A heart attack commonly does not have apparent symptoms; silent myocardial ischemia can occur in the absence of chest discomfort or other anginal equivalent symptoms, e.g., dyspnea, nausea, diaphoresis, etc., with ST-segment changes on EKG, reversible regional wall motion abnormalities, or perfusion defects on scintigraphy studies. MI occurs due to multiple factors resulting in an imbalance between consumption and production of adenosine triphosphate (ATP), causing ATP depletion leading to a cascade of biochemical events. Silent myocardial ischemia (SMI) obtained recognition at the beginning of the 20th century. About 70% to 80% of transient ischemic episodes do not present with anginal chest pain or any other symptoms (silent ischemia). Lack of pain in silent myocardial infarction (MI) increases morbidity and mortality since patients do not seek medical treatment in a timely fashion.
Patient classification is as one of three types of silent ischemia:
Diabetes mellitus (DM): Diabetes mellitus (DM) is a significant risk factor for coronary artery disease and correlates with a higher incidence of SMI. Cardiac autonomic dysfunction is the main culprit in diabetic patients which involves pain receptors, afferent neurons or higher areas of the brain.
Studies have shown that atherogenic dyslipidemia strongly correlates with an increased risk of SMI and silent CAD in patients with DM and the management of atherogenic dyslipidemia might help to reduce the high residual burden of cardiovascular disease.
In surgery: There is a relatively high incidence of perioperative MI in the geriatric population. Studies have shown that patients who underwent coronary artery bypass graft surgery had episodes of SMI detected by Holter monitoring. In the intensive care unit: Critically ill patients in the intensive care unit (ICU) admitted for noncardiac causes are also at risk of acute myocardial ischemia. Transient myocardial ischemia and advanced age are significant predictors of cardiac events. Sleep apnea: Obstructive sleep apnea carries correlations with myocardial ischemia (silent or symptomatic), cardiac arrhythmias, pulmonary hypertension, heart failure, transient ischemic attack, and stroke.
Studies have shown that the incidence rate of SMI is higher in men than in women. There is an increased risk of coronary heart disease deaths and all-cause mortality among both men and women with SMI. But there is a potentially greater increased risk among women.
A myocardial infarct is mainly caused by rupture of an atherosclerotic plaque in any of the blood vessels supplying oxygen to the heart. Pathophysiology involved in this process includes movement of inflammatory cells in the vessel wall, engulfment of cholesterol products causing these macrophages to become foam cells, releasing growth factors which causes fibrin and smooth muscles to become part of the plaque. Plaques may have a thin or thick fibrous cap, rupture of these plaques causes devastating injury.
Histological findings in the setting of acute MI are as follows;
Ischemic chest pain has been the hallmark of the clinical presentation of patients with acute coronary syndromes. Patients may present with absolutely no history of myocardial infarction or angina in the past, with previous myocardial infarction or with angina besides asymptomatic ischemic episodes. The history of presenting illness (HPI) and physical examination provide an immediate source of information for physicians to stratify the patients for further workup. Pertinent history in these patients would include past medical history of diabetes, hypertension, dyslipidemia, prior coronary artery disease (CAD), or presence of other risk factors for CAD. Physical examination can be benign in these patients.
Medical Therapy: Beta blockers appear to be most effective and also improve outcomes. Although beta-blockers produce the greatest reduction in the number and duration of ischemic episodes, calcium channel blockers are also effective. Monotherapy with calcium channel blockers should primarily be used in patients with a specific identified pathogenic mechanism which is expected to respond better to calcium channel blockers (e.g., vasospastic angina), or if a patient is intolerant of beta blockers. Aspirin (antiplatelet therapy) and statin (lipid-lowering therapy) are also used.
Psychotherapy: Mental stress can provoke silent ischemia; especially in patients with underlying coronary artery disease. Data suggests a possible benefit from behavioral stress reduction in such patients.
Revascularization: Decision regarding the need for coronary artery revascularization are rarely if ever, based exclusively on the finding of silent myocardial ischemia. There are limited data evaluating the efficacy of coronary revascularization in the treatment of silent ischemia. The study showed no significant difference in mortality between the groups who underwent revascularization and those who continued medical therapy (19.1 and 18.3 percent, respectively).
Differentials of epigastric or chest symptoms include CAD, aortic dissection, valvular abnormalities, myocarditis, lung pathologies, musculoskeletal etiology or those involving gastrointestinal (GI) tract. The proper history and physical examination help to narrow down the differentials.
Those with a history of silent myocardial ischemia have a higher incidence of new coronary events than those with no silent ischemia, suggesting an aggressive diagnostic and therapeutic approach for these patients. Older persons present with atypical symptoms associated with acute MI which include dyspnea, neurologic and GI symptoms. By controlling modifiable risk factors and changing lifestyle one can improve the quality of life.
Patients should be referred to cardiac rehabilitation programs to help them control modifiable risk factors, teach them how to deal with their stress, anxiety/depression, and restore exercise capacity after prolonged hospitalization for myocardial infarction. This approach will help to decrease morbidity and mortality of patients. Risk factors for coronary artery disease should be treated aggressively in a patient with diabetes. The best approach would be to perform screening ECG during their yearly follow-ups.
The management of silent MI is an interprofessional. Often the diagnosis is missed or delayed, and hence appropriate referral to a cardiologist should be made. Patients should receive education about the control of modifiable risk factors; smoking cessation, lowering blood cholesterol, control of hypertension, diabetes, maintaining ideal body weight, regular exercises, control of stressors in their lifestyle, dietary modifications, and medication compliance. They should be advised regular follow-ups as by controlling these risk factors one can improve the quality of life and hence the long-term survival.
|||Cohn PF, Silent ischemia: a timely aspect in coronary artery disease. Herz. 1987 Oct [PubMed PMID: 3315916]|
|||Scheen AJ, [From atherosclerosis to atherothrombosis : from a silent chronic pathology to an acute critical event]. Revue medicale de Liege. 2018 May [PubMed PMID: 29926559]|
|||Draman MS,Thabit H,Kiernan TJ,O'Neill J,Sreenan S,McDermott JH, A silent myocardial infarction in the diabetes outpatient clinic: case report and review of the literature. Endocrinology, diabetes & metabolism case reports. 2013 [PubMed PMID: 24616778]|
|||Serhiyenko VA,Serhiyenko AA, Cardiac autonomic neuropathy: Risk factors, diagnosis and treatment. World journal of diabetes. 2018 Jan 15 [PubMed PMID: 29359025]|
|||Nicholls SJ,Nelson AJ, HDL and cardiovascular disease. Pathology. 2019 Feb [PubMed PMID: 30612759]|
|||Aziz F, Coronary artery disease in women: an unsolved dilemma. Journal of clinical medicine research. 2014 Apr [PubMed PMID: 24578749]|
|||[PubMed PMID: 29861276]|
|||[PubMed PMID: 30428011]|
|||[PubMed PMID: 18725477]|
|||[PubMed PMID: 12545670]|
|||[PubMed PMID: 29296058]|
|||[PubMed PMID: 28139557]|
|||[PubMed PMID: 30093138]|
|||[PubMed PMID: 29387731]|
|||[PubMed PMID: 21440501]|
|||[PubMed PMID: 28711883]|