Coronary Flow Effects of Arterial Spasm or Microembolization


Article Author:
Arshad Muhammad Iqbal


Article Editor:
Syed Jamal


Editors In Chief:
Kranthi Sitammagari
Mayank Singhal


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Trevor Nezwek
Radia Jamil
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beata Beatty
Beenish Sohail
Nazia Sadiq
Hajira Basit
Phillip Hynes


Updated:
4/24/2019 1:04:27 PM

Introduction

The heart receives its blood supply from coronary arteries, which is divided into right and left major branches[1]. The left coronary artery supplies the bulk of the heart muscle and divides into two divisions: the left anterior descending and left circumflex arteries. The right coronary artery supplies the majority of the right side of the heart and also the sinoatrial (SA) nodal system in most persons. The coronary arteries are medium-sized arteries and have a muscular component that can predispose them to spasm, a function of a muscular artery in the body under physiological and pathological conditions. Coronary artery spasm is a constriction of the coronary artery, due to a variety of causes, which can cause partial or complete occlusion of arterial lumen resulting in limitation of blood flow to myocardium which can cause anginal symptoms and can lead to significant deleterious effects like myocardial ischemia, infarction, arrhythmias and even sudden cardiac death.[[2]

Micro-embolization occludes small vessels which often leads to microvascular dysfunction and development of back pressure in the coronary tree which can also lead to myocardial ischemia and it's accompanying symptoms. Micro-embolisation usually occurs in the setting of existing coronary artery disease with shards of fragments of a plaque that is disturbed, spontaneously or due to coronary intervention, progress to micro-circulation and clog up the small arterioles and capillaries.[3]

Etiology

The coronary artery flow depends on the autonomic nervous system. The sympathetic nervous system activation will increase the effects of catecholamines which will induce the vasoconstriction and further decrease the blood flow. IThere is a school of thought that coronary artery spasm can develop if there is unopposed alpha constriction.[4] The parasympathetic nervous system will not have a direct effect on spasm, but its reduced activity will promote more adrenergic activity which can induce spasm.[5] Smoking, endothelial dysfunction, physical stress, and drugs like cocaine can also contribute to the development of spasm. Younger patients are more likely to develop spasm as compare to older patients. Genetic factors also contribute to the development of spasm.

Micro-embolisation typically has associations with coronary artery disease with emboli originating from coronary plaques and obstructing the small vessels and distal circulation.[6]

Epidemiology

Coronary artery spasm is common in the Japanese than US populations.[7] It is more common in women than men, and elderly than young. Its prevalence is higher in patients with an underlying coronary lesion. Some studies suggest that the decreased production of endothelial nitric oxide and autonomic dysfunction is more common in the Japanese population than western countries and is responsible for the racial difference in coronary vasomotor activity. 

Pathophysiology

Rich innervation and muscularity of coronary vessels predisposed them to vasoactive effects of catecholamines as well as neuro-humoral system activation. As a result, inducement of coronary vasospasm can occur whenever there is a surge in circulatory catecholamines or when there is activation of the neuro-humoral system.

Micro-embolisation leads to increased resistance to flow across the coronary bed which raises intra-coronary pressures by vasoconstriction and impairs nutrient exchange as well as causing endothelial dysfunction which results in ischemia.[3]

History and Physical

The patients usually present as sudden onset, pressure like radiating chest pain, which generally lasts for 5-20 minutes. The symptoms are recurrent and present in a similar way during each episode. If the symptoms do not respond to initial medical treatment, the patient can develop myocardial infarction or even sudden death. The classic presentation mimics typical angina pectoris, however resting pain with no pain between the episodes can be used to differentiate from classic angina pectoris.[8]

Physical examination should be performed to get baseline cardiovascular status to compare during the episodes. The patient can develop tachycardia, hypotension, or third heart sound during the episode, and return to baseline after the episode. If the right coronary artery is involved, the patient can develop bradycardia and hypotension because of the involvement of the nodal system and disruption of the blood supply to the right ventricle.

Evaluation

The best initial investigation is electrocardiogram, which should be done in all patients presenting with chest pain. The findings vary from normal EKG to ST segment changes, which will resolve either spontaneously or with treatment. Serial cardiac troponin testing is also indicated to rule out myocardial infarction. In a case where there are no EKG changes, and patients have recurrent symptoms, ambulatory EKG can also be done to detect episodes of ST-segment elevation/depression with or without angina. Exercise has been shown to trigger spasm so exercise testing can also be done to induce spasm once ECG and cardiac troponins have ruled out ACS. Stress test combined with imaging will often yield perfusion defects/ ischemia in the territory of coronary artery suffering from spasmodic episodes. Invasive coronary angiography (ICA) will usually reveal non-obstructive coronaries, in which cases coronary functional testing via checking coronary flow reserve and coronary microvascular resistance is the next step, typically done by methods as fractional flow reserve (FFR), coronary flow reserve (CFR), instantaneous wave-free ratio (iFR), and index of microcirculatory resistance (IMR). Provocative testing can be undertaken to look for coronary vasospasm.

Invasive coronary angiography with provocative testing is the gold standard for the diagnosis.

Treatment / Management

Non-Pharmacological treatment includes smoking cessation to prevent recurrent symptoms.

Pharmacological management depends on the presentation and the EKG changes. Nitrates will help in reducing symptoms, but coronary angiography should be done to rule out active coronary lesion. If coronaries are normal, long-acting nitrate with or without calcium channel blocker will improve the symptoms. In acute attacks, sublingual nitrates can also be used to get an immediate effect. Calcium channel blockers have vasodilating properties and can be used to prevent recurrent attacks. The dose should be gradually increased to reach the maximal tolerable dose. Beta-blockers should be avoided as it increases the risk of spasm, but if the patient has LV dysfunction, then beta blocker will need to be instituted considering the associated mortality benefit. ICD should also is a consideration in patients for secondary prevention.[9]

Differential Diagnosis

1. Unstable Angina

2. Myocardial Infarction

3. Coronary artery anomalous origin

4. Pulmonary embolism

5. Aortic dissection

6. Esophageal Spasm

Prognosis

The prognosis of coronary spasm is good if promptly recognized, and patients usually respond well to medical management.

Micro-embolization on the other end doesn't respond very well to treatment especially in the setting of ACS or coronary intervention. It usually leads to microvascular dysfunction.

Complications

1. Myocardial Infarction

2. Myocardial dysfunction

3. Arrhythmias (Ventricular tachycardia/ fibrillation)

4. Sudden cardiac death

5. Acute pulmonary edema

6. Heart Failure

Deterrence and Patient Education

The patient should be educated to avoid smoking cessation as this will prevent recurrent symptoms.

If the patient improves on medical management, medication compliance will be essential as skipping of the medication can lead to the rebound spasm.

Pearls and Other Issues

Knowledge of the mechanisms and triggers of coronary artery spasm in the clinical setting is still somewhat limited. Experimental and clinical studies point out that requires the presence of hyperreactivity of coronary smooth muscle to constrictor stimuli. This hyper-reactivity is nonspecific and appears multi-factorial. The causes of vascular smooth muscle cell hyperreactivity remain poorly understood, but chances are they will be different among patients. While it has been suggested that endothelial dysfunction is involved in coronary spasm, it is not likely to be a direct cause, although it can facilitate the effects of vasoconstrictor stimuli in the spastic segment. Several triggers have also been identified that could act in the same patient with the potential to cause angina attacks in different conditions. Accordingly, these triggers usually represent an elusive therapeutic target.

Micro-embolisation needs to be a consideration in the pathophysiology of CAD, and it represents a key event during coronary intervention especially in the ACS setting. Spontaneous and procedural micro-embolization can both lead to myocardial injury, but the main clinical implications are in ACS patients. A number of diagnostic tools are available for the detection of myocardial injury following micro-embolization and progress in intravascular imaging, and functional intracoronary tests will be helpful in early detection and upstream identification of those anatomical settings at higher risk of micro-embolization.

Thrombus aspiration, GPIIb/IIIa inhibitors, dual antiplatelet therapy, and intensive statin treatment are recommended to limit its impacts.

Enhancing Healthcare Team Outcomes

Physicians should be aware of these entities as they are more likely to be diagnosed when suspected, only because they require highly specialized testing utilizing the help of cardiologists, imaging specialists as well as coronary interventionists.

A high index of suspicion and prompt recognition are essential.


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Coronary Flow Effects of Arterial Spasm or Microembolization - Questions

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Which substance is used for coronary artery spasm provocative testing?



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What is the optimal procedure for coronary provocative testing?



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Coronary micro-embolization occurs most commonly in which clinical setting?



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All of the following medications can be used in the treatment of coronary artery spasm except which one?



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Coronary Flow Effects of Arterial Spasm or Microembolization - References

References

Ogobuiro I,Tuma F, Anatomy, Thorax, Heart Coronary Arteries . 2018 Jan     [PubMed]
Sabzwari SRA,Varga Z,Butt K,Khan N, A Reversible Cause of Complete Heart Block Causing Chest Pain and Syncope. Cureus. 2017 Dec 16     [PubMed]
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Sueda S,Kohno H,Fukuda H,Ochi N,Kawada H,Hayashi Y,Uraoka T, Frequency of provoked coronary spasms in patients undergoing coronary arteriography using a spasm provocation test via intracoronary administration of ergonovine. Angiology. 2004 Jul-Aug     [PubMed]
Hung MJ,Hu P,Hung MY, Coronary artery spasm: review and update. International journal of medical sciences. 2014     [PubMed]
Picard F,Sayah N,Spagnoli V,Adjedj J,Varenne O, Vasospastic angina: A literature review of current evidence. Archives of cardiovascular diseases. 2018 Sep 6     [PubMed]

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