A stroke (syn. Cerebral Vascular Accident or "CVA") is a sudden, focal, neurological deficit or loss of brain function. Most stroke experts prefer the term "stroke" to "CVA", but both are used commonly to refer to this acquired neurological disorder.
A Stroke can be due to ischaemia or due to haemorrhage, ishcaemia being more common. The common effect of all strokes is damage to brain cells. This can be transient or permanent. Strokes have many different clinical presentations.
The term "brain attack" has been advocated for use in the United States for stroke, just as the term "heart attack" is used for myocardial infarction. Many hospitals have multidisciplinary "stroke teams" specifically for swift treatment of stroke.
Approximately 700,000 Americans per year experience a stroke. It is the third leading cause of death and the leading cause of long-term adult disability in the United States. On average, a stroke occurs every 45 seconds and someone dies from a stroke every 3 minutes.
Risk factors for stroke include atherosclerosis, advanced age, hypertension (high blood pressure), diabetes mellitus, high cholesterol, cigarette smoking, atrial fibrillation, ethnic identity, and some blood clotting disorders.
Strokes can be classified as ischemic or hemorrhagic. In ischemic strokes, all or part of the brain is deprived of blood and oxygen, usually through the blockage of an artery. In hemorrhagic strokes, loss of blood supply plays a part, but the initial event is bleeding into the brain causing increased pressure on the brain, and irritation to brain tissue.
- Ischemic strokes make up about 87% of all strokes and can be due to occlusion or an artery by a thrombus or by generalized low blood flow (hypoperfusion). Lacunae, or small vessel ischemic strokes, are responsible for about 20% of all strokes and are common in hypertension and diabetes mellitus. Atherosclerosis is responsible for the majority of ischemic strokes. The etiology of atherosclerosis-related strokes is very similar to that of heart attacks. An atherosclerotic plaque in a cerebral artery can gradually develop an associated thrombus or rupture suddenly causing a rapid occlusion, or the thrombus can break off and lodge in a vessel even deeper in the brain. "Thrombotic stroke" usually refers to in-situ thrombus, "embolic stroke" to thrombi that travel from distant sites.
Thrombotic and thromboembolic strokes can originate in either large or small blood vessels, and are usually due to abnormalities in the vessel (most commonly atherosclerosis). Atheroembolism can occur within the cerebral circulation or can originate outside the cerebral circulation. One of the most important etiologies is carotid artery disease. Lacunae are also a subset of thrombotic stroke.
Embolism of thrombi from outside the cerebral circulation are responsible for a large and important subset of ischemic strokes. In these cases a thrombus (blood clot) travels from its origin and lodges in a cerebral artery. Most of these strokes are of cardiac origin (Cardioembolic).
- Atrial fibrillation: The majority of embolic strokes originating in the heart are due to atrial fibrillation. In fact, about 16% of strokes are associated with atrial fibrillation, and the presence of atrial fibrillation increases stroke risk by about 5-11% per year, depending on other risk factors. The relative stasis of blood in the left atrium leads to blood clot formation, and these clots can be expelled from the heart to enter the cerebral circulation.
- Mural thrombi: anything that causes blood flow in the heart to slow can cause thrombus formation. This includes thrombi formed in the atrial appendage and thrombi formed in the left ventricle in patients with heart failure.
- Valvular heart disease: this includes rheumatic heart disease, infective endocarditis, and presence of a prosthetic heart valve.
- Paradoxical embolism: this occurs primarily when a deep venous thrombosis (DVT) in the leg breaks off, passing through a patent foramen ovale (PFO) into the left ventricle, and then to the brain.
Systemic hypoperfusion (Watershed stroke)Edit
Systemic hypoperfusion is the reduction of blood flow to all parts of the body. It is most commonly due to various types of shock. Hypoxemia (low blood oxygen content) may precipitate the hypoperfusion. Because the reduction in blood flow is global, all parts of the brain may be affected, especially "watershed" areas --- border zone regions supplied by the major cerebral arteries. Blood flow to these areas does not necessarily stop, but instead it may lessen to the point where brain damage can occur.
A hemorrhagic stroke, is a form of stroke that occurs when a blood vessel in the brain ruptures or bleeds. There are two types of hemorrhagic stroke: intracerebral hemorrhage, and subarachnoid hemorrhage (SAH). Traumatic hemorrhage, including epidural hemorrhage, subdural hemorrhage, and some SAH are usually considered separately.
- Hemorrhagic strokes are usually classed as either intracerebral hemorrhage or subarachnoid hemorrhage. Uncontrolled hypertension is a leading cause of hemorrhagic stroke. Weaknesses in brain arteries, (for example, aneurysms) can cause hemorrhagic strokes even when the pressure of the blood inside the arteries is not excessive. Because the brain is enclosed within a rigid structure (the skull), even a small amount of bleeding can cause a dramatic increase in pressure on the brain. This can lead to herniation, in which part of the brain is compressed through the base of the skull, causing rapid coma and death.
Intracerebral hemorrhage (ICH) is bleeding directly into the brain tissue, forming a gradually enlarging hematoma (pool of blood). It generally occurs in small arteries or arterioles and is commonly due to hypertension, trauma, and vascular malformations. The hematoma enlarges until pressure from surrounding tissue limits its growth, or until it decompresses by emptying into the ventricular system. ICH has a mortality rate of 44 percent after 30 days, higher than ischemic stroke or even the very deadly subarachnoid hemorrhage.
Subarachnoid hemorrhage (SAH) is bleeding into the cerebrospinal fluid (CSF) surrounding the brain. The two most common causes of SAH are rupture of aneurysms and bleeding from vascular malformations. Bleeding into the CSF from a ruptured aneurysm occurs very quickly, causing rapidly increased intracranial pressure. The initial bleed can be brief, but rebleeding is common. Death or deep coma ensues if the bleeding continues. SAH has a 37-45% mortality for patients 45 and older.Cerebral aneurysms can be associated with other disorders, such as adult polycystic kidney disease.
Many factors are generally agreed to cause a higher risk for a stroke.
- Previous stroke
- Atherosclerosis: many of the risk factors listed below are also risk factors for atherosclerosis. Other marker for atherosclerosis include peripheral artery disease and coronary artery disease.
- Hypertension is the most powerful risk factor for ischemic stroke, and the primary risk factor for intracerebral hemorrhagic stroke. 
- Smoking: cigarette smoking significantly increases stroke risk, and the risk is dependent on the amount of smoking. Cigar and pipe smoke also increase stroke risk but to a lesser degree.
- Transient Ischemic Attack: Occurrence of TIA is a strong risk factor for stroke. In one study, 5% of patients with TIA developed stroke within 2 days, 10% within 90 days. TIA should be considered a medical emergency; rapid response reduces the risk of stroke.
- Atrial Fibrillation (AF): The average yearly risk for stroke in untreated AF is 5%, but can be as high as 12%.
- Diabetes mellitus: Diabetes is a major stroke risk.
- Age: the risk of stroke in adults increases significantly over the age of 55, and continues to increase thereafter.
- Ethnicity: African Americans have twice the risk of a first stroke as whites.
- Carotid stenosis (asymptomatic)
- Cocaine: cocaine use is a significant risk for stroke and heart attack.
- Blood disorders (e.g. sickle-cell disease, anti-cardiolipin syndrome)
- Estrogen: recent studies have reported a small but significant increase in stroke risk in women receiving hormone replacement therapy (HRT). In one large study, it was reported that there was an approximate 37% increased risk for all types of strokes (95% confidence interval 9% to 73%). The observed risk for hemorrhagic stroke may have been reduced (64%) for estrogen-treated women, but the observed reduction was judged to be non-significant at the 95% confidence level. For ischemic stroke, estrogen-treated women had an observed 55% increased risk (95% confidence interval 19% to 101%). This equates to approximately 12 additional strokes per 10,000 person-years.. The statistical significance of the reported increase in stroke risk has been disputed. Oral contraceptive pills (OCPs) may confer some risk, especially when combined with other risks such as smoking, however the risk from the currently used low-dose OCPs is quite low.
- Pregnancy: there is a small but significant increase in stroke risk during, and just after pregnancy.
The symptoms of stroke depend on what part of the brain is affected. A friend or family member may be the first to notice. Symptoms can include:
- Sudden numbness or weakness of the face, arm, or leg, especially one-sided
- Sudden confusion, trouble speaking, or trouble understanding
- Sudden trouble walking, dizziness, or loss of balance or coordination
- Sudden trouble seeing in 1 or both eyes
- Sudden severe headache
- Difficulty swallowing or drooling
A stroke is diagnosed first by a medical professional taking a proper history and physical exam. Addtional tests include:
- Computed tomography (CT) scan
- Magnetic resonance imaging (MRI)
- Cerebral angiography
Stroke is a medical emergency. Permanent neurologic damage or death can sometimes be avoided, but only if stroke is promptly diagnosed and treated.
Presentation to a specialized stroke center within 3 hours of the start of symptoms may allow for the reversal of the stroke by adminstration by clot-disolving medications, or thrombolytics. Tissue Plasminogen Activator (tPA) is the usual agent. Studies have shown that tPA given within 6 hours of the onset of stroke symptoms significantly reduces death and dependency, but there is a significant risk of bleeding, especially intracranial hemorrhage. If given within 3 hours, outcomes are improved, and risk is reduced.
Prevention of stroke involves reducing modifiable risk factors, and falls broadly into two categories: prevention of first stroke (primary prevention), and prevention of further strokes (secondary prevention). Also, some risk factors are modifiable (e.g. smoking), and some are not (e.g. age). Prevention, especially secondary prevention, involves certain medications.
Risk factor reductionEdit
- Keeping blood pressure below 120/80 reduces the risk of both primary and recurrent stroke, although in the elderly, lower blood pressures might increase the risk of myocardial infarction.
- Quitting smoking decreases risk significantly 2 years after quitting cigarettes.
- Transient ischemic attack (TIA) is a brief period of stroke symptoms, and is a warning sign of impending stroke. Seeking emergency medical attention reduces the risk of stroke after TIA.
- The risk of stroke due to atrial fibrillation can be significantly reduced with the use of oral anticoagulants (i.e. warfarin).
- Diabetes is a major stroke risk factor. The role of good blood sugar control in the prevention of stroke in diabetics is still being investigated. Aggressive treatment of cholesterol and blood pressure in diabetics is essential. Certain medications help prevent strokes in diabetics.
- High Cholesterol: treatment of high cholesterol and other blood lipid disorders reduces the rate of first stroke and recurrent stroke. 
- HMG-CoA reductase inhibitors (Statins)
- Angiogensin converting enzyme (ACE) inhibitors
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