library |format= |work= |accessdate=}}</ref>
===Gender===
*[[Women]] are more commonly affected with [[Spontaneous coronary artery dissection]] than [[men]]. However, six of the nine [[patients]] (77.7%) with [[covid-19]] associated [[spontaneous coronary artery dissection]] were [[men]] and (22.3%) were [[women]], that can be due to higher incidence of [[covid-19]] in [[men]].<ref name="pmid34106068">{{cite journal |vauthors=Yapan Emren Z, Emren V, Özdemir E, Karagöz U, Nazlı C |title=Spontaneous right coronary artery dissection in a patient with COVID-19 infection: A case report and review of the literature |journal=Turk Kardiyol Dern Ars |volume=49 |issue=4 |pages=334–338 |date=June 2021 |pmid=34106068 |doi=10.5543/tkda.2021.34846 |url=}}</ref>


*Coronary artery dissection may be related to intraplaque [[hemorrhage]] resulting in an intra-adventitial [[hematoma]],which can spread longitudinally along the coronary artery, dissecting the tunicae.<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref><ref name="SawMancini2016">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
===Race===
*In COVID-19 patients due to high inflammatory load, a localized inflammation of the coronary [[adventitia]] and periadventitial fat can occur. This can lead to the development of sudden coronary artery dissection in a susceptible patient with underlying cardiovascular disease.<br />
*There is no racial predilection for [[spontaneous coronary artery dissection]] associated with [[covid-19]].


====Non-Atherosclerotic-Spontaneous Coronary Artery Dissection (NA-SCAD):====
==Risk Factors==
* Among nine reported cases of [[covid-19]] associated [[SCAD]], there were not any previous risk factors of [[SCAD]].<ref name="pmid34106068">{{cite journal |vauthors=Yapan Emren Z, Emren V, Özdemir E, Karagöz U, Nazlı C |title=Spontaneous right coronary artery dissection in a patient with COVID-19 infection: A case report and review of the literature |journal=Turk Kardiyol Dern Ars |volume=49 |issue=4 |pages=334–338 |date=June 2021 |pmid=34106068 |doi=10.5543/tkda.2021.34846 |url=}}</ref>
*Conventionakl risk factors of [[spontaneous coronary artery dissection]] include:<ref name="SawMancini20162">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
**[[Fibromuscular dysplasia]]
**[[Pregnancy]]
**Recurrent pregnancies: multiparity or [[multigravida]]
**Connective tissue disorder: [[Marfan's syndrome|Marfan syndrome]], [[Loeys-Dietz syndrome]], [[Ehlers-Danlos syndrome|Ehler-Danlos syndrome]] type 4, cystic medial necrosis, [[Alpha 1-antitrypsin deficiency|alpha-1 antitrypsin deficiency]], [[polycystic kidney disease]]
**Systemic inflammatory disease: [[systemic lupus erythematosus]], [[Crohn's disease|Crohn’s disease]], [[ulcerative colitis]], [[polyarteritis nodosa]], [[sarcoidosis]], [[Churg-Strauss syndrome]], [[Wegener's granulomatosis|Wegener’s granulomatosis]], [[rheumatoid arthritis]], [[Kawasaki disease|Kawasaki]], [[giant cell arteritis]], [[celiac disease]]
**Hormonal therapy: oral contraceptive, [[estrogen]], [[progesterone]], beta-HCG, [[testosterone]], [[Corticosteroid|corticosteroids]]
**[[Coronary vasospasm|Coronary artery spasm]]
**Idiopathic<ref name="SawMancini20162">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
**Strenous [[exercises]] (isometric or [[aerobic activities]])
**Intense [[emotional stress]]
**[[Labor]] and [[delivery]]
**Intense [[Valsalva|Valsalva-type]] activities (e.g., [[retching]], [[vomiting]], [[bowel movement]], [[coughing]])
**Recreational drugs (e.g., [[cocaine]], [[amphetamines]], metamphetamines)
**Intense [[hormonal]] therapy (e.g., [[beta-HCG]] injections, [[Corticosteroid|corticosteroids]] injections)


*Contemporary usage of the term ‘SCAD’ is typically synonymous with NA-SCAD. It can result in extensive dissection lengths, especially in the presence of arterial fragility from predisposing arteriopathies<ref name="SeresiniAlbiero20202">{{cite journal|last1=Seresini|first1=Giuseppe|last2=Albiero|first2=Remo|last3=Liga|first3=Riccardo|last4=Camm|first4=Christian Fielder|last5=Liga|first5=Riccardo|last6=Camm|first6=Christian Fielder|last7=Thomson|first7=Ross|title=Atherosclerotic spontaneous coronary artery dissection (A-SCAD) in a patient with COVID-19: case report and possible mechanisms|journal=European Heart Journal - Case Reports|year=2020|issn=2514-2119|doi=10.1093/ehjcr/ytaa133}}</ref>
==Screening==
*NA-SCAD can develop in any layer (intima , media, or adventitia) of the coronary artery wall. However, the initiation and the pattern of dissection in NA-SCAD is different from the pattern observed in patients with pre-existing [[atherosclerosis]].
* There is no established screening method for [[SCAD]] in [[covid-19]] [[patients]]. However, high clinical suspicion is needed in [[patients]] with manifestation of [[acute coronary syndrome]] in the context of [[covid-19]] [[involvement]].
*At present the pathophysiology of non-atherosclerotic spontaneous coronary artery dissection (NA-SCAD) continues to be poorly understood due to the rarity of this condition and its heterogeneous pathology. Although intimal tear or bleeding of vasa vasorum with intramedial hemorrhage seems to be most probable reasons, the exact underlying mechanism is still unknown.
 
To read more about the pathophysiology of Spontaneous Coronary Artery Dissection, [[Spontaneous coronary artery dissection pathophysiology|Click here]].
 
==Causes==
*COVID‐19 associated spontaneous coronary artery dissection is caused by Severe Acute Respiratory Syndrome Coronavirus 2 (SARS‐CoV‐2).
*For other causes of spontaneous coronary artery dissection, [[Spontaneous coronary artery dissection causes|Click here]].
 
==Differentiating COVID-19-associated spontaneous coronary artery dissection from other Diseases<small><ref name="urlTable 1: Differential Diagnoses of Spontaneous Coronary Artery Dissection | RadcliffeCardiology3">{{cite web |url=https://www.radcliffecardiology.com/Table1-Differential-Diagnoses-of-Spontaneous-Coronary |title=Table 1: Differential Diagnoses of Spontaneous Coronary Artery Dissection &#124; RadcliffeCardiology |format= |work= |accessdate=}}</ref></small>==
 
 
{| style="border: 2px solid #4479BA; align=" left"
! style="width: 200px; background: #4479BA;" |Differential Diagnosis<ref name="urlTable 1: Differential Diagnoses of Spontaneous Coronary Artery Dissection | RadcliffeCardiology">{{cite web |url=https://www.radcliffecardiology.com/Table1-Differential-Diagnoses-of-Spontaneous-Coronary |title=Table 1: Differential Diagnoses of Spontaneous Coronary Artery Dissection &#124; RadcliffeCardiology |format= |work= |accessdate=}}</ref>
! style="width: 300px; background: #4479BA;" |Similarities
! style="width: 400px; background: #4479BA;" |Differences
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Athersclerotic Acute Coronary Syndrome
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
* Clinical presentation: Sudden chest pain, Shortness of breath, Nausea,Vomiting
* Acute and Chronic recanalised atheroscheloric thrombus may mimic type 1 double lumen SCAD
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
* Male predominance
* Older patients than SCAD
* High prevalance of cardiovascular risk factor
* No association with fibromascular dysplasia
* Less coronary tortuosity
* PCR assay for COVID-19 negative
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Takotsubo Cardiomyopathy


==Natural History, Complications, and Prognosis==


*The majority of [[covid-19]] [[patients]] with [[spontaneous coronary artery dissection]] are diagnosed with [[myocardial infarction]].
*Early clinical features include [[STEMI]], [[NSTEMI]], or symptoms unrelated to [[ACS]].
*If left untreated,  [[covid-19]] [[patients]] with [[SCAD]] may progress to develop [[hemodynamic instability]], [[ongoing]] [[ischemia]], [[malignant arrhythmia]].
*[[High risk]] [[angiographic]] [[features]] of [[coronary artery]] include:
*:Impaired [[coronary]] flow
*:Multivessles proximal dissections
*:[[Left main]] lesion
*: Ostial [[LAD]] lesion
*Prognosis is dependent on the anatomical extension of [[coronary arteries]] [[dissection]], and the [[survival rate]] of all nine reported cases in literature was 100%.
* Table bellow shown the clinical characteristics of [[patients]] with [[covid-19]] related [[spontaneous coronary artery dissection]]:<ref name="pmid34106068">{{cite journal |vauthors=Yapan Emren Z, Emren V, Özdemir E, Karagöz U, Nazlı C |title=Spontaneous right coronary artery dissection in a patient with COVID-19 infection: A case report and review of the literature |journal=Turk Kardiyol Dern Ars |volume=49 |issue=4 |pages=334–338 |date=June 2021 |pmid=34106068 |doi=10.5543/tkda.2021.34846 |url=}}</ref><br />


<br />
{| style="border: 2px solid #4479BA; align="left"
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Age, sex}}
* Clinical presentation: Sudden chest pain, Shortness of breath, Nausea,Vomiting
! style="width: 300px; background: #4479BA;" | {{fontcolor|#FFF|Cardiovascular history}}
* Female sex predominance
! style="width: 400px; background: #4479BA;" | {{fontcolor|#FFF|Symptoms}}
* Frequently preceeded by stress(psychological/emotional)
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Predisposing factors}}
* Predominance of Left Anterior Descending Artery
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Timing according to covid-19 infection }}
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Concomitant covid-19 complications}}
* Older patients than SCAD
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Covid-19 severity}}
* No diagnostic findings on coronary angiogram
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Diagnosis}}
* PCR assay for COVID-19 negative
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Vessle}}
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Treatment}}
! style="width: 200px; background: #4479BA;" | {{fontcolor|#FFF|Outcome}}
|-
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Coronary Embolism
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 45 years, [[female]]
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Anosmia]], [[hypogeusia]], [[chest pain]]
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Not reported
<br />
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 8 weeks
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
* Late angiographic healing
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Mild
* Predominance of distal coronary segments
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[STEMI]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[LAD]]
* Presence of high risk conditions for systemic embolism for example: Atrial Fibrilation,Prosthetic heart valves,Dilated Cardiomyopathy with apical thrombus,Infective endocarditis
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Conservative, dual [[antiplatelet]], [[betablocker]], [[ACE inhibitor]]
*PCR assay for COVID-19 negative
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Coronary Spasm
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 40 years, [[male]]
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Fever]], [[cough]]
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Not reported
<br />
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 7 days after [[ECMO]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Cardiogenic shock]], [[severe respiratory distress syndrome]], [[cardiac thrombosis]]
* Sometimes multifocal/multivessel involvement
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Severe [[lung]] infiltration
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[NSTEMI]]
* Male sex predominance
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[LAD]]
* Difference in clinical presentation( typically angina at rest,during the night)
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Conservative
*PCR assay for COVID-19 negative
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
|-
|}
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 48 years, [[female]]<ref name="KumarVogt2020">{{cite journal|last1=Kumar|first1=Kris|last2=Vogt|first2=Joshua C.|last3=Divanji|first3=Punag H.|last4=Cigarroa|first4=Joaquin E.|title=
 
==Epidemiology and Demographics==
*Huang et al<ref name="HuangWang2020">{{cite journal|last1=Huang|first1=Chaolin|last2=Wang|first2=Yeming|last3=Li|first3=Xingwang|last4=Ren|first4=Lili|last5=Zhao|first5=Jianping|last6=Hu|first6=Yi|last7=Zhang|first7=Li|last8=Fan|first8=Guohui|last9=Xu|first9=Jiuyang|last10=Gu|first10=Xiaoying|last11=Cheng|first11=Zhenshun|last12=Yu|first12=Ting|last13=Xia|first13=Jiaan|last14=Wei|first14=Yuan|last15=Wu|first15=Wenjuan|last16=Xie|first16=Xuelei|last17=Yin|first17=Wen|last18=Li|first18=Hui|last19=Liu|first19=Min|last20=Xiao|first20=Yan|last21=Gao|first21=Hong|last22=Guo|first22=Li|last23=Xie|first23=Jungang|last24=Wang|first24=Guangfa|last25=Jiang|first25=Rongmeng|last26=Gao|first26=Zhancheng|last27=Jin|first27=Qi|last28=Wang|first28=Jianwei|last29=Cao|first29=Bin|title=Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China|journal=The Lancet|volume=395|issue=10223|year=2020|pages=497–506|issn=01406736|doi=10.1016/S0140-6736(20)30183-5}}</ref> reported that 12% of patients with COVID-19 were diagnosedto have acute myocardial injury. According other recent data, among 138 hospitalized patients with COVID-19, 16.7% had arrhythmias and 7.2% had acute myocardial injury
*A 70-year-old man with COVID-19 associated SCAD was reported in March 2020.<ref name="SeresiniAlbiero2020">{{cite journal|last1=Seresini|first1=Giuseppe|last2=Albiero|first2=Remo|last3=Liga|first3=Riccardo|last4=Camm|first4=Christian Fielder|last5=Liga|first5=Riccardo|last6=Camm|first6=Christian Fielder|last7=Thomson|first7=Ross|title=Atherosclerotic spontaneous coronary artery dissection (A-SCAD) in a patient with COVID-19: case report and possible mechanisms|journal=European Heart Journal - Case Reports|year=2020|issn=2514-2119|doi=10.1093/ehjcr/ytaa133}}</ref>
 
*A 48-year-old woman with a past medical history of migraines and hyperlipidemia also reported having COVID-19 associated SCAD<ref name="KumarVogt2020">{{cite journal|last1=Kumar|first1=Kris|last2=Vogt|first2=Joshua C.|last3=Divanji|first3=Punag H.|last4=Cigarroa|first4=Joaquin E.|title=
             Spontaneous coronary artery dissection of the left anterior descending artery in a patient with
             Spontaneous coronary artery dissection of the left anterior descending artery in a patient with
             COVID
             COVID
Line 119: Line 140:
           |journal=Catheterization and Cardiovascular Interventions|year=2020|issn=1522-1946|doi=10.1002/ccd.28960}}</ref>
           |journal=Catheterization and Cardiovascular Interventions|year=2020|issn=1522-1946|doi=10.1002/ccd.28960}}</ref>


*A 55-year-old man with a medical history of peripheral artery also was diagnosed with COVID-19 associated SCAD<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref>
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Hyperlipidemia]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Chest pain]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Not reported
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" |  [[COVID-19]] [[PCR]] was tested after [[SCAD]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Polymorphic ventricular tachycardia]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Mild
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[STEMI]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[LAD]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Conservative, [[dual antiplatelet]], [[betablocker]], [[amiodarone]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 55 years, [[male]]<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref>
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Peripheral arterial disease]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Fever]], [[cough]], [[chest pain]], [[dyspnea]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Not reported
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 48 hours after obtained test
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Moderate]], [[crazy pavy patten]] in [[lung]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[NSTEMI]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[RCA]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Conservative, [[ASA]], [[statin]], [[betablocker]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 70 years, [[male]]<ref name="SeresiniAlbiero2020">{{cite journal|last1=Seresini|first1=Giuseppe|last2=Albiero|first2=Remo|last3=Liga|first3=Riccardo|last4=Camm|first4=Christian Fielder|last5=Liga|first5=Riccardo|last6=Camm|first6=Christian Fielder|last7=Thomson|first7=Ross|title=Atherosclerotic spontaneous coronary artery dissection (A-SCAD) in a patient with COVID-19: case report and possible mechanisms|journal=European Heart Journal - Case Reports|year=2020|issn=2514-2119|doi=10.1093/ehjcr/ytaa133}}</ref>


==Risk Factors==
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Smoker]], [[hypertension]], [[diabetes mellitus]]
*Patients with COVID-19 infection who have underlying Cardiovascular disease are more likely to develop SCAD and more severe adverse outcomes when myocardial injury occurs after COVID-19 infection and face higher risk of death,
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Fever]], [[chest pain]]
*There is often an associated underlying predisposing arteriopathy, which may be compounded by a precipitating stressor, culminating in the phenotypic expression of SCAD
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Not reported
*Predisposing Factors:<ref name="SawMancini20162">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Positive [[covid-19]] test one day after [[angiography]]
**Fibromuscular dysplasia
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
**Pregnancy
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Mild
**Recurrent pregnancies: multiparity or multigravida
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[NSTEMI]]
**Connective tissue disorder: Marfan syndrome, Loeys-Dietz syndrome, Ehler-Danlos syndrome type 4, cystic medial necrosis, alpha-1 antitrypsin deficiency, polycystic kidney disease
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[LAD]]
**Systemic inflammatory disease: systemic lupus erythematosus, Crohn’s disease, ulcerative colitis, polyarteritis nodosa, sarcoidosis, Churg-Strauss syndrome, Wegener’s granulomatosis, rheumatoid arthritis, Kawasaki, giant cell arteritis, celiac disease
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[PCI]], [[ASA]], [[statin]], [[betablocker]], [[clopidogrel]], [[metformine]], [[pantoprazole]]
**Hormonal therapy: oral contraceptive, estrogen, progesterone, beta-HCG, testosterone, corticosteroids
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
**Coronary artery spasm
|-
**Idiopathic
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 39 years, [[male]]
*Precipitating stressors:<ref name="SawMancini20163">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
**Strenous exercises (isometric or aerobic activities)
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Fever]], [[cough]], [[myalgia]], [[chest pain]], [[dyspnea]]
**Intense emotional stress
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Not reported
**Labor and delivery
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 18 days after [[covid-19]
**Intense Valsava-type activities (e.g., retching, vomiting, bowel movement, coughing)
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
**Recreational drugs (e.g., cocaine, amphetamines, metamphetamines)
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Severe, [[respiratory failure]] leading to [[intubation]]
**Intense hormonal therapy (e.g., beta-HCG injections, corticosteroids injections)
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[STEMI]]
 
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[LAD]], [[LCX]]
==Screening==
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Conservative, dual [[antiplatelet]]
==Natural History, Complications, and Prognosis==
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 51 years, [[female]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Hypertension]], [[smoker]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Fever]], [[cough]], [[dyspnea]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Not reported
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 3 days
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Mild
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[NSTEMI]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[LAD]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Conservative, dual [[antiplatelet]], [[anticoagulant]], [[statin]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 35 years, [[male]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Obese]], [[smoker]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Weakness]], [[fever]], [[nasal congestion]], [[anosmia]], [[dry cough]], [[chest congestion]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Autoimmune disease were ruled out
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 18 days
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Mild
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[STEMI]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[RCA]], [[Ramus intermedius]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | RCA conservative treatment, [[PCI]] of [[ramus intermedius]], dual [[antiplatelet]], [[anticoagulant]], [[statin]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 50 years, [[male]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[None]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[Cough]], [[fever]], [[chest pain]] (later)
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | 7 days
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | None
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Mild
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[STEMI]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[RCA]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | [[PCI]],  dual [[antiplatelet]], [[statin]], [[metoral]]
| style="padding: 0 5px; background: #F5F5F5; text-align: left;" | Survived
|-
|}
{{clear}}


==Diagnosis==
==Diagnosis==
===Diagnostic Study of Choice===
===History and Symptoms===
===History and Symptoms===
SCAD can present as acute coronary syndrome and NSTEMI. The symptoms include:<ref name="KumarVogt2020">{{cite journal|last1=Kumar|first1=Kris|last2=Vogt|first2=Joshua C.|last3=Divanji|first3=Punag H.|last4=Cigarroa|first4=Joaquin E.|title=
[[SCAD]] can present as [[Acute coronary syndromes|acute coronary syndrome]] and [[STEMI]]. The [[symptoms]] include:<ref name="KumarVogt2020">{{cite journal|last1=Kumar|first1=Kris|last2=Vogt|first2=Joshua C.|last3=Divanji|first3=Punag H.|last4=Cigarroa|first4=Joaquin E.|title=
             Spontaneous coronary artery dissection of the left anterior descending artery in a patient with
             Spontaneous coronary artery dissection of the left anterior descending artery in a patient with
             COVID
             COVID
             ‐19 infection
             ‐19 infection
           |journal=Catheterization and Cardiovascular Interventions|year=2020|issn=1522-1946|doi=10.1002/ccd.28960}}</ref>
           |journal=Catheterization and Cardiovascular Interventions|year=2020|issn=1522-1946|doi=10.1002/ccd.28960}}</ref>
* Sudden onset of retrosternal pain chest pain which remains persistent in a COVID-19 seropositive patient or in a patient with recent cough and dyspnea raises suspicion of SCAD.
* Sudden onset of retrosternal pain [[chest pain]] which remains persistent in a COVID-19 [[Seropositivity|seropositive]] [[patient]] or in a patient with recent [[cough]] and [[dyspnea]] raises suspicion of [[Spontaneous coronary artery dissection|SCAD]].
* The chest pain can radiate to the left arm.
* The [[chest pain]] can radiate to the left [[arm]].
* It can be associated with the following symptoms:<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref>
* It can be associated with the following symptoms:<ref name="CourandHarbaoui2020">{{cite journal|last1=Courand|first1=Pierre-Yves|last2=Harbaoui|first2=Brahim|last3=Bonnet|first3=Marc|last4=Lantelme|first4=Pierre|title=Spontaneous Coronary Artery Dissection in a Patient With COVID-19|journal=JACC: Cardiovascular Interventions|volume=13|issue=12|year=2020|pages=e107–e108|issn=19368798|doi=10.1016/j.jcin.2020.04.006}}</ref>
**Difficulty breathing
**[[Dyspnea|Difficulty breathing]]
**Loss of consciousness
**[[Unconsciousness|Loss of consciousness]]
** Nausea and vomiting
**[[Nausea and vomiting]]
 
**[[Diaphoresis]]
*Here is a table presenting symptoms of the reported cases<br />
*:[[Cough]] can be the perscipitant factor in the development of [[SCAD]] in [[covid-19]] [[patients]]. (10.1097/MCA.0000000000000991)
 
{| class="wikitable"
 
|-
 
!Patient
 
! Symptoms
 
! Past medical history and risk factors
 
!Laboratory findings
 
!Treatment
 
|-
 
| 55 year old, male ,admitted due
to cough and febrile dyspnea
 
with suspected
COVID-19.
 
 
| 48 hrs after admission had
chest pain
 
|Peripheral artery disease
 
|
* <u>EKG:</u> Inverted T waves in the inferior leads
* Troponin I was elevated {Hs-TnI was at 355 ng/l, then 570 ng/l
 
3 h later (normal values <7 ng/l)}
 
* <u>Transthoracic echocardiography:</u> Left ventricular ejection fraction
 
60% without wall motion abnormalities, no diastolic dysfunction,
 
and a mild mitral regurgitation
 
* <u>Coronary angiogram</u> : Chronic total occlusion of the posterior
 
descending artey with epicardial collateral from the left anterior descending artery.
 
In the mid-right coronary artery, a spontaneous dissecting coronary hematoma was
 
observed with an intimal  tear
 
* <u>Optical coherence tomography (OCT):</u>  spontaneous dissecting coronary hematoma
 
with an intimal rupture of right coronary artery
 
|
* Aspirin, Statins, and Beta-blockers.
 
* Subsequent control coronary angiogram was planned.
 
|-
 
|70-year-old, male


|Severe , persistent chest pain ( 8/10), which started 3 hrs before admission
|Smoking, Hypertension, and Type 2 diabetes,
H/O  percutaneous coronary intervention (PCI) with implantation of a drug-eluting stent (DES)
|
* <u>EKG</u>:new ST-T abnormalities in the precordial leads
* <u>Echocardiogram:</u> Left ventricular ejection fraction  40–45% with akinesia in the LCx territory (old) and a severe hypokinesis in the left anterior ascending (LAD) territory.
* <u>Coronary angiogram:</u> moderate in-stent restenosis on LCx-OM and a moderate right coronary artery (RCA) stenosis
|
* Heparin, Sublingual nitroglycerin, and Clopidogrel
* Angiogram was performed
|-
|
|
|
|
|
|}
===Physical Examination===
===Laboratory Findings===
===Laboratory Findings===
* There is no specific laboratory finding associated [[SCAD]] in [[covid-19]] [[patients]]. Howere, Elevated serum [[troponin]] level was detected in some cases.


* Elevated serum troponin level.
===Electrocardiogram===
* Increased high-sensitivity cardiac troponin T-test (hs-cTnT).
Common [[ECG]] findings of [[COVID-19]] associated [[SCAD]] include:
* Increased D-dimer.
* [[ST segment elevation]]
* Blood count is usually in the normal range.
* [[Biphasic T ]] waves
* Inflammatory markers are usually in the normal range.
* Inverted [[T waves]]


===ECG===
===X-ray===
* new ST-T abnormalities in the precordial leads which are not present earlier.
*There are no x-ray findings associated with COVID-19-associated spontaneous coronary artery dissection.
* inverted T waves in the inferior leads.
* To view the x-ray finidings on COVID-19, [[COVID-19 x ray|click here]].<br />
 
===Echocardiography or Ultrasound===
===Coronary angiography===
*[[Left ventricular dysfunction]] with decreased [[ejection fraction]] is seen.
* Invasive coronary angiography is the "gold standard" used for the diagnosis of SCAD.
*[[Akinesia]] or [[hypokinesia]] is seen in the affected territory of the [[heart]].
 
===Echocardiogram===
* Left ventricular dysfunction with decreased ejection fraction is seen.
* Akinesia or hypokinesia is seen in the affected territory of the heart.


===CT scan===
*To view the CT scan findings on COVID-19, [[COVID-19 CT scan|click here]].
===MRI===
* To view the MRI findings on COVID-19, [[COVID-19 MRI|click here]].<br />
===Other Imaging Findings===
====Coronary angiography====
* Invasive [[coronary angiography]] is the "gold standard" used for the diagnosis of SCAD.
===Other Diagnostic Studies===
===Intravascular ultrasound (IVUS) and optical coherence tomography (OCT)===
===Intravascular ultrasound (IVUS) and optical coherence tomography (OCT)===
* These imaging modalities show detailed morphology about the intramural lesion in situations when angiographic images are not clear. IVUS is important in the followup of the treatment of SCAD patients.
* These imaging modalities show detailed morphology about the intramural lesion in situations when angiographic images are not clear. [[Intravascular ultrasound|IVUS]] is important in the followup of the treatment of SCAD patients.
 
*[[Cardiac Optical Coherence Tomography (OCT)|OCT]] is superior for visualizing intimal tears, intraluminal thrombi, false lumens, and intramural [[hematoma]], but it is limited by optical penetration and shadowing, and may not depict the entire depth of the  Intramural hematoma.OCT is preferred for imaging SCAD due to its superiority and ease in visualizing intramural hematoma , intimal disruption, and double lumens.<ref name="SawMancini20162">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
===Optical coherence tomography (OCT)===


== Treatment ==
== Treatment ==
===Medical Therapy===
===Medical Therapy===
===Medical management===
* '''Antiplatelet therapy:''' The role of antiplatelet therapy for [[Spontaneous coronary artery dissection|SCAD]] is unknown, but on the basis of the totality of evidence for aspirin in [[Acute coronary syndromes|ACS]] and secondary prevention, along with its low side effect profile, aspirin appears reasonable to use for acute and long-term [[Spontaneous coronary artery dissection|SCAD]] management. Clopidogrel for acute management of [[Spontaneous coronary artery dissection|SCAD]] patients not treated with stents is of uncertain benefit.<ref name="SawMancini20162">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
* '''Aspirin:'''
* '''Statins:''' The use of statins for [[Spontaneous coronary artery dissection|SCAD]] is controversial. The bulk of data for [[Acute coronary syndromes|ACS]] demonstrates significant benefit with lipid lowering, and [[statins]] are routinely recommended post-MI. Because of the uncertainty and the general lack of [[atherosclerosis]] in [[Spontaneous coronary artery dissection|SCAD]] patients, statins tend to only be administered to patients with pre-existing [[dyslipidemia]].
* '''Statins:'''
* '''Beta-blockers:''' [[Beta-blocker]] is associated with decreased [[recurrence]] of [[SCAD]].<ref name="pmidPMID 28838364">{{cite journal| author=Saw J, Humphries K, Aymong E, Sedlak T, Prakash R, Starovoytov A | display-authors=etal| title=Spontaneous Coronary Artery Dissection: Clinical Outcomes and Risk of Recurrence. | journal=J Am Coll Cardiol | year= 2017 | volume= 70 | issue= 9 | pages= 1148-1158 | pmid=PMID 28838364 | doi=10.1016/j.jacc.2017.06.053 | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=28838364  }} </ref>.There is a general agreement that beta blockers take the most important place in the medical management of [[Spontaneous coronary artery dissection|SCAD]] patients. These agents may improve the outcomes of SCAD patients with reducing vascular wall shear stress likewise in patients with [[aortic dissection]].Furthermore, [[beta blockers]] should be used in these group of patients in order to reduce complications of [[myocardial infarction]].<ref name="AmsterdamWenger2014">{{cite journal|last1=Amsterdam|first1=Ezra A.|last2=Wenger|first2=Nanette K.|last3=Brindis|first3=Ralph G.|last4=Casey|first4=Donald E.|last5=Ganiats|first5=Theodore G.|last6=Holmes|first6=David R.|last7=Jaffe|first7=Allan S.|last8=Jneid|first8=Hani|last9=Kelly|first9=Rosemary F.|last10=Kontos|first10=Michael C.|last11=Levine|first11=Glenn N.|last12=Liebson|first12=Philip R.|last13=Mukherjee|first13=Debabrata|last14=Peterson|first14=Eric D.|last15=Sabatine|first15=Marc S.|last16=Smalling|first16=Richard W.|last17=Zieman|first17=Susan J.|title=2014 AHA/ACC Guideline for the Management of Patients With Non–ST-Elevation Acute Coronary Syndromes: Executive Summary|journal=Circulation|volume=130|issue=25|year=2014|pages=2354–2394|issn=0009-7322|doi=10.1161/CIR.0000000000000133}}</ref><ref name="urlAcute Myocardial Infarction in Women | Circulation">{{cite web |url=https://www.ahajournals.org/doi/10.1161/CIR.0000000000000351 |title=Acute Myocardial Infarction in Women &#124; Circulation |format= |work= |accessdate=}}</ref>
* '''Beta-blockers:''' [[Beta-blocker]] is associated with decreased [[recurrence]] of [[SCAD]].<ref name="pmidPMID 28838364">{{cite journal| author=Saw J, Humphries K, Aymong E, Sedlak T, Prakash R, Starovoytov A | display-authors=etal| title=Spontaneous Coronary Artery Dissection: Clinical Outcomes and Risk of Recurrence. | journal=J Am Coll Cardiol | year= 2017 | volume= 70 | issue= 9 | pages= 1148-1158 | pmid=PMID 28838364 | doi=10.1016/j.jacc.2017.06.053 | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=28838364  }} </ref>
 
===Percutaneous coronary artery intervention (PCI)===
===Percutaneous coronary artery intervention (PCI)===
 
* Conservative management should be the first choice if emergent [[revascularization]] is not necessary.
 
*To read more about [[Percutaneous coronary intervention|PCI]] in Spontaneous Coronary Artery Dissection, [[Spontaneous coronary artery dissection percutaneous coronary intervention|Click here]].
===Surgery===
 
====Coronary Artery Bypass Graft (CABG)====
====Coronary Artery Bypass Graft (CABG)====
* [[Coronary artery bypass surgery|Coronary Artery Bypass Graft (CABG)]] should be considered for patients with left main dissections, extensive dissections involving proximal arteries, or in patients in whom [[Percutaneous coronary intervention|PCI]] failed or who are not anatomically suitable for PCI.<ref name="SawMancini20162">{{cite journal|last1=Saw|first1=Jacqueline|last2=Mancini|first2=G.B. John|last3=Humphries|first3=Karin H.|title=Contemporary Review on Spontaneous Coronary Artery Dissection|journal=Journal of the American College of Cardiology|volume=68|issue=3|year=2016|pages=297–312|issn=07351097|doi=10.1016/j.jacc.2016.05.034}}</ref>
=== Primary Prevention ===
* Limiting transmission of the SARS-CoV2 virus while protecting patients and members of healthcare team is a prime goal and [[cardiac catheterization]] laboratory protocols must be rapidly evolved to maintain high‐quality and safe cardiovascular care amidst the current pandemic.<ref name="KumarVogt2020">{{cite journal|last1=Kumar|first1=Kris|last2=Vogt|first2=Joshua C.|last3=Divanji|first3=Punag H.|last4=Cigarroa|first4=Joaquin E.|title=
            Spontaneous coronary artery dissection of the left anterior descending artery in a patient with
            COVID
            ‐19 infection
          |journal=Catheterization and Cardiovascular Interventions|year=2020|issn=1522-1946|doi=10.1002/ccd.28960}}</ref>
* COVID‐19 testing prior to [[catheterization]] procedures where feasible
* Adequate PPE to protect team members in COVID‐19 unknown or pending cases to reduce the risk of unplanned aerosol producing procedures such as [[intubation]] or [[Cardiopulmonary resuscitation|CPR]].
=== Secondary Prevention ===
*There is no secondary measures for COVID-19-associated spontaneous coronary artery dissection.


==References==
==References==
{{reflist|2}}
{{reflist|2}}

Latest revision as of 04:47, 21 October 2021

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Main article: COVID-19

For COVID-19 frequently asked inpatient questions, click here

For COVID-19 frequently asked outpatient questions, click here

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sara Zand, M.D.[2] Rinky Agnes Botleroo, M.B.B.S. Ayesha Javid, MBBS[3] Synonyms and keywords: Covid-19, cardiac manifestation, Spontaneous coronary artery dissection, SCAD, Atherosclerothic-spontaneous coronary artery dissection, A-SCAD, Non-atherosclerothic spontaneous coronary artery dissection, NA-SCAD

Overview

Severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) is caused by novel coronavirus disease 2019 virus (COVID‐19). Cardiac manifestations and injury were identified in up to 20–28% of patients. Spontaneous coronary artery dissection (SCAD) is one of the cardiac complication of covid-19 and can be either atherosclerotic or non-atherosclerotic resulting from attaching covid-19 to ACE receptos of vessles wall and producing intense inflammation and endothelial dysfunction, sympathetic over-reactivity that are the precursors of intimal dissection. SCAD can be manifested as STEMI or NSTEMI in patients with covid-19 in which high clinical suspicion is warranted before administration of fibrinolysis in such patients. Among nine reported cases of covid-19 associated SCAD there were not found any previous conventional risk factors of SCAD such as fibromuscular disease, steraneous physical exercise, sex hormone, or peripartum period, except one case reported after intense cough in hospitalized covid-19 patients. In reported covid-19 patients associated with SCAD, it was more common in men and all nine cases were survived with consevative therapy or percutaneous coronary intervention based upon the anatomical site of dissection.

Historical Perspective

  • COVID-19 was first reported in Wuhan, Hubei Province, China in December 2019.[1]
  • The World Health Organization declared the COVID-19 outbreak a pandemic on March 12, 2020.
  • On June 22, 2020, the first case of COVID-19 with spontaneous coronary artery dissection was reported.[2]

Classification

Pathophysiology

Phathophysiology of SCAD in covid-19 patients

Atherosclerotic-Spontaneous Coronary Artery Dissection (A-SCAD) :

Non-Atherosclerotic-Spontaneous Coronary Artery Dissection (NA-SCAD):

Causes

Common causes of covid-19-associated with spontaneous coronary artery dissection include:

Differentiating COVID-19-associated spontaneous coronary artery dissection from other Diseases

  • To view the differential diagnosis of COVID-19, click here.
  • To view a differential diagnosis on the other causes of chest pain, click here.

Epidemiology and Demographics

Age

Gender

Race

Risk Factors

Screening

Natural History, Complications, and Prognosis

Age, sex Cardiovascular history Symptoms Predisposing factors Timing according to covid-19 infection Concomitant covid-19 complications Covid-19 severity Diagnosis Vessle Treatment Outcome
45 years, female None Anosmia, hypogeusia, chest pain Not reported 8 weeks None Mild STEMI LAD Conservative, dual antiplatelet, betablocker, ACE inhibitor Survived
40 years, male None Fever, cough Not reported 7 days after ECMO Cardiogenic shock, severe respiratory distress syndrome, cardiac thrombosis Severe lung infiltration NSTEMI LAD Conservative Survived
48 years, female[7] Hyperlipidemia Chest pain Not reported COVID-19 PCR was tested after SCAD Polymorphic ventricular tachycardia Mild STEMI LAD Conservative, dual antiplatelet, betablocker, amiodarone Survived
55 years, male[2] Peripheral arterial disease Fever, cough, chest pain, dyspnea Not reported 48 hours after obtained test None Moderate, crazy pavy patten in lung NSTEMI RCA Conservative, ASA, statin, betablocker Survived
70 years, male[3] Smoker, hypertension, diabetes mellitus Fever, chest pain Not reported Positive covid-19 test one day after angiography None Mild NSTEMI LAD PCI, ASA, statin, betablocker, clopidogrel, metformine, pantoprazole Survived
39 years, male None Fever, cough, myalgia, chest pain, dyspnea Not reported 18 days after [[covid-19] None Severe, respiratory failure leading to intubation STEMI LAD, LCX Conservative, dual antiplatelet Survived
51 years, female Hypertension, smoker Fever, cough, dyspnea Not reported 3 days None Mild NSTEMI LAD Conservative, dual antiplatelet, anticoagulant, statin Survived
35 years, male Obese, smoker Weakness, fever, nasal congestion, anosmia, dry cough, chest congestion Autoimmune disease were ruled out 18 days None Mild STEMI RCA, Ramus intermedius RCA conservative treatment, PCI of ramus intermedius, dual antiplatelet, anticoagulant, statin Survived
50 years, male None Cough, fever, chest pain (later) None 7 days None Mild STEMI RCA PCI, dual antiplatelet, statin, metoral Survived

Diagnosis

History and Symptoms

SCAD can present as acute coronary syndrome and STEMI. The symptoms include:[7]

Laboratory Findings

  • There is no specific laboratory finding associated SCAD in covid-19 patients. Howere, Elevated serum troponin level was detected in some cases.

Electrocardiogram

Common ECG findings of COVID-19 associated SCAD include:

X-ray

  • There are no x-ray findings associated with COVID-19-associated spontaneous coronary artery dissection.
  • To view the x-ray finidings on COVID-19, click here.

Echocardiography or Ultrasound

CT scan

  • To view the CT scan findings on COVID-19, click here.

MRI

Other Imaging Findings

Coronary angiography

Other Diagnostic Studies

Intravascular ultrasound (IVUS) and optical coherence tomography (OCT)

  • These imaging modalities show detailed morphology about the intramural lesion in situations when angiographic images are not clear. IVUS is important in the followup of the treatment of SCAD patients.
  • OCT is superior for visualizing intimal tears, intraluminal thrombi, false lumens, and intramural hematoma, but it is limited by optical penetration and shadowing, and may not depict the entire depth of the Intramural hematoma.OCT is preferred for imaging SCAD due to its superiority and ease in visualizing intramural hematoma , intimal disruption, and double lumens.[4]

Treatment

Medical Therapy

  • Antiplatelet therapy: The role of antiplatelet therapy for SCAD is unknown, but on the basis of the totality of evidence for aspirin in ACS and secondary prevention, along with its low side effect profile, aspirin appears reasonable to use for acute and long-term SCAD management. Clopidogrel for acute management of SCAD patients not treated with stents is of uncertain benefit.[4]
  • Statins: The use of statins for SCAD is controversial. The bulk of data for ACS demonstrates significant benefit with lipid lowering, and statins are routinely recommended post-MI. Because of the uncertainty and the general lack of atherosclerosis in SCAD patients, statins tend to only be administered to patients with pre-existing dyslipidemia.
  • Beta-blockers: Beta-blocker is associated with decreased recurrence of SCAD.[8].There is a general agreement that beta blockers take the most important place in the medical management of SCAD patients. These agents may improve the outcomes of SCAD patients with reducing vascular wall shear stress likewise in patients with aortic dissection.Furthermore, beta blockers should be used in these group of patients in order to reduce complications of myocardial infarction.[9][10]

Percutaneous coronary artery intervention (PCI)

  • Conservative management should be the first choice if emergent revascularization is not necessary.
  • To read more about PCI in Spontaneous Coronary Artery Dissection, Click here.

Coronary Artery Bypass Graft (CABG)

  • Coronary Artery Bypass Graft (CABG) should be considered for patients with left main dissections, extensive dissections involving proximal arteries, or in patients in whom PCI failed or who are not anatomically suitable for PCI.[4]

Primary Prevention

  • Limiting transmission of the SARS-CoV2 virus while protecting patients and members of healthcare team is a prime goal and cardiac catheterization laboratory protocols must be rapidly evolved to maintain high‐quality and safe cardiovascular care amidst the current pandemic.[7]
  • COVID‐19 testing prior to catheterization procedures where feasible
  • Adequate PPE to protect team members in COVID‐19 unknown or pending cases to reduce the risk of unplanned aerosol producing procedures such as intubation or CPR.

Secondary Prevention

  • There is no secondary measures for COVID-19-associated spontaneous coronary artery dissection.

References

  1. Meng X, Deng Y, Dai Z, Meng Z (June 2020). "COVID-19 and anosmia: A review based on up-to-date knowledge". Am J Otolaryngol. 41 (5): 102581. doi:10.1016/j.amjoto.2020.102581. PMC 7265845 Check |pmc= value (help). PMID 32563019 Check |pmid= value (help).
  2. 2.0 2.1 2.2 2.3 Courand, Pierre-Yves; Harbaoui, Brahim; Bonnet, Marc; Lantelme, Pierre (2020). "Spontaneous Coronary Artery Dissection in a Patient With COVID-19". JACC: Cardiovascular Interventions. 13 (12): e107–e108. doi:10.1016/j.jcin.2020.04.006. ISSN 1936-8798.
  3. 3.0 3.1 Seresini, Giuseppe; Albiero, Remo; Liga, Riccardo; Camm, Christian Fielder; Liga, Riccardo; Camm, Christian Fielder; Thomson, Ross (2020). "Atherosclerotic spontaneous coronary artery dissection (A-SCAD) in a patient with COVID-19: case report and possible mechanisms". European Heart Journal - Case Reports. doi:10.1093/ehjcr/ytaa133. ISSN 2514-2119.
  4. 4.0 4.1 4.2 4.3 4.4 4.5 Saw, Jacqueline; Mancini, G.B. John; Humphries, Karin H. (2016). "Contemporary Review on Spontaneous Coronary Artery Dissection". Journal of the American College of Cardiology. 68 (3): 297–312. doi:10.1016/j.jacc.2016.05.034. ISSN 0735-1097.
  5. "Spontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID‐19 infection - Kumar - - Catheterization and Cardiovascular Interventions - Wiley Online Library".
  6. 6.0 6.1 6.2 Yapan Emren Z, Emren V, Özdemir E, Karagöz U, Nazlı C (June 2021). "Spontaneous right coronary artery dissection in a patient with COVID-19 infection: A case report and review of the literature". Turk Kardiyol Dern Ars. 49 (4): 334–338. doi:10.5543/tkda.2021.34846. PMID 34106068 Check |pmid= value (help).
  7. 7.0 7.1 7.2 Kumar, Kris; Vogt, Joshua C.; Divanji, Punag H.; Cigarroa, Joaquin E. (2020). "Spontaneous coronary artery dissection of the left anterior descending artery in a patient with COVID ‐19 infection". Catheterization and Cardiovascular Interventions. doi:10.1002/ccd.28960. ISSN 1522-1946. line feed character in |title= at position 96 (help)
  8. Saw J, Humphries K, Aymong E, Sedlak T, Prakash R, Starovoytov A; et al. (2017). "Spontaneous Coronary Artery Dissection: Clinical Outcomes and Risk of Recurrence". J Am Coll Cardiol. 70 (9): 1148–1158. doi:10.1016/j.jacc.2017.06.053. PMID 28838364 PMID 28838364 Check |pmid= value (help).
  9. Amsterdam, Ezra A.; Wenger, Nanette K.; Brindis, Ralph G.; Casey, Donald E.; Ganiats, Theodore G.; Holmes, David R.; Jaffe, Allan S.; Jneid, Hani; Kelly, Rosemary F.; Kontos, Michael C.; Levine, Glenn N.; Liebson, Philip R.; Mukherjee, Debabrata; Peterson, Eric D.; Sabatine, Marc S.; Smalling, Richard W.; Zieman, Susan J. (2014). "2014 AHA/ACC Guideline for the Management of Patients With Non–ST-Elevation Acute Coronary Syndromes: Executive Summary". Circulation. 130 (25): 2354–2394. doi:10.1161/CIR.0000000000000133. ISSN 0009-7322.
  10. "Acute Myocardial Infarction in Women | Circulation".
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