Epilepsy is a central nervous system disorder (neurological disorder) in which nerve cell activity in the brain becomes disrupted, causing seizures or periods of unusual behavior, sensations and sometimes loss of consciousness.
Seizure symptoms can vary widely. Some people with epilepsy simply stare blankly for a few seconds during a seizure, while others repeatedly twitch their arms and legs.
About 1 in 26 people in the United States will develop a seizure disorder. Nearly 10 percent of individuals may have a single unprovoked seizure. However, a sing seizure doesn’t mean you have epilepsy. At least two unprovoked seizures are generally required for an epilepsy diagnosis.
Even mild seizures may require treatment because they can be dangerous during activities such as driving or swimming. Treatment with medications or sometimes surgery can control seizures for about 80 percent of people with epilepsy. Some children with epilepsy may also outgrow their condition with age.
Because epilepsy is caused by abnormal activity in brain cells, seizures can affect any process your brain coordinates. Seizure signs and symptoms may include:
- Temporary confusion
- A staring spell
- Uncontrollable jerking movements of the arms and legs
- Loss of consciousness or awareness
- Psychic symptoms
Symptoms will vary depending on the type of seizure. In most cases, a person will epilepsy will tend to have the same type of seizure each time, so the symptoms will be similar from episode to episode.
Doctors generally classify seizures as either focal or generalized, based on how the abnormal brain activity begins.
When seizures appear to result from abnormal activity in just one area of your brain, they’re called focal (partial) seizures. These seizures fall into two categories.
· Focal seizures without loss of consciousness (simple partial seizures). These seizures don’t cause a loss of consciousness. They may alter emotions or change the way things look, smell, feel, taste or sound. They may also result in involuntary jerking of a body part, such as an arm or leg, and spontaneous sensory symptoms such as tingling, dizziness and flashing lights.
· Focal dyscognitive seizures (complex partial seizures). These seizures involve a change or loss of consciousness or awareness. During a complex partial seizure, you may stare into space and not respond normally to your environment or perform repetitive movements, such as hand rubbing, chewing, swallowing or walking in circles.
Symptoms of focal seizures may be confused with other neurological disorders, such as migraine, narcolepsy or mental illness. A thorough examination and testing are needed to distinguish epilepsy from other disorders.
Seizures that appear to involve all areas of the brain are called generalized seizures. Six types of generalized seizures exist.
· Absence seizures. Absence seizures, previously known as petit mal seizures, often occur in children and are characterized by staring into space or subtle body movements such as eye blinking or lip smacking. These seizures may occur in clusters and cause a brief loss of awareness.
· Tonic seizures. Tonic seizures cause stiffening of your muscles. These seizures usually affect the muscles in your back, arms and legs and may cause you to fall to the ground.
· Atonic seizures. Atonic seizures, also known as drop seizures, cause a loss of muscle control, which may cause you to suddenly collapse or fall down.
· Clonic seizures. Clonic seizures are associated with repeated or rhythmic, jerking muscle movements. These seizures usually affect the neck, face and arms.
· Myoclonic seizures. Myoclonic seizures usually appear as sudden brief jerks or twitches of your arms and legs.
· Tonic-clonic seizures. Tonic-clonic seizures, previously known as grand mal seizures, are the most dramatic type of epileptic seizure and can cause an abrupt loss of consciousness, body stiffening and shaking, and sometimes loss of bladder control or biting your tongue.
When to see a doctor
Seek immediate medical help if any of the following occurs:
- The seizure lasts more than five minutes.
- Breathing or consciousness doesn’t return after the seizure stops
- A second seizure follows immediately
- You have a high fever
- You’re experiencing heat exhaustion
- You’re pregnant
- You have diabetes
- You’ve injured yourself during the seizure
If you experience a seizure for the first time, seek medical advice.
Epilepsy has no identifiable cause in about half of those with the condition. In the other, the condition may be traced to various factors.
· Genetic influence. Some types of epilepsy, which are characterized by the type of seizure you experience or the part of the brain that is affected, run in families. In these cases, it’s likely that there’s a genetic influence.
Researchers have linked some types of epilepsy to specific genes, though it’s estimated that up to 500 genes could be tied to the condition. For most people, genes are only part of the cause of epilepsy. Certain genes may make a person more sensitive to environmental conditions that trigger seizures.
· Head trauma. Head trauma as a result of a car accident or other traumatic injury can cause epilepsy.
· Brain conditions. Brain conditions that cause damage to the brain, such as brain tumors or strokes, can cause epilepsy. Stroke is a leading cause of epilepsy in adults older than age 35.
· Infectious diseases. Infectious diseases, such as meningitis, AIDS and viral encephalitis, can cause epilepsy.
· Prenatal injury. Before birth, babies are sensitive to brain damage that could be caused by several factors, such as an infection in the mother, poor nutrition or oxygen deficiencies. This brain damage can result in epilepsy or cerebral palsy.
· Developmental disorders. Epilepsy can sometimes be associated with developmental disorders, such as autism and neurofibromatosis.
Certain factors may increase your risk of epilepsy.
· Age. The onset of epilepsy is most common during early childhood and after age 60, but the condition can occur at any age.
· Family history. If you have a family history of epilepsy, you may be at an increased risk of developing a seizure disorder.
· Head injuries. Head injuries are responsible for some cases of epilepsy. You can reduce your risk by wearing a seat belt while riding in a car and by wearing a helmet while bicycling, skiing, riding a motorcycle or engaging in other activities with a high risk of head injury.
· Stroke and other vascular diseases. Stroke and other blood vessel (vascular) diseases can lead to brain damage that may trigger epilepsy. You can take a number of steps to reduce your risk of these diseases, including limiting your intake of alcohol and avoiding cigarettes, eating a healthy diet, and exercising regularly.
· Dementia. Dementia can increase the risk of epilepsy in older adults.
· Brain infections. Infections such as meningitis, which causes inflammation in your brain or spinal cord, can increase your risk.
· Seizures in childhood. High fevers in childhood can sometimes be associated with seizures. Children who have seizures due to high fevers generally won’t develop epilepsy, although the risk is higher if they have a long seizure, other nervous system conditions or a family history of epilepsy.
Having a seizure at certain times can lead to circumstances that are dangerous to yourself or others.
· Falling. If you fall during a seizure, you can injure your head or break a bone.
· Drowning. If you have epilepsy, you’re 15 to 19 times more likely to drown while swimming or bathing than the rest of the population because of the possibility of having a seizure while in the water.
· Car accidents. A seizure that causes either loss of awareness or control can be dangerous if you’re driving a car or operating other equipment.
Many states have driver’s license restrictions related to your ability to control seizures and impose a minimum amount of time that you’ve been seizure-free, ranging from months to years, before you’re allowed to drive.
· Pregnancy complications. Seizures during pregnancy pose dangers to both mother and baby, and certain anti-epileptic medications increase the risk of birth defects. If you have epilepsy and you’re considering becoming pregnant, talk to your doctor as you plan your pregnancy.
Most women with epilepsy can become pregnant and have a healthy baby. You’ll need to be carefully monitored throughout pregnancy, and medications may need to be adjusted. It’s very important that you work with your doctor to plan your pregnancy.
· Emotional health issues. People with epilepsy are more likely to have psychological problems, especially depression, anxiety and, in extreme cases, suicide. Problems may be a result of difficulties dealing with the condition itself as well as medication side effects.
Other life threatening complications of epilepsy are uncommon, but may happen, such as:
· Status epilepticus. This condition occurs if you’re in a state of continuous seizure activity lasting more than five minutes, or if you have frequent recurrent seizures without regaining full consciousness in between them. People with status epilepticus have an increased risk of permanent brain damage and death.
· Sudden unexplained death in epilepsy (SUDEP). People with epilepsy also have a small risk of sudden unexplained death. The cause is unknown, but some research shows it may occur due to heart or respiratory conditions.
People with frequent tonic-clonic seizures or people whose seizures aren’t controlled by medications may be at a higher risk of SUDEP. Overall about 1 percent of people with epilepsy die of SUDEP.
To diagnose your condition, your doctor will review your symptoms and medical history. Your doctor may order several tests to diagnose epilepsy and determine the cause of seizures.
· Neurological examination. Your doctor may test your behavior, motor abilities, mental function and other areas to diagnose your condition and determine the type of epilepsy you may have.
· Blood tests. Your doctor may take a blood sample to check for signs of infections, genetic conditions or other conditions that may be associated with seizures.
Your doctor may also suggest tests to detect brain abnormalities, such as:
Electroencephalogram (EEG). This is the most common test used to diagnose epilepsy. In this test, doctors attach electrodes to your scalp with a paste-like substance. The electrodes record the electrical activity of your brain.
If you have epilepsy, it’s common to have changes in your normal pattern of brain waves, even when you’re not having a seizure. Your doctor may monitor you on video while conducting an EEG while you’re awake or asleep, to record any seizures you may experience. Recording the seizures may help the doctor determine what kind of seizures you’re having or rule out other conditions
Your doctor may give you instructions to do something that will cause seizures, such as getting very little sleep prior to the test.
Computerized tomography (CT) scan. A CT scan uses X-rays to obtain cross-sectional images of your brain. CT scans can reveal abnormalities in your brain that might be causing your seizures, such as tumors, bleeding and cysts.
Magnetic resonance imaging (MRI). An MRI uses powerful magnets and radio waves to create a detailed view of your brain. Your doctor may be able to detect lesions or abnormalities in your brain that could be causing your seizures.
Functional MRI (FMRI). A functional MRI measures the changes in blood flow that occur when specific parts of your brain are working. Doctors may use an fMRI before surgery to identify the exact locations of critical functions, such as speech and movement, so that surgeons can avoid injuring those places while operating.
Positron emission tomography (PET). PET scans use a small amount of low-dose radioactive material that’s injected into a vein to help visualize active areas of the brain and detect abnormalities.
Single-photon emission computerized tomography (SPECT). This type of test is used primarily if you’ve had an MRI and EEG that didn’t pinpoint the location in your brain where the seizures are originating.
A SPECT test uses a small amount of low-dose radioactive material that’s injected into a vein to create a detailed, 3-D map of the blood flow activity in your brain during seizures.
Doctors may also conduct a SPECT test called subtraction ictal SPECT coregistered to magnetic resonance imaging (SISCOM), which may provide even more detailed results.
Neuropsychological tests. In these tests, doctors assess your thinking, memory and speech skills. The test results help doctors determine which areas of your brain are affected.
Doctors generally begin by treating epilepsy with medication. If medications don’t treat the condition, doctors may propose surgery or another type of treatment.
Most people with epilepsy can become seizure-free by taking one anti-seizure medication, called anti-epileptic medication. Others may be able to decrease the frequency and intensity of their seizures by taking a combination of medications. Your doctor will advise you about the appropriate time to stop taking medications.
More than half the children with epilepsy who aren’t experiencing epilepsy symptoms can eventually discontinue medications and live a seizure-free life. Many adults also can discontinue medications after two or more years without seizures.
Finding the right medication and dosage can be complex. Your doctor will consider your condition, frequency of seizures, your age and other factors when choosing which medication to prescribe. Your doctor will also review any other medications you may be taking, to ensure the anti-epileptic medications won’t interact with them.
Your doctor likely will first prescribe a single medication at a relatively low dosage and may increase the dosage gradually until your seizures are well-controlled.
Anti-seizure medications may have some side effects. Mild side effects include:
- Weight gain
- Loss of bone density
- Skin rashes
- Loss of coordination
- Speech problems
- Memory and thinking problems
More severe but rare side effects include:
- Suicidal thoughts and behaviors
- Severe rash
- Inflammation of certain organs, such as your liver
To achieve the best seizure control possible with medication, follow these steps:
· Take medications exactly as prescribed
· Always call your doctor before switching to a generic version of your medication or taking other prescription medications, over-the-counter drugs or herbal remedies
· Never stop taking your medication without talking to your doctor
· Notify your doctor immediately if you notice new or increased feelings of depression, suicidal thoughts, or unusual changes in mood or behavior
· Tell your doctor if you have migraines. Doctors may prescribe one of the anti-epileptic medications that can prevent your migraines and treat epilepsy.
At least half of all people newly diagnosed with epilepsy will become seizure-free with their first medication. If anti-epileptic medications don’t provide satisfactory results, your doctor may suggest surgery or other therapies. You’ll have regular follow-up appointments with your doctor to evaluate your condition and medications.
Surgery is most commonly done when tests show that your seizures originate in a small, well-defined area of your brain that doesn’t interfere with vital functions such as speech, language, motor function, vision or hearing. In surgery, your doctor removes the area of your brain that’s causing the seizures.
If your seizures originate in an area of the brain that controls movement, speech and other functions, you may be awake during part of the surgery. Doctors will monitor you and ask you questions during the procedure.
If your seizures originate in a part of the brain that can’t be removed, your doctor may recommend a different type of surgery in which surgeons make several cuts in your brain (multiple subpial transection). These cuts are designed to prevent seizures from spreading to other parts of your brain.
Although many people continue to need some medication to help prevent seizures after successful surgery, you may be able to take fewer drugs and reduce your dosages.
In a small number of cases, surgery for epilepsy can cause complications such as permanently altering your thinking (cognitive) abilities. Talk to your surgeon about his or her experience, success rates and complication rates with the procedure you’re considering.
Vagus nerve stimulation. In vagus nerve stimulation, doctors implant a device called a vagus nerve stimulator underneath the skin of your chest, similar to a heart pacemaker. Wires from the stimulator are connected to the vagus nerve in your neck.
The batter-powered device sends bursts of electrical energy though the vagus nerve and to your brain. It’s not clear how this inhibits seizures, but the device can usually reduce seizures by 20 to 40 percent.
Most people still need to take an anti-epileptic medication, although some people may be able to lower their medication dose. You may experience side effects from vagus nerve stimulation, such as throat pain, hoarse voice, shortness of breath or coughing.
Ketogenic diet. Some children with epilepsy have been able to reduce their seizures by following a strict diet that’s high in fats and low in carbohydrates.
In this diet, called a ketogenic diet, the body breaks down fats instead of carbohydrates for energy. After a few years, some children may be able to stop the ketogenic diet and remain seizure-free.
Consult a doctor if you or your child is considering a ketogenic diet. It’s important to make sure that your child doesn’t become malnourished when following the diet.
Side effects of a ketogenic diet may include dehydration, constipation, slowed growth because of nutritional deficiencies and a buildup of uric acid in the blood, which can cause kidney stones. These side effects are uncommon if the diet is properly and medically supervised.
Potential future treatments
Researchers are studying deep brain stimulation as a potential treatment for epilepsy. In deep brain stimulation, surgeons implant electrodes into a specific part of your brain. The electrodes are connected to a generator implanted in your chest or the skull that sends electrical pulses to your brain and may reduce your seizures.
Implantable, pacemaker-like devices that help prevent seizures are also under investigation. These responsive stimulation or “closed loop” devices analyze brain activity patterns to detect seizures before they happen and deliver an electrical charge or drug to stop the seizure.
In addition, new minimally invasive surgical techniques, such as MRI-guided laser ablation, show promise at reducing seizures with fewer risks than traditional open brain surgery for epilepsy.
Researchers are also studying stereotactic radiosurgery as a potential treatment for some types of epilepsy. In this procedure, doctors direct radiation at the specific area of your brain that is causing your seizure.