The Cardiovascular Institute of the Greater Los Angeles
Dr. Uri Ben-Zur, M.D., F.A.C.C

The Cardiovascular Institute of the Greater Los Angeles in Encino, provide cardiac services with a constant goal; to offer our patients the most complete and advanced methods for the diagnosis, treatment and prevention of heart disease.

Dr. Ben-Zur recommends that you read this article about atherosclerosis

Atherosclerosis

Atherosclerosis is a disease of large and medium-sized muscular arteries and is characterized by endothelial dysfunction, vascular inflammation, and the buildup of lipids, cholesterol, calcium, and cellular debris within the intima of the vessel wall. This buildup results in plaque formation, vascular remodeling, acute and chronic luminal obstruction, abnormalities of blood flow, and diminished oxygen supply to target organs.

Pathophysiology
A complex and incompletely understood interaction exists between the critical cellular elements of the atherosclerotic lesion. These cellular elements are endothelial cells, smooth muscle cells, platelets, and leucocytes. Vasomotor function, the thrombogenicity of the blood vessel wall, the state of activation of the coagulation cascade, the fibrinolytic system, smooth muscle cell migration and proliferation, and cellular inflammation are complex and interrelated biological processes that contribute to atherogenesis and the clinical manifestations of atherosclerosis.

The mechanisms of atherogenesis remain uncertain. The "response-to-injury" theory is most widely accepted. Endothelial injury causes vascular inflammation and a fibroproliferative response ensues. Probable causes of endothelial injury include oxidized low-density lipoprotein (LDL) cholesterol; infectious agents; toxins, including the byproducts of cigarette smoking; hyperglycemia; and hyperhomocystinemia. Circulating monocytes infiltrate the intima of the vessel wall, and these tissue macrophages act as scavenger cells, taking up LDL cholesterol and forming the characteristic foam cell of early atherosclerosis. These activated macrophages produce numerous factors that are injurious to the endothelium.

Elevated serum levels of LDL cholesterol overwhelm the antioxidant properties of the healthy endothelium and result in abnormal endothelial metabolism of this lipid moiety. Oxidized LDL is capable of a wide range of toxic effects and cell/vessel wall dysfunctions that are characteristically and consistently associated with the development of atherosclerosis. These dysfunctions include impaired endothelium-dependent dilation and paradoxical vasoconstriction. These dysfunctions are the result of direct inactivation of nitric oxide by the excess production of free radicals, reduced transcription of nitric oxide synthase messenger RNA (mRNA), and posttranscriptional destabilization of mRNA.

The decrease in the availability of nitric oxide also is associated with increased platelet adhesion, increased plasminogen activator inhibitor, decreased plasminogen activator, increased tissue factor, decreased thrombomodulin, and alterations in heparan sulfate proteoglycans. The consequences include a procoagulant milieu and enhanced platelet thrombus formation. Furthermore, oxidized LDL activates inflammatory processes at the level of gene transcription by up-regulation of nuclear factor kappa-B, expression of adhesion molecules, and recruitment of monocytes/macrophages.

The lesions of atherosclerosis do not occur in a random fashion. Hemodynamic factors interact with the activated vascular endothelium. Fluid shear stresses generated by blood flow influence the phenotype of the endothelial cells by modulation of gene expression and regulation of the activity of flow-sensitive proteins. Atherosclerotic plaques characteristically occur in regions of branching and marked curvature at areas of geometric irregularity and where blood undergoes sudden changes in velocity and direction of flow. Decreased shear stress and turbulence may promote atherogenesis at these important sites within the coronary arteries, the major branches of the thoracic and abdominal aorta, and the large conduit vessels of the lower extremities.
The earliest pathologic lesion of atherosclerosis is the fatty streak. The fatty streak is observed in the aorta and coronary arteries of most individuals by age 20 years. The fatty streak is the result of focal accumulation of serum lipoproteins within the intima of the vessel wall. Microscopy reveals lipid-laden macrophages, T lymphocytes, and smooth muscle cells in varying proportions.

The fatty streak may progress to form a fibrous plaque, the result of progressive lipid accumulation and the migration and proliferation of smooth muscle cells. Platelet-derived growth factor, insulinlike growth factor, transforming growth factors alpha and beta, thrombin, and angiotensin II are potent mitogens that are produced by activated platelets, macrophages, and dysfunctional endothelial cells that characterize early atherogenesis, vascular inflammation, and platelet-rich thrombosis at sites of endothelial disruption. The relative deficiency of endothelium-derived nitric oxide further potentiates this proliferative stage of plaque maturation.

These smooth muscle cells are responsible for the deposition of extracellular connective tissue matrix and form a fibrous cap that overlies a core of lipid-laden foam cells, extracellular lipid, and necrotic cellular debris. Growth of the fibrous plaque results in vascular remodeling, progressive luminal narrowing, blood-flow abnormalities, and compromised oxygen supply to the target organ. Human coronary arteries enlarge in response to plaque formation, and luminal stenosis may only occur once the plaque occupies greater than 40% of the area bounded by the internal elastic lamina. Developing atherosclerotic plaques acquire their own microvascular network called vasa vasorum, which are prone to hemorrhage and contribute to progression of atherosclerosis Denudation of the overlying endothelium or rupture of the protective fibrous cap may result in exposure of the thrombogenic contents of the core of the plaque to the circulating blood. This exposure constitutes an advanced or complicated lesion. The plaque rupture occurs due to weakening of the fibrous cap. Inflammatory cells localize to the shoulder region of the vulnerable plaque. T lymphocytes elaborate interferon gamma, an important cytokine that impairs vascular smooth muscle cell proliferation and collagen synthesis. Furthermore, activated macrophages produce matrix metalloproteinases that degrade collagen. These mechanisms explain the predisposition to plaque rupture and highlight the role of inflammation in the genesis of the complications of the fibrous atheromatous plaque. A plaque rupture may result in thrombus formation, partial or complete occlusion of the blood vessel, and progression of the atherosclerotic lesion due to organization of the thrombus and incorporation within the plaque.

Mortality/Morbidity
Atherosclerosis is the leading cause of death in the developed world, and atherosclerosis is predicted to be the leading cause of death in the developing world within the first quarter of the next century.

  • Atherosclerosis is responsible for more than half of the yearly mortality in the United States, and more than 500,000 people die annually of myocardial infarction alone. This rate of mortality costs the country more than $100 billion a year. More than 50 million people in the United States are candidates for some form of dietary and/or drug treatment to modify their lipid profile.
  • An encouraging decrease in mortality due to coronary heart disease in the developed world has occurred. Unfortunately, this decrease has not occurred in the developing world, and an exponential increase in tobacco habituation and the adoption of a Western diet high in saturated fats likely predicts the continued increase in death and disability due to coronary heart disease.

Sex
Atherosclerosis is more common among men than women. The higher prevalence of atherosclerosis in men is thought to be due to the protective effects of the female sex hormones. This sex effect is absent after menopause in women. The incidence of coronary heart disease among women parallels that of men, but women demonstrate an approximately 10-year chronological delay in the onset of clinical manifestations.

Age
Most cases of atherosclerotic vascular disease become clinically apparent in patients aged 40-70 years.
Clinical
The symptoms of atherosclerosis are highly variable. Patients with mild atherosclerosis may present with clinically important symptoms and signs of disease and myocardial infarction, or sudden cardiac death may be the first symptom of coronary heart disease. However, many patients with anatomically advanced disease may have no symptoms and experience no functional impairment. Initially thought to be a chronic, slowly progressive, degenerative disease, it is now apparent that atherosclerosis is a disease with periods of activity and quiescence. Although a systemic disease, atherosclerosis manifests in a focal manner and affects different organ systems in different patients for reasons that remain unclear.

  • Progressive luminal narrowing of an artery due to expansion of a fibrous plaque results in impairment of flow once more than 50-70% of the lumen diameter is obstructed. This impairment in flow results in symptoms of inadequate blood supply to the target organ in the event of increased metabolic activity and oxygen demand. Stable angina pectoris, intermittent claudication, and mesenteric angina are examples of the clinical consequences of this mismatch.
  • Rupture of a plaque or denudation of the endothelium overlying a fibrous plaque may result in exposure of the highly thrombogenic subendothelium and lipid core. This exposure may result in thrombus formation, which may partially or completely occlude flow in the involved artery. Unstable angina pectoris, myocardial infarction, transient ischemic attack, and stroke are examples of the clinical sequelae of partial or complete acute occlusion of an artery. Atheroembolism is a distinct clinical entity that may occur spontaneously or as a complication of aortic surgery, angiography, or thrombolytic therapy in patients with advanced and diffuse atherosclerosis.
  • Angina pectoris is characterized by retrosternal chest discomfort that typically radiates to the left arm and may be associated with dyspnea. Angina pectoris is exacerbated by exertion and relieved by rest or nitrate therapy. Unstable angina pectoris describes a pattern of increasing frequency or intensity of episodes of angina pectoris and includes pain at rest. A prolonged episode of angina pectoris that may be associated with diaphoresis is suggestive of myocardial infarction.
  • Stroke, reversible ischemic neurological deficit, and transient ischemic attack are a range of manifestations of impairment of vascular supply to the central nervous system and are characterized by the sudden onset of a focal neurological deficit of variable duration, respectively.
  • Peripheral vascular disease typically manifests as intermittent claudication, impotence, and nonhealing ulceration and infection of the extremities. Intermittent claudication describes calf, thigh, or buttock pain that is exacerbated by exercise and relieved by rest. Intermittent claudication may be accompanied by pallor of the extremity and paresthesias.
  • Visceral ischemia may be occult or symptomatic prior to symptoms and signs of target organ failure.
  • Mesenteric angina is characterized by epigastric or periumbilical postprandial pain and may be associated with hematemesis, hematochezia, melena, diarrhea, nutritional deficiencies, and weight loss.
  • Abdominal aortic aneurysm typically is asymptomatic prior to the dramatic and often fatal symptoms and signs of rupture, although patients may describe a pulsatile abdominal mass.
  • Atheroembolism may present with symptoms of digital necrosis, gastrointestinal bleeding, myocardial infarction, retinal ischemia, cerebral infarction, and renal failure.

Physical
The physical signs of atherosclerosis provide objective evidence of extracellular lipid deposition, stenosis or dilatation of large muscular arteries, or target organ ischemia or infarction.

  • Hyperlipidemia - Xanthelasma, tendon xanthomata
  • Coronary artery disease - Fourth heart sound, tachycardia, hypotension, hypertension
  • Cerebrovascular disease - Diminished carotid pulses, carotid artery bruits, focal neurological deficits
  • Peripheral vascular disease - Decreased peripheral pulses, peripheral arterial bruits, pallor, peripheral cyanosis, gangrene, ulceration
  • Abdominal aortic aneurysm - Pulsatile abdominal mass, peripheral embolism, circulatory collapse
  • Atheroembolism - Livedo reticularis, gangrene, cyanosis, ulceration (The presence of pedal pulses in the setting of peripheral ischemia suggests microvascular disease and includes cholesterol embolization.)

Causes
A number of large epidemiological studies in North America and Europe have identified numerous risk factors for the development and progression of atherosclerosis. The risk factors can be divided into modifiable and nonmodifiable risk factors and include hyperlipidemia, hypertension, cigarette habituation, diabetes mellitus, age, and sex. More recently, a number of novel risk factors have been identified that add to the predictive value of the established risk factors and may prove to be a target for future medical interventions.

  • Hyperlipidemia: Hyperlipidemia is an established risk factor for atherosclerosis. Convincing evidence that lowering serum cholesterol reduces the risk of subsequent coronary heart disease events and overall mortality exists.
  • Hypertension
    • Hypertension is a risk factor for the development of atherosclerosis, atherosclerotic cardiovascular disease, and stroke. The mechanism by which hypertension causes these effects is not known, and some uncertainty exists as to what the primary and secondary factors are in a typically multifactorial syndrome. These factors may include hyperlipidemia, hypertension, diabetes mellitus, obesity, and physical inactivity.
    • Hypertension is associated with morphologic alterations of the arterial intima and functional alterations of the endothelium that are similar to the changes observed in hypercholesterolemia and established atherosclerosis. Endothelial dysfunction is a feature of hypertension, hyperlipidemia, and atherosclerosis and is known to represent and contribute to the procoagulant, proinflammatory, and proliferative components of atherogenesis. Hypertension has been shown, in both epidemiologic and experimental studies, to accelerate atherosclerotic vascular disease and increase the incidence of clinical complications.
  • Diabetes mellitus: An important risk factor for hyperlipidemia and atherosclerosis and commonly associated with hypertension, abnormalities of coagulation, platelet adhesion and aggregation, increased oxidative stress, and functional and anatomic abnormalities of the endothelium and endothelial vasomotion.
  • Cigarette habituation: A major and modifiable risk factor for atherosclerosis and is associated with an increased relative risk of dying from vascular disease. The mechanisms are complex and likely multifactorial and result in endothelial dysfunction and a relatively hypercoagulable state. This increased relative risk rapidly and significantly is reduced with smoking cessation. The relative risk is reduced to the extent that the incidence of coronary heart disease in people who have recently quit smoking is similar to that of people who have not smoked for at least 2 years. It should also be mentioned that air polution in recent years has gained increasing recognition as a contributing modifiable risk factor in the urban communities. The mechanism is thought to be through the participation of combusion derived nanoparticles acting through proinflamatory or alternatively direct cardiac toxic pathways.
  • Novel risk factors: The established risk factors noted above successfully predict future cardiac events in about 50-60% of patients. In recent years, a concerted effort to identify and validate new markers of future risk of the clinical consequences of atherosclerosis has been made.
    • C-reactive protein: Baseline C-reactive protein (CRP) levels add to the predictive value of lipid parameters in determining the risk of first myocardial infarction in apparently healthy men and women without a history of coronary heart disease. Baseline CRP levels also were found to be predictive of symptomatic peripheral vascular disease in a cohort of healthy men. CRP reflects systemic inflammation, and these results support the hypothesis that chronic inflammation may play a role in the pathogenesis and progression of atherosclerosis. Standardization of the CRP assay is required before this test may be clinically useful, and whether this is a truly modifiable risk factor remains unclear. Some early evidence exists that risk factor modification, particularly the use of aspirin and the hydroxymethylglutaryl coenzyme A (HMG-CoA) reductase inhibitors, may reduce plaque inflammation.
    • Homocysteine: Homozygous hyperhomocystinemia is associated with extensive atherosclerosis at an early age. The inherited enzymatic abnormalities of homocysteine metabolism that result in such abnormal levels of the amino acid fortunately are very rare. However, approximately 5-7% of the general population have mild elevations of plasma homocysteine, and recent evidence has confirmed that mild hyperhomocystinemia is an independent risk factor for atherosclerosis. Of the risk for coronary artery disease in the general population, 10% has been estimated as being attributable to homocysteine. Atherogenesis due to hyperhomocystinemia likely is due to oxidative damage to the endothelium followed by platelet activation and thrombus formation. Treatment options for an elevated plasma homocysteine level include folic acid and, possibly, vitamin B-6. A number of clinical trials that will assess the efficacy of this intervention are underway.
    • Fibrinogen: Fibrinogen may be elevated in association with risk factors for atherosclerosis, including smoking, age, and diet; however, recent evidence suggests that elevated levels of fibrinogen are a strong independent predictor of future cardiovascular events in apparently healthy patients and patients with a prior history of cardiovascular disease. This association may be as strong as the established association between hypercholesterolemia and coronary heart disease.
    • Lipoprotein (a): Numerous studies have linked elevated plasma levels of lipoprotein (a), an LDL-like moiety that circulates in the blood attached to apolipoprotein (a), with the development of coronary artery disease. This complex shares structural domains with the fibrinolytic enzyme plasminogen and may render the molecule prothrombotic. The LDL-like moiety is susceptible to oxidation and may be particularly atherogenic. However, the results of prospective studies have been discordant and have not proven the relationship between elevated plasma levels of lipoprotein (a) and coronary artery disease inconclusively. Niacin is known to reduce plasma levels of lipoprotein (a), although whether this truly is a modifiable risk factor remains unclear.

Laboratory Studies

  • Lipid profile: Elevated LDL cholesterol is a risk factor for atherosclerotic vascular disease. High triglycerides are associated with low high-density lipoprotein (HDL) cholesterol and are a probable risk factor for vascular disease.
  • Blood glucose and hemoglobin A1c: Routine measurement of blood glucose and hemoglobulin A1c is appropriate in patients with diabetes mellitus. Measuring any number of parameters that may reflect inflammation, coagulation, fibrinolytic status, and platelet aggregability is possible. These measurements may prove to be valuable, but, at this time, how these measurements affect clinical decision-making is unclear, and including them in routine clinical practice is premature.

Imaging Studies

  • Ultrasonography aids in evaluating brachial artery reactivity and carotid artery intima-media thickness, which are measures of vessel wall function and anatomy, respectively. These evaluations remain research techniques at this time but hold promise as reliable noninvasive, and therefore repeatable, measures of disease and surrogate end-points for the evaluation of therapeutic interventions.
    • Brachial artery reactivity: The loss of endothelium-dependent vasodilation is a feature of even the early stages of atherosclerosis. The availability of high-resolution ultrasonographic systems makes the visualization and measurement of small peripheral conduit vessels, such as the human brachial artery, possible. Flow-mediated dilation of the brachial artery has been pioneered as a means of evaluating the health and integrity of the endothelium. The healthy endothelium dilates in response to an increase in blood flow, whereas vessels affected by atherosclerosis do not dilate and may paradoxically constrict.
    • Carotid artery intima-media thickness: B-mode ultrasonography of the common and internal carotid arteries is a noninvasive measure of arterial wall anatomy that may be performed repeatedly and reliably in asymptomatic individuals. The combined thickness of the intima and media of the carotid artery is associated with the prevalence of cardiovascular risk factors and disease and an increased risk of myocardial infarction and stroke. This association is at least as strong as the associations observed with traditional risk factors.

Other Tests
Coronary Angiography 
Coronary angiography, was the first available vivo assessment of the coronary arteries consisting of injection of an iodinated contrast agent through a catheter placed at the ostium of the coronaries. The contrast agent is then visualized through x-ray fluoroscopic examination of the heart. One of the limitations of coronary angiography is that only the vessel space occupied by blood is visualized. The actual extent of atherosclerotic plaque volume in the wall cannot be assessed with this technique.

Intravascular ultrasound (IVUS)
Intravascular ultrasound (IVUS) has long been considered the “gold standard” for the study of the anatomy of the vessel wall and is a catheter-based examination that provides images of the thickness and the acoustic density of the vessel wall. It can depict the presence of atherosclerotic plaques not visible with contrast coronary angiography and may reveal signs of recent disruption.

Computed Tomography 
Multidetector computed tomography (MDCT) technology can allow for excellent visualization of the coronary arteries but relatively high radiation dose is one of the limitations of this approach. However, newer generations of CT scanners may be able to reduce the required radiation exposure to make this technology more promising for screening asymptomatic patients.

Magnetic Resonance Imaging  
MRI can be used to noninvasively gain information about blood vessel wall structure and characterize plaque composition.

Scintigraphic Techniques  
Nuclear perfusion imaging is performed with the use of single-photon emission computed tomography (SPECT) or positron emission tomography (PET) which relies on administration of radionuclide isotope that is accumulated by the targeted tissue.

Medical Care
The prevention and treatment of atherosclerosis requires control of the known modifiable risk factors for this disease. This includes the medical treatment of hypertension, hyperlipidemia, diabetes mellitus, and cigarette habituation.

  • Hypertension
    • Hypertension is a risk factor for the development of atherosclerosis, atherosclerotic cardiovascular disease, and stroke. The mechanism by which hypertension causes these effects is not known, and some uncertainty exists as to what the primary and secondary factors are in a typically multifactorial syndrome. These factors may include hyperlipidemia, hypertension, diabetes mellitus, obesity, and physical inactivity.
    • Dietary and pharmacological treatment of hypertension is associated with a decreased incidence of stroke and, to a lesser degree, atherosclerotic cardiovascular disease.
  • Hyperlipidemia
    • Convincing evidence that lowering serum cholesterol reduces the risk of subsequent coronary heart disease events and overall mortality exists.
    • The HMG-CoA reductase inhibitors inhibit the rate-limiting step of cholesterol synthesis in the liver. HMG-CoA reductase inhibitors are effective in lowering the serum total cholesterol, LDL cholesterol, and triglyceride levels and in raising the serum HDL cholesterol level, and they have a low incidence of adverse effects, the most common being hepatotoxicity and myopathy.
    • The success of the HMG-CoA reductase inhibitors in reducing circulating lipid levels and improving the clinical and anatomic course of atherosclerosis has focused attention on the management of hyperlipidemia. In addition, an important role remains for other hypolipidemic agents that may be of particular benefit for patients with refractory LDL hypercholesterolemia, hypertriglyceridemia, low HDL cholesterol, and elevated lipoprotein (a).
  • Secondary prevention of coronary artery disease
    • The Scandinavian Simvastatin Survival Study (4S) examined the effects of simvastatin on mortality in 4444 patients with established coronary heart disease and elevated total serum cholesterol. A statistically significant 29% reduction in the overall mortality rate (8.2% versus 11.5%) and a 42% reduction in the cardiac mortality rate (5% versus 8.5%) occurred after an average of 5.4 years of follow-up.
    • The Cholesterol and Recurrent Events (CARE) study examined the effects of pravastatin on mortality rates and cardiac events in 1159 patients with established coronary heart disease and serum cholesterol concentrations that are within the reference range or are mildly elevated. A statistically significant 24% reduction in the incidence of fatal coronary heart disease or nonfatal myocardial infarction (9.9% versus 12.9%) occurred after an average of 5 years of follow-up. A lower total mortality rate (8.6% versus 9.4%) and coronary heart disease mortality rate (4.6% versus 5.7%) occurred in patients receiving pravastatin, although the results were not statistically significant.
    • The Long-Term Intervention with Pravastatin in Ischaemic Disease (LIPID) trial examined the effects of 40 mg of pravastatin on the incidence of coronary events over a period of 6.1 years in 9014 patients with known coronary heart disease and a broad range of initial cholesterol levels. The following relative risk reductions occurred: 24% for death from coronary heart disease (P <0.001), 22% for the overall mortality rate (P <0.001), 29% for all cardiovascular outcomes (P <0.001), and 19% for stroke (P = 0.048). The effects were similar for all predefined subgroups.
  • Primary prevention of coronary artery disease
    • The West of Scotland Coronary Prevention Study (WOSCOPS) examined the effects of pravastatin on the incidence of nonfatal myocardial infarction and coronary mortality rates in 6595 men with moderate hypercholesterolemia and no prior history of coronary heart disease. A statistically significant 29% reduction in nonfatal myocardial infarction (4.6% versus 6.5%) and a 30% reduction in death from all cardiovascular causes (1.6% versus 2.3%) occurred after an average of 4.9 years of follow-up.
    • The Air Force/Texas Coronary Atherosclerosis Prevention Study (AFCAPS/TexCAPS) examined the effects of lovastatin on the incidence of a first major coronary event in 5608 men and 997 women with average total cholesterol and LDL cholesterol and below-average HDL cholesterol levels. A statistically significant 37% reduction in the incidence of the first major coronary event (4% versus 6.8%) occurred after an average of 5.2 years.
  • Therapy with lipid-lowering agents should be a component of multiple risk factor intervention and only is indicated as an adjunct to diet therapy when the response to a diet restricted in saturated fat and cholesterol has been inadequate. The NCEP guidelines recommend aggressive lipid-lowering therapy for patients at high risk for coronary heart disease. More than 50 million individuals in the United States are candidates for some form of dietary and/or pharmacological intervention to modify their lipid profile. Pharmacoeconomic studies of implementation of the NCEP guidelines confirm the cost-effectiveness of primary and secondary prevention. Evidence exists that physicians are poorly compliant with these guidelines.
  • For patients with diabetes mellitus, strict control of comorbid risk factors is especially important, and ample evidence exists that this reduces the incidence of the clinical complications of microvascular and macrovascular disease.
    • Cholesterol lowering with the HMG-CoA reductase inhibitors has yielded important reductions in coronary heart disease events in patients with diabetes mellitus.
    • The benefit of strict glycemic control in the prevention of macrovascular disease has been difficult to confirm, although this intuitively is beneficial and is known to retard the progression of microvascular disease.
  • Cigarette habituation: The risks of cigarette smoking are reduced rapidly and significantly with smoking cessation. The relative risk is so significant that the incidence of coronary heart disease in people who have recently quit smoking is similar to that of people who have not smoked within 2 years.

Diet

  • The primary treatment of LDL hypercholesterolemia is dietary and includes restriction of caloric intake, saturated fats, and cholesterol. The NCEP and the American Heart Association (AHA) made specific recommendations for dietary therapy for coronary heart disease prevention. The recommended daily intake of nutrients is described by the step I and step II diets and is appropriately tailored to the level of coronary heart disease risk.
  • Moderate alcohol intake is associated with a reduced incidence of coronary heart disease events. The mechanism(s) of this benefit is not well understood. Heavy alcohol intake probably is associated with an increased incidence of coronary heart disease events, as well as cardiomyopathy and arrhythmia and obviously should be discouraged.
  • Sinha et al concluded that high intakes of red or processed meat were associated with modest increases in total mortality, cancer mortality, and cardiovascular disease mortality. The baseline population was a cohort of half a million people aged 50-71 years from the National Institutes of Health-AARP (formerly known as the American Association of Retired Persons) Diet and Health Study.51

Activity
Physical inactivity is a minor modifiable risk factor for coronary heart disease, and regular exercise has been shown to reduce the risk of coronary heart disease in a number of observational epidemiological studies. The mechanisms for this apparent benefit may include an increase in HDL cholesterol and a decrease in body weight, insulin resistance, and blood pressure. The optimal intensity and duration of exercise is not known; however, 20-30 minutes of aerobic exercise of mild-to-moderate intensity (including walking) 3 times per week probably is appropriate.

Medication
Prevention and treatment of atherosclerosis requires risk factor control, including the medical treatment of hypertension, diabetes mellitus, and cigarette habituation.

Advances in the understanding of the vascular biology of atherosclerosis raises the possibility of novel therapies that may address more directly the various aspects of endothelial dysfunction and the role of endothelial dysfunction in atherogenesis. Potential cellular targets include vascular smooth muscle cells, monocyte/macrophage cell lines, platelets, and endothelial cells. Evidence exists that antiplatelet agents, antioxidant therapies, amino acid supplementation, angiotensin-converting enzyme inhibitors, and angiotensin receptor blockers may prove to prevent or slow the progression of the disease.

Combination therapy in the future may allow for even greater achievement of greater LDL-C lowering with associated cardiovascular benefit. However, one such drug Vytorin which combines a new class of lipid lowering drug Ezetimibe (decreases small intestinal absorption of cholesterol) with Simvastatin, has shown no incremental benefit on cardiovascular morbidity and mortality over and above that demonstrated for simvastatin alone.

HMG-CoA reductase inhibitors
These agents are competitive inhibitors of 3-hydroxy-3-methyl Co-A reductase, an enzyme that catalyzes the rate-limiting step in cholesterol biosynthesis, resulting in up-regulation of LDL receptors in response to the decrease in intracellular cholesterol. The HMG-CoA reductase inhibitors are indicated for the secondary prevention of cardiovascular events and for the treatment of hypercholesterolemia and mixed dyslipidemia.
A number of HMG-CoA reductase inhibitors are indicated for patients with homozygous familial hypercholesterolemia as an adjunct to other lipid-lowering treatments. However, these agents may be less effective in patients with rare homozygous familial hypercholesterolemia, possibly because these patients are lacking functional LDL receptors, making it more likely to raise serum transaminases.

  • The prognosis of atherosclerosis depends on a number of factors, including systemic burden of disease, the vascular bed(s) involved, and the degree of flow limitation. Wide variability exists, and clinicians appreciate that many patients with critical limitation of flow to vital organs may survive many years, despite a heavy burden of disease. Conversely, myocardial infarction or sudden cardiac death may be the first clinical manifestation of atherosclerotic cardiovascular disease in a patient who is otherwise asymptomatic with minimal luminal stenosis and a light burden of disease.
  • Much of this phenotypic variability is likely to be determined by the relative stability of the vascular plaque burden. Plaque rupture and exposure of the thrombogenic lipid core are critical events in the expression of this disease process and determine the prognosis. The ability to determine and quantify risk and prognosis in patients with atherosclerosis is limited by the inability to objectively measure plaque stability and other predictors of clinical events.
  • The most effective and probably the most cost-efficient means of reducing the burden of disease secondary to atherosclerosis in the general population is primary prevention. The role of diet and exercise in the prevention of atherosclerotic cardiovascular disease has been well established. Education of the general population regarding healthy dietary habits and regular exercise will reduce the prevalence of multiple coronary heart disease risk factors. Medical therapies aimed at improving blood pressure control and various lipid parameters are appropriate for the prevention of first coronary heart disease events, if these risk factors are refractory to lifestyle interventions.
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