Stroke Symptoms and Treatment

Medically Reviewed on 11/8/2023

What is a stroke?

Stroke causes, treatment, prevention, symptoms, signs of a stroke, and types stroke
A stroke occurs when part of the brain loses its blood supply and stops working.

A stroke, also known as a cerebrovascular accident or CVA, is when part of the brain loses its blood supply and the part of the body the blood-deprived brain cells control, stops working. This loss of blood supply can be ischemic because of lack of blood flow, or hemorrhagic because of bleeding into brain tissue.

A stroke is a medical emergency because strokes can lead to death or permanent disability. There are opportunities to treat ischemic strokes, but treatment needs to be started in the first few hours after the signs of a stroke begin. The patient, family, or bystanders, should call 9-1-1 and activate emergency medical services immediately should a stroke be suspected.

A transient ischemic attack (TIA or mini-stroke) describes an ischemic stroke that is short-lived where the symptoms resolve spontaneously. This situation also requires emergency assessment to try to minimize the risk of a future stroke. By definition, a stroke would be classified as a TIA if all symptoms resolved within 24 hours.

What causes a stroke?

Thrombotic stroke

The blockage of an artery in the brain by a clot (thrombosis) is the most common cause of a stroke. The part of the brain supplied by the clotted blood vessel is then deprived of blood and oxygen, and as a result, the cells of that part of the brain die, and the part of the body that it controls stops working. Typically, a cholesterol plaque in one of the brain's small blood vessels ruptures and starts the clotting process.

Risk factors for narrowed blood vessels in the brain are the same as those that cause narrowing blood vessels in the heart and heart attack (myocardial infarction). These risk factors include:

Embolic stroke

Another type of stroke may occur when a blood clot or a piece of atherosclerotic plaque (cholesterol and calcium deposits on the wall of the inside of the heart or artery) breaks loose, travels through the bloodstream, and lodges in an artery in the brain.

When blood flow stops, brain cells do not receive the oxygen and glucose they require to function and a stroke occurs. This type of stroke is referred to as an embolic stroke. For example, a blood clot might originally form in the heart chamber as a result of an irregular heart rhythm, like atrial fibrillation (AFib). Usually, these clots remain attached to the inner lining of the heart, but occasionally they can break off, travel through the bloodstream (embolize), block a brain artery, and cause a stroke.

An embolism, either plaque or clot, may also originate in a large artery (for example, the carotid artery, a major artery in the neck that supplies blood to the brain) and then travel downstream to clog a small artery within the brain.

Cerebral hemorrhage

A cerebral hemorrhage (bleeding in the brain) occurs when a blood vessel in the brain ruptures and bleeds into the surrounding brain tissue. A cerebral hemorrhage causes stroke symptoms by depriving blood and oxygen to parts of the brain in a variety of ways. Blood flow is lost to some cells. Additionally, blood is very irritating and can cause swelling of brain tissue (cerebral edema).

Edema and the accumulation of blood from a cerebral hemorrhage increases pressure within the skull and causes additional damage by squeezing the brain against the bony skull, which further decreases blood flow to brain tissue and its cells.

Subarachnoid hemorrhage

In a subarachnoid hemorrhage, blood accumulates in the space beneath the arachnoid membrane that lines the brain. The blood originates from an abnormal blood vessel that leaks or ruptures. Often this is from an aneurysm (an abnormal ballooning out of the blood vessel).

Subarachnoid hemorrhages usually cause a sudden severe headache ("worst headache of your life"), nausea, vomiting, light intolerance, and stiff neck. If not recognized and treated, major neurological consequences, such as coma, and brain death may occur.

Vasculitis

Another rare cause of stroke is vasculitis, a condition in which the blood vessels become inflamed causing decreased blood flow to parts of the brain.

Migraine headache

There appears to be a very slight increased occurrence of stroke in people with migraine headaches. The mechanism for migraine or vascular headaches includes narrowing of the brain blood vessels. Some migraine headache episodes can even mimic stroke with loss of function of one side of the body, or vision or speech problems. Usually, the symptoms resolve as the migraine headache resolves.

QUESTION

What is a stroke? See Answer

What are the risk factors for a stroke?

The most common risk factors for stroke are:

  • high blood pressure (hypertension),
  • high cholesterol,
  • smoking,
  • diabetes, and
  • increasing age.

Heart conditions like atrial fibrillation, patent foramen ovale (hole in the heart), and heart valve disease can also be a potential cause of stroke.

When a stroke occurs in younger individuals (less than 50 years old), less common risk include illicit drugs, such as cocaine or amphetamines, ruptured aneurysms, and inherited (genetic) predispositions to abnormal blood clotting.

An example of a genetic predisposition to stroke occurs in a rare condition called homocystinuria, in which there are excessive levels of the chemical homocystine in the body. Scientists are trying to determine whether the non-hereditary occurrence of high levels of homocystine at any age can cause a predisposition to stroke.

What are the types of stroke?

Strokes are usually classified by what mechanism caused the loss of the blood supply, either ischemic or hemorrhagic. A stroke may also be described by what part of the brain was affected (for example, a right temporal stroke) and what part of the body stopped working (stroke affecting the left arm).

What is the difference between ischemic stroke and hemorrhagic stroke?

Ischemic stroke

An ischemic stroke is caused by an artery in the brain being obstructed or blocked, preventing oxygen-rich blood from being delivered to brain cells. The artery can be blocked in a couple of ways. In a thrombotic stroke, an artery can narrow over time because of cholesterol buildup, called plaque. If that plaque ruptures, a clot is formed at the site and prevents blood from passing to brain cells downstream, which are then deprived of oxygen.

In an embolic stroke, the artery is blocked because of debris or a clot that travels from the heart or another blood vessel. An embolus or embolism is a clot, a piece of fatty material, or another object that travels within the bloodstream that lodges in a blood vessel to cause an obstruction.

Blood clots that embolize usually arise from the heart. The most common cause of these blood clots is a heart arrhythmia called atrial fibrillation (AFib), where the upper chambers of the heart, the atria, do not beat in an organized rhythm. Instead, the chaotic electrical rhythm causes the atria to jiggle like a bowl of Jell-O. While blood still flows to the ventricles (the heart's lower chambers) to be pumped to the body, some blood along the inner walls of the atrium can form small blood clots. If a clot breaks off, it can travel or embolize to the brain, where it can block blood flow to a part of the brain and cause a stroke.

The carotid arteries are two large blood vessels that provide the brain with blood supply. These arteries can narrow, or develop stenosis, with cholesterol plaque that may build up over time. The surface of the plaque is irregular and bits of debris can break off and embolize to the brain to block blood vessels downstream and deprive brain cells of oxygen-rich blood.

Hemorrhagic stroke

When a blood vessel leaks and spills blood into brain tissue, those brain cells stop working. The bleeding or hemorrhage is often due to poorly controlled high blood pressure that weakens the wall of an artery over time. Blood may also leak from an aneurysm, a congenital weakness or ballooning of an artery wall, or from an AVM (arteriovenous malformation), a congenital abnormality where an artery and vein connect incorrectly. The bleeding can form a hematoma that directly damages brain cells and may also cause swelling that puts further pressure on surrounding brain tissue.

Can a person survive a hemorrhagic stroke?

Surviving a hemorrhagic stroke depends on the severity of the stroke and how fast the person is able to get treatment. Unfortunately, the majority of people who have a hemorrhagic stroke die within a couple of days. About a quarter of survivors are able to live longer than five years, but the recovery process is long and slow.

Describing a stroke by anatomy and symptoms

Four major arteries supply the brain with blood.

  • The right and left carotid arteries are located in the front of the neck and their pulse can be felt with the fingers.
  • The right and left vertebral arteries are encased in the bone as they run through the vertebrae in the neck. As the two enter the brain, they join to form the basilar artery.
  • The carotid arteries and the vertebrobasilar arteries join to form the Circle of Willis at the base of the brain and from this circle, arteries branch off to supply the brain with blood.

The left side of the brain controls the right side of the body and vice versa. Speech tends to be located in the dominant hemisphere, most often the left brain.

The anterior and middle cerebral arteries provide blood supply to the front two-thirds of the brain, including the frontal, parietal, and temporal lobes. These parts of the brain control voluntary body movement, sensation, speech and thought, personality, and behavior.

The vertebral and basilar arteries are considered the posterior circulation and supply the occipital lobe where vision is located, the cerebellum that controls coordination and balance, and the brainstem that is responsible for the unconscious brain functions that include blood pressure, breathing, and wakefulness.

Picture of brain anatomy.
Picture of brain anatomy.

Strokes may be described based upon the function of the body that is lost and by the area of the brain that is affected. Most commonly in strokes that involve the brain, the symptoms involve either the right or left side of the body. In strokes that affect the brainstem or the spinal cord, symptoms may present on both sides of the body.

Strokes may affect the motor function or the ability of the body to move. Part of the body may be affected, such as the face, a hand, or an arm. An entire side of the body may be affected (for example, the left part of the face, left arm, and left leg). Weakness on one side of the body is called hemiparesis (hemi = half + paresis = weak) and paralysis is hemiplegia (hemi = half + plegia = paralysis).

Similarly, sensory function -- the ability to feel -- can affect the face, hand, arm, trunk, or a combination of these.

Other symptoms such as speech, vision, balance, and coordination help locate the part of the brain that has stopped working and help the health care professional make the clinical diagnosis of stroke. This is an important concept since not all loss of neurologic function is due to stroke and if the anatomy and physiology do not match the loss of body function, other diagnoses may be considered that can affect both brain and body.

A lacunar stroke describes the blockage of a single tiny penetrating artery branch in the brain. The area of the involved brain is small but can still cause significant neurologic deficits, just like a stroke involving a larger blood vessel and more brain tissue. In some cases, however, the stroke is “silent,” meaning no obvious body function is lost and an old lacunar stroke can be seen as an incidental finding on a CT or MRI scan of the head that might be done for other reasons. The term lacune means space and a tiny space of an old lacunar stroke can be seen on imaging where brain tissue has been lost.

What is a transient ischemic attack (TIA) or mini-stroke?

A transient ischemic attack (TIA, mini-stroke) is a short-lived stroke (less than 24 hours) of temporary impairment of brain function that is caused by a loss of blood supply that gets better and resolves spontaneously. A TIA causes a loss of function in the area of the body controlled by the portion of the brain affected.

The loss of blood supply to the brain is most often caused by a clot that spontaneously forms in a blood vessel within the brain (thrombosis). However, it can also result from a clot that forms elsewhere in the body, dislodges from that location, and travels to lodge in an artery of the brain (emboli). Arterial spasms and, rarely, a bleed into brain tissue are other causes of a TIA. Many people refer to a TIA as a "mini-stroke."

Some TIAs develop slowly, while others develop rapidly. By definition, all TIAs resolve within 24 hours. Strokes take longer to resolve than TIAs, and with strokes, the complete function may never return and reflect a more permanent and serious problem. Although most TIAs often last only a few minutes, all TIAs should be evaluated with the same urgency as a stroke to prevent recurrences and/or strokes. TIAs can occur once, multiple times, or precede a permanent stroke.

A transient ischemic attack should be considered an emergency because there is no guarantee the situation will resolve itself and function will return spontaneously without medical intervention.

A TIA from a clot in the blood vessel that supplies the retina of the eye can cause temporary visual loss (amaurosis fugax), which is often described as the sensation of a black, dark curtain coming down. A TIA that involves the carotid artery (the largest blood vessel supplying the brain) can produce problems with movement or sensation on one side of the body, which is the side opposite to the actual blockage.

An affected patient may experience temporary double vision; dizziness (vertigo); loss of balance; one-sided weakness or complete paralysis of the arm, leg, face, or one whole side of the body; or be unable to speak or understand commands.

Subscribe to MedicineNet's Heart Health Newsletter

By clicking "Submit," I agree to the MedicineNet Terms and Conditions and Privacy Policy. I also agree to receive emails from MedicineNet and I understand that I may opt out of MedicineNet subscriptions at any time.

What are the warning signs of a stroke?

There may be no warning signs of a stroke until it occurs. It is why high blood pressure (hypertension), one of the risk factors for stroke, is called the silent killer.

Some patients may experience transient ischemic attack (TIA) that can be thought of as a stroke that has resolved itself. The symptoms may be mild or dramatic and can mimic a stroke with weakness, numbness, facial droop, and speech difficulties, but these symptoms may only last a few minutes. TIAs should not be ignored since they may offer an opportunity to look for potentially reversible or controllable causes of stroke. As well, there is no guarantee the symptoms of stroke will resolve on their own. For that reason, a TIA should be considered an emergency and medical care should be accessed immediately.

Amaurosis fugax describes the temporary loss of vision in one eye that occurs because of an embolus of blood clot or debris to the artery that supplies the eye. While it only involves vision, this situation should be considered a type of TIA.

What are the signs and symptoms of a stroke?

Symptoms of stroke depend upon what area of the brain has stopped working due to the loss of blood supply. Often, the patient may present with multiple symptoms such as:

  • Acute change in the level of consciousness or confusion
  • Acute onset of weakness or paralysis of half or part of the body
  • Numbness of one half or part of the body
  • Partial vision loss
  • Double vision
  • Difficulty speaking or understanding speech
  • Difficulty with balance and vertigo
  • Dizziness

The symptoms of ischemic and hemorrhagic stroke may be the same, but patients with hemorrhagic stroke may also complain more of headache and vomiting.

Diagnosis of a stroke

Stroke care involves many health care professionals as the patient travels through the care process.

Care for a stroke patient may begin with prehospital providers (first responders, EMTs, paramedics) who recognize stroke symptoms and activate a stroke response.

Emergency physicians begin the evaluation and may help decide to administer blood thinners. Neurologists, neurosurgeons, interventional radiologists may also be involved in the decision to treat the stroke patient with blood thinners or clot retrieval if the latter is an option at the hospital.

Critical care specialists help stabilize the patient after blood thinners are given. Patients who are not candidates for blood thinners are often admitted to a hospitalist.

Rehabilitation physicians, physical therapists, and occupational therapists are involved after the acute event has resolved.

Finally, the primary care provider would look after the patient long-term.

Time is of the essence since the longer a stroke remains unrecognized and untreated, the longer brain cells are deprived of oxygen-rich blood and the greater number of brain cells that die and cannot be replaced.

  • The American Heart Association and the American Stroke Association recommend that everybody be aware of FAST in recognizing stroke: Face Drooping, Arm Weakness, Speech Difficulty, Time to Call 9-1-1
  • First responders, EMTs, and paramedics may use the Cincinnati Prehospital Stroke Scale to recognize a stroke and alert the emergency department to prepare for their arrival. This scale addresses the same three components as the FAST: speech, arm strength, and speech.
  • In the emergency department, nurses and doctors may use the National Institute of Health Stroke Scale to perform a more in-depth and standardized neurologic examination.

The clinical diagnosis of stroke is usually made after the healthcare professional performs a history and physical examination. While speed is important in making the diagnosis, it is also important to learn about the circumstances that brought the patient to be seen. For example, the patient just started slurring words about an hour ago versus the patient who has been slurring his words since last evening.

There is an urgency to make the diagnosis and determine whether treatment with thrombolytic medications (clot-busting drugs or blood thinners) to “reverse” the stroke is a possibility. The time frame to intervene is narrow and may be as short as 3 to 4 ½ hours after the onset of symptoms. For that reason, family members or bystanders may be needed to confirm information, especially if the patient is not fully awake or has a speech deficit.

History may include asking about what symptoms are present when they began, and if they are improving, progressing, or remaining the same. The past medical history will look for stroke risk factors, medications, allergies, and any recent illnesses or surgeries. Medication history is very important, especially when the patient is taking anticoagulants (examples include warfarin [Coumadin], dabigatrin [Pradaxa], rixaroxiban [Xarelto], apixaban [Eliquis], enoxaparin [Lovenox]).

Physical examination includes assessing vital signs and patient wakefulness. A neurologic examination is performed, usually using the standardized stroke scale. Heart, lungs, and abdomen are also assessed.

If an acute stroke is still a consideration, blood tests and CT of the head is indicated. However, the tests are not used to make the diagnosis but are used to help plan treatment. Nonetheless, a CT is often used to differentiate an ischemic from a hemorrhagic stroke because the treatment plans are quite different.

The CT is used to look for bleeding or masses in the brain and potentially how much brain tissue is experiencing decreased blood supply.

A CT perfusion scan may also be done to see how much brain is at risk by using an injected dye to check brain blood supply (perfusion).

An MRI of the brain may be possibly indicated, but not all hospitals have this technology readily available.

Blood tests may include a complete blood count (CBC), to measure red blood cell count and platelets, electrolytes, blood glucose, and kidney function and blood tests to measure blood clotting function, international normalized ratio (INR), prothrombin time (PT), and partial thromboplastin time (PTT). Other blood tests may be indicated based upon the patient's specific situation.

An EKG may be performed to check the heart's rate and rhythm. The patient is usually placed on a cardiac monitor.

What is the NIH Stroke Scale?

Not all strokes affect the brain equally, and stroke symptoms and signs depend upon the part of the brain affected.

  • For example, most people’s speech center is located in the left half of the brain so a stroke affecting the left side of the brain would affect speech and comprehension. It also would be associated with weakness of the right side of the body.
  • A right-brain stroke would make the left side of the body weak. And depending on where in the brain the injury occurred, the weakness could be the face, arm, leg, or a combination of the three.

The NIH Stroke Scale tries to score how severe a stroke might be. It also monitors whether the person's stroke is improving or worsening as time passes as the patient is re-examined.

11 categories are scored and include whether the patient is awake; can follow commands; can see; can move the face, arms, and legs; has normal body sensations or feelings; has speech difficulties; and has coordination problems.

What is the treatment for a stroke?

A stroke is a medical emergency, but prompt intervention can restore blood supply to the brain if stroke patients receive medical care early enough.

As in many emergencies, the first consideration is the CABs (Circulation, Airway, and Breathing, according to the new CPR guidelines) to make certain that the patient has blood pumping, no airway blockage, and can breathe, and then has adequate blood pressure control. In severe strokes, especially those that involve the brainstem, the brain's ability to control breathing, blood pressure, and heart rate may be lost.

Patients will have intravenous lines established, oxygen administered, appropriate blood tests, and noncontrast CT scans performed. At the same time, the health care professional assesses to make the clinical diagnosis of stroke and decides whether thrombolytic therapy (tPA, tissue plasminogen activator, or TNKase (Tenecteplase) clot-busting medications) or clot retrieval (mechanically removing the clot through catheters that are threaded into the blocked artery) is an option to treat the stroke.

How stroke is treated

If the diagnosis of ischemic stroke has been made, there is a window of time when thrombolytic therapy using tPA/TNKase may be an option. tPA/TNKase dissolves the clot blocking an artery in the brain and restores blood supply. For many patients, that time window is 3 hours after the onset of symptoms. In a select group of patients, that period may be extended to 4.5 hours. During that 3-to-4½ hours, the patient or family needs to recognize the stroke symptoms, get the patient to a hospital (call 9-1-1), have the patient assessed by the health care professional who performs a CT scan to look for other causes of stroke (including hemorrhage or tumor), consults with a neurologist, and stabilizes the patient’s blood pressure and breathing. Only then can it be time to administer the tPA or call an interventional radiologist or neurosurgeon to try to remove the clot (mechanical thrombectomy).

Hemorrhagic strokes are difficult to treat, so it's imperative to consult a specialist (neurosurgeon) immediately to help determine whether any treatment options are available to the patient (possibly aneurysm clipping, hematoma evacuation, or other techniques). Treatment for hemorrhagic strokes, in contrast to ischemic strokes, does not use tPA/TNKase or other thrombolytic agents, as these could worsen bleeding, make the symptoms of hemorrhagic stroke worse, and cause death. Consequently, it is important to distinguish between a hemorrhagic stroke and an ischemic stroke before treatment begins.

Hospital ER doctors and nurses are trained to act quickly in caring for stroke patients. The most common delay that prevents tPA/TNKase from being administered is a patient delay in seeking medical attention. Health care professionals perform an urgent CT scan of the head to help distinguish an ischemic from a hemorrhagic stroke. This may also cause a delay in a few instances.

Some smaller hospitals may use telemedicine to virtually consult neurology specialists, who can help make the diagnosis of stroke, review the CT scan, and help decide whether tPA/TNKase is a reasonable option. They may administer the thrombolytic drug and transfer the patient to a better-equipped hospital for further care.

How many stroke patients receive tPA/TNKase?

The decision to administer tPA/TNKase in the appropriate patient (there are many reasons that the drug is not indicated even if the patient arrives in time) is one that health care professionals discuss with the patient and family since there is the risk of bleeding in the brain with the use of tPA/TNKase. While there is potentially great benefit, because the blood vessels are fragile, there is a 6% risk an ischemic stroke can turn into a hemorrhagic stroke with bleeding into the brain. This risk is minimized the earlier the drug is given and if the appropriate patient is selected.

In certain stroke situations, the treatment period may be extended to 4.5 hours. If tPA/TNKase is given, the patient will need to be admitted to an intensive care bed for monitoring. As well, depending upon circumstances, the patient may be transferred to a stroke center.

Some stroke patients are candidates for mechanical thrombectomy, where a thin catheter is threaded into the blocked artery in the neck or brain, and the clot is sucked out. Depending upon the patient, the size of the stroke, the location of the blockage in the brain, and brain function, mechanical thrombectomy may be considered up to 24 hours after the onset of symptoms. Mechanical thrombectomy is not available at all hospitals and may not be appropriate for all patients. These procedures require the skill of a specially trained interventional neuroradiologist, neurologist, or neurosurgeon.

In those patients where tPA/TNKase and other interventions are not possible or are not indicated, the patient is usually admitted to the hospital for observation, supportive care, and referral for rehabilitation.

Discuss the latest stroke guidelines with your doctor.

What is the prognosis for a stroke?

Stroke remains a major killer in the United States and worldwide. In the U.S., about 34% of stroke patients will die within a year. However, with the ability to intervene with thrombolytic therapy to reverse the stroke and with more aggressive rehabilitation, the goal is to increase patient survival and function after recovery.

Specialized stroke centers -- hospitals that have the doctors, equipment, and resources to intervene quickly and treat strokes aggressively -- have shown to increase stroke survival as well as patient function and recovery. These hospitals are certified by The Joint Commission, the American Stroke Association, and the health departments of some states. It is to your advantage to know which hospitals in your area are designated stroke centers because they will have the specialists and equipment needed to minimize diagnosis-to-treatment times.

Many complications can develop in stroke patients, some of whom may not be able to return to full-time employment because of disability. Patients are affected physically with decreased body function, mentally with decreased cognition, and emotionally with depression and anxiety.

The return to function depends upon the severity of the stroke, what parts of the brain and body have stopped working, and what complications develop. Patients who lose their ability to swallow may develop aspiration pneumonia when they inhale food or saliva into the lungs, causing infection. Patients who have difficulty moving can develop pressure sores and infections due to skin breakdown.

Seizures may be a complication in up to 10% of patients. The more severe the stroke, the more likely that seizures may develop.

Is recovery after a stroke possible?

Prompt intervention in acute stroke and restoring blood supply to brain tissue increase the likelihood that stroke patients can be rescued and brain damage minimized.

In patients who have physical, mental, and emotional deficits because of the stroke, rehabilitation offers hope of increased function and return to the level of activity that they had before the stroke.

Again, the best stroke treatment is prevention and minimizing risk factors for not only stroke but heart attack and peripheral vascular disease (PAD).

What is stroke rehabilitation?

The purpose of rehabilitation is to return the stroke patient to the life and level of function that existed before the stroke. The success of that goal depends upon the underlying health of the patient and the severity of the stroke.

Rehabilitation may take weeks or months and usually requires a team approach for success. Physical therapists, occupational therapists, and speech pathologists will coordinate care with the primary doctor and physical medicine and rehabilitation specialists.

Some of the treatments are directed to prevent life-threatening complications. For example, speech pathologists may help with swallowing to prevent aspiration pneumonia. Physical therapists may concentrate on strength and balance to prevent falls. Occupational therapists may find ways to allow the patient to perform daily activities from personal hygiene to cooking in the kitchen.

Many patients with significant stroke deficits may require admission to a rehabilitation hospital and/or longer-term nursing facility before returning home. Unfortunately, some patients will have had too severe a stroke to be offered that opportunity.

How can I strengthen my arm and hand after a stroke?

Strokes usually create paralysis or weakness in your muscles. Often, in your arms, this can be in your shoulder or throughout the arm. You could either experience your muscles tightening up or being far too loose.

The shoulder can be one of the most challenging areas in your body to rehabilitate post-stroke because it is a joint that brings together three different bones. Having issues with the muscles in your arm can lead to your shoulder joint experiencing a great deal of stress. So, even if you do not experience shoulder issues at first, you may start to experience arm pain later on.

You should learn about different treatment plans or about the program that your healthcare providers are planning on treating you with. Most likely, you will work with a physiatrist and a physical therapist. Both of these healthcare providers specialize in rehabilitative care and can teach exercises for strength, endurance, and mobility.

You may need to engage in these arm and hand exercises for stroke rehab simply for a matter of weeks, but it may also take longer than that. Expect to be in physical therapy for as long as it takes not to feel any symptoms. There is an incredible variance in how strokes can affect people, so check in regularly with your healthcare providers as you treat your stroke symptoms.

Is it possible to prevent a stroke?

How can you prevent a stroke from happening?

Prevention is always the best treatment, especially when the illness can be life-threatening or life-altering. Ischemic strokes are most often caused by atherosclerosis or hardening of the arteries, and carry the same risk factors as heart attacks (myocardial infarction, coronary artery disease) and peripheral vascular disease. These include high blood pressure (hypertension), high cholesterol, diabetes, and smoking. Stopping smoking and keeping the other three under lifelong control greatly minimizes the risk of ischemic stroke.

Patients who have had a transient ischemic attack (TIA) are often prescribed medications to decrease their risk of a subsequent stroke. These include medications to lower blood cholesterol levels and control blood pressure. In addition, antiplatelet medications may be prescribed to make platelets less likely to promote blood clot formation. These include aspirin, clopidogrel (Plavix), and dipyridamole/aspirin (Aggrenox).

Patients with a TIA are usually evaluated for carotid stenosis or narrowing of the carotid artery. Surgery to open critically narrowed carotid arteries (termed endarterectomy) may decrease stroke risk.

Lifelong control of high blood pressure decreases the risk of hemorrhagic stroke.

Atrial fibrillation (AFib) is the most common cause of embolic stroke. Ideally, the heart rhythm can be converted to normal sinus rhythm but in those patients whose hearts are chronically in atrial fibrillation, anticoagulation or "blood thinning" minimizes the risk of blood clot formation in the heart and subsequent embolization and stroke. The drug that is prescribed depends upon the specific patient and individual situation. Patients who are prescribed apixaban (Eliquis), rivaroxaban (Xarelto), dabigatran (Pradaxa), edoxaban (Lixiana), or warfarin (Coumadin), have a decreased chance of stroke but are at risk for bleeding complications.

Can drinking water help prevent a stroke?

Many studies have proven that proper hydration at the time of a stroke is linked to better stroke recovery.

It is possible that dehydration causes blood to be thicker. Viscous blood causes the body to retain sodium and increases blood pressure.

Drinking enough water regularly prevents dehydration. This may play a role in keeping the blood less viscous, which in turn prevents a stroke. However, this does not mean overhydrating is a healthy habit. Drinking too much water may be dangerous too, especially in people with heart and kidney conditions. Also, drinking water during stroke symptoms may cause choking, so caution needs to be exercised.

Medically Reviewed on 11/8/2023
References
United States. National Institutes of Health. National Center for Biotechnology Information. Predictors of long-term mortality after first-ever stroke.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7161659/

Jameson, J.L., et al. Harrison's Principles of Internal Medicine, 20th ed. (Vol.1 & Vol.2). McGraw-Hill Education 2018.

United States. National Institutes of Health. National Institute of Neurological Disorders and Stroke.
NIH Stroke Scale.

American Stroke Association: "Stroke Symptoms."

American Stroke Association: "Stroke Treatment."

American Stroke Association: "Why Getting Quick Stroke Treatment Is Important."

Harvard Health Publishing: "Hemorrhagic Stroke."

The Heart Foundation: "The Importance of Water"

Harvard Medical School: "7 things you can do to prevent a stroke"

American Heart Association: "Dehydration linked to worsening stroke conditions"

Cochrane: "EMG biofeedback for the recovery of motor function after stroke."

Journal of Rehabilitation Medicine: "MOTOR IMAGERY AND STROKE REHABILITATION: A CRITICAL DISCUSSION."

Johns Hopkins Medicine: "Arm Care After a Stroke."

Saint Luke's: "Arm Care After a Stroke."

University of Rochester Medical Center: "Arm Care After a Stroke."