EpilepsyOpen print version

Overview

A seizure (often called a fit, spell, convulsion, or attack) is a visible sign of a problem in the electrical system that controls your brain. A single seizure can have many causes. Those who continue to have unprovoked seizures may have a chronic disorder called epilepsy. The term “seizure disorder” is often used as another way to describe epilepsy.

What is epilepsy?

Epilepsy is a disorder of the brain in which seizures occur repeatedly. A seizure is caused by an abnormal electrical discharge in the brain. This abnormal "short circuit" can cause a change in behavior without your being aware of what is happening. During a seizure you may fall down, stare off into space, or make jerking movements. Some people get a warning, called an aura that tells them when a seizure is about to happen. You cannot control what's happening while the seizure is occurring. If you witness someone having a seizure, see What to Do During a Seizure.

The most common seizure types are classified as either partial or generalized. Partial seizures arise from one part of the brain and include simple, partial, and complex partial seizures. Generalized seizures appear to involve the entire brain and include generalized tonic-clonic, absence, myoclonic, tonic, and atonic seizures (see Seizures).

 

Figure 1. A seizure is an abnormal electrical discharge in the brain. Symptoms of a seizure vary depending on which lobe of the brain is affected and whether the seizure is partial or generalized.

What are the symptoms?

An epilepsy syndrome is a collection of abnormal signs such as seizure type, age of onset, symptoms, and EEG patterns that commonly occur together. While some types of “symptomatic” epilepsy may be caused by a brain tumor, stroke, or other neurological disorder, “idiopathic” epilepsy syndromes have no identifiable causes. Common syndromes include:

Temporal lobe epilepsy: onset in childhood around 6-10 years; two thirds have complex partial seizures; one third have generalized seizures; auras are very common (>80%); mouth behaviors, motor automatisms, seizures last more than one minute followed by confusion or amnesia.

Frontal lobe epilepsy: sudden onset and short duration seizures; rapid recovery of consciousness; prominent motor automatisms; risk for complex partial status epilepticus, usually sporadic (not inherited); seizures more common during sleep.

Reflex epilepsy: seizures triggered by the environment; photosensitivity (seizures in response to flashing lights, strobe lights, video games); begins in childhood; associated with absence epilepsy, and may disappear in adulthood.

Juvenile myoclonic epilepsy: most common (5%) epilepsy; onset in puberty between 8-30 years; myoclonic, absence and generalized tonic clonic seizures; seizures occur on awakening or sleep deprivation; alcohol or menstrual periods may be precipitants.

Benign Rolandic epilepsy: represents one third of childhood epilepsy; onset 3-13 years of age and usually outgrow it by age 15; seizures occur during sleep; symptoms include parasthesia in the lips, gums and inner cheeks; simple partial seizures of face or face + hand; drooling, speech arrest and generalized tonic clonic seizures.

Lennox-Gastaut syndrome: represents 1% epilepsy and difficult to treat; onset in childhood around 1-5 years of age; mixed seizures: absence, tonic seizures causing stiffening, often during sleep; drop attacks, convulsive seizures on wakening; often have developmental problems; frequent seizures with a risk of status epilepticus.

Epilepsy Emergency: Status Epilepticus

Status epilepticus is a medical emergency! It occurs when seizures do not stop or happen repetitively without regaining consciousness in between. It is possible for brain damage to occur as a result of lack of oxygen to the brain. Call 911 if seizures last longer than is typical for that person, or if they last longer than 5-10 minutes. Timing the seizure with a watch is helpful because a brief seizure may seem longer than it really is.If you have any suspicion that something is wrong, CALL. It is better to call too frequently than to avoid calling.

What are the causes?

There are many causes of epilepsy, including head trauma, stroke, birth injury, brain tumors, and infections. However, for approximately 70% of patients with epilepsy, the cause cannot is unknown.

Who is affected?

Epilepsy affects 2.5 million people in the US and 15,000 to 25,000 people in Greater Cincinnati. Nationwide, 181,000 new cases of epilepsy are diagnosed every year, and the disorder affects slightly more men than women. New cases more commonly occur in the young around the age of 1 and then again later in life around the age of 55. Epilepsy can begin at any age.

How is a diagnosis made?

Your doctor will take a complete medical history and perform a physical examination. This includes a review of medicines you’ve tried for seizure control (including side effects and efficacy), a description of the seizure activity, and any history of other family members with neurological problems. The physical exam includes a detailed neurologic examination, which tests specific functions of the central nervous system. The following diagnostic studies may also be included in your initial evaluation.

Electroencephalogram (EEG) is a test that records electrical patterns in your brain called brain waves. Electrodes are placed on your scalp and then the signals picked up by the electrodes are amplified and recorded on paper. The procedure lasts about 40 minutes. An EEG is of value for diagnosing epilepsy only if it picks up patterns typical of epilepsy. If it doesn’t pick up the right patterns, you may still have epilepsy and ambulatory monitoring (longer term EEG) may be necessary. Video/EEG monitoring, available in specialized centers for patients with frequent seizures, allows you to be observed during seizure activity so that your behavior can be measured/monitored at the same time as your EEG.

Blood tests are performed to assess your general health and check such things as infections, anemia, and chemical imbalances. These tests are helpful in ruling out a chemical cause of your seizures. When you start a new anticonvulsant medication, blood levels (electrolytes, liver and kidney function, blood cell counts, and drug levels) are checked frequently and will gradually taper to every month or so, depending on your dosage or your physician’s protocols.

Magnetic resonance imaging (MRI) This is a noninvasive test that uses a magnetic field and radiofrequency waves to give a detailed view of your brain. It allows your doctor to view your brain 3-dimensionally in slices, as if it were sliced layer-by-layer like a loaf of bread with a picture taken of each slice. The pictures can be taken from the side or from the top as a cross-section. It may or may not be performed with a dye (contrast agent) injected into your blood stream. MRI is helpful to determine if a tumor, arteriovenous malformation, or genetic defect of the brain is causing your seizures.

Positron emission tomography (PET) and single-photon emission computed tomography (SPECT) scans allow the doctor to study the function of your brain by observing how glucose is metabolized in the brain. You are injected with a “tracer,” or small amount of radioactive substance attached to glucose, and a computer creates pictures of the brain. A scan taken while you are having a seizure typically demonstrates "hypermetabolism," or increased use of glucose. A scan taken when you are not having a seizure can show a specific area of "hypometabolism," or decreased use of glucose. These results may help show the location of focal areas of your brain that are not working properly or other differences that may correspond to EEG test results. Because SPECT equipment is more widely available and less expensive than PET, SPECT may be used instead of PET.

Who treats epilepsy?

A primary care doctor, pediatrician, family practitioner, internist, or neurologist may treat epilepsy. Neurologists who specialize in epilepsy, called epileptologists, are available in specialized epilepsy centers across the nation to treat patients with seizures that are not well controlled.

What treatments are available?

Epilepsy is usually treated with anti-epileptic medications. Approximately 70% of people with epilepsy have either complete or very good seizure control with medication. About 30% of people with epilepsy cannot control their seizures with medicine. Treatment options for these patients include epilepsy surgery, vagus nerve stimulation, and the ketogenic diet (used in children).

Medications
Once the exact seizure type and epilepsy syndrome has been determined, your doctor usually chooses the best medication effective for that type of seizure. Several other factors are considered such as cost, dosing schedule, patient age, previous drug interactions, other existing health conditions, and child bearing potential. Monotherapy is the ideal type of therapy to manage side effects and dosing more easily. Approximately 50% of patients are free of seizures with one medication. It may be necessary to add a second drug if one drug does not control your seizures. The goal is to control the seizures with the fewest possible side effects.

Common anti-epileptic medications:

  • Phenytoin (Dilantin) is one of the oldest and most commonly used drug to treat seizures. It is most effective against tonic-clonic seizures or complex partial seizures.
  • Phenobarbital is a barbiturate used to treat tonic-clonic and simple partial seizures. It was the first drug to be used to treat epilepsy, and it is known to cause drowsiness. It is rarely used to treat new cases of epilepsy.
  • Valproic acid (Depakote, Depakene) is used for partial and tonic/clonic seizures.
  • Carbamazepine (Tegretol, Carba-trol) is another drug to treat some types of seizures. It’s also used to treat pain caused by trigeminal neuralgia.

Since 1992, nine new medications have been approved to treat epilepsy:

  • Felbamate (Felbatol) is restricted to patients with severe intractable partial and secondary generalized seizures and in patients with Lennox-Gastaut syndrome who have not responded to other medication.
  • Gabapentin (Neurontin) is used for partial seizures with or without secondary generalization.
  • Lamotrigine (Lamictal) is used for partial seizures and in generalized seizures of Lennox-Gastaut syndrome in children and adults.
  • Topiramate (Topamax) is used in adults with partial onset, generalized tonic-clonic seizures, and and in generalized seizures of Lennox-Gastaut syndrome in children and adults.
  • Tiagabine (Gabitril) is used in adults and children more than 12 years old with partial seizures.
  • Levetiracetam (Keppra) is used for partial onset seizures.
  • Oxcarbazepine (Trileptal) is used in adults and children 4-16 years old with partial seizures.
  • Zonisamide (Zonegran) is used for partial seizures.
  • Pregabalin (Lyrica) is used for partial seizures.

The new formulations and drug delivery systems include an extended-release form of carbamazepine, fosphenytoin, an intravenous formulation of valproic acid, and diazepam rectal gel.

As with all drugs, there are side effects and drug interactions. Most common side effects include fatigue, drowsiness, nausea, gum problems, weight gain and blurred vision. If you have unacceptable side effects with your medication, changing to another medication may improve these adverse effects. Also, these drugs may reduce the effectiveness of birth control pills. If you are pregnant or thinking about getting pregnant, you should not take any anti-seizure medications that are known to cause birth problems. You need to discuss this with your physician.

Surgery
When medication fails to control your seizures or the side effects become unacceptable, surgical treatments may be used.

  • Vagus nerve stimulation offers a unique treatment option and may help you if your seizures cannot be controlled with medications or if you experience unacceptable side effects from medication. It may also be used if you are not a candidate for surgery. The pacemaker-like device is implanted in your chest with a wire that is wrapped around the vagus nerve, which is located in your neck. The stimulator applies a small adjustable electrical current to the vagus nerve. You may experience some minor side effects, such as a tingling or change in voice during stimulation. In addition, you may place a magnet over the device and provide additional stimulation to possibly stop a seizure in progress. The success rate of vagus nerve stimulation is comparable to the newer medications. VNS is not a cure for seizures. It is important to decide if epilepsy surgery is a better option for you before the stimulator is implanted.

  • Epilepsy surgery may be a treatment option if you have seizures that cannot be controlled by medications. Most commonly, a portion of the brain that generates seizures is removed during the surgical procedure. In addition to operations that remove a small part of the brain where seizures begin, other procedures may be done to interrupt the spread of electrical energy/discharges in your brain. You can be considered for surgery only if you have seizures that arise from one focal area of the brain or that can be isolated from the other parts of the brain. Depending on the site of seizure onset and the underlying cause, 50-80% of patients who have epilepsy surgery can become seizure free. Surgery is especially beneficial for those with temporal lobe epilepsy (3).

Ketogenic diet
A ketogenic (high-protein/fat) diet may be a treatment option for children who have many side effects from anti-seizure drugs, or whose seizures cannot be controlled by them. This special restricted-calorie diet tricks the body into burning fat, instead of glucose, for energy. The diet is very high in fats and low in protein and carbohydrates. It produces a change in the body's chemistry called ketosis, which has the effect of controlling seizures or reducing their frequency, in two of three children placed on the diet. Although not all children benefit, parents report that children who do benefit are more alert and active than they were previously.

The ketogenic diet must be established by a dietitian, weighed out in grams by the family, and followed by a doctor just as if it were a course of drug treatment. Like other treatments, the ketogenic diet has some side effects, which are monitored through blood and urine tests and follow-up visits. The diet is used primarily to treat children for a limited period of time, after which the diet may be slowly tapered and regular food slowly reintroduced. If seizures return, the diet may be re-instituted. Studies are underway to see whether the ketogenic diet may also work for some adults. Early results suggest that it may, but the long-term effects of such a high-fat diet are unknown.

Clinical trials

Clinical trials are research studies in which new treatments—drugs, diagnostics, procedures, and other therapies—are tested in people to see if they are safe and effective. Research is always being conducted to improve the standard of medical care. Information about current clinical trials, including eligibility, protocol, and locations, are found on the Web. Studies can be sponsored by the National Institutes of Health (see clinicaltrials.gov) as well as private industry and pharmaceutical companies (see www.centerwatch.com).

Recovery & prevention

What can I do if medications don’t control my seizures? Your goal should be freedom from seizures. Current recommendations (1) state that a patient who continues to have seizures after treatment with three antiepileptic drugs should be evaluated at a comprehensive epilepsy treatment program. Such programs are staffed by full-time epileptologists (neurologists who specialize in epilepsy) and neurosurgeon(s) who specialize in epilepsy surgery. These programs include an epilepsy monitoring unit with continuous video/EEG monitoring of your seizures. This testing requires hospitalization and is provided for adult patients. The specialized testing completed as part of epilepsy monitoring can help your doctor more successfully treat you in three ways:

  1. Monitoring can define the specific type of seizure and help the doctor choose the best medication.
  2. The monitoring can define the precise brain location of your seizure onset and lead to curative epilepsy surgery in selected patients.
  3. Some patients have attacks that are not seizures; monitoring can provide the doctor with a more accurate diagnosis that leads to improved therapy.

Healthy habits

  1. Take your medication every day as directed. Your medication helps to control seizures, but missing a dose can cause seizures.
  2. Eat a healthy diet. Low blood sugar levels can cause seizures, so try not to miss a meal, especially if you taking part in sports.
  3. Get enough sleep. Lack of sleep can be a seizure trigger.
  4. Limit your use of alcohol. It can be risky to drink alcohol if you take certain medications. Talk to your doctor.
  5. Avoid illegal drugs. They can cause seizures and interact poorly with your antiepilepsy medication.
  6. Exercise regularly. You’ll feel good about yourself, alleviate depression, and control weight.
  7. Learn relaxation techniques. Some seizures are triggered by stress.

Driving
When first starting AED medication you will not be able to drive. Each state has different rules as to how long a person must be seizure free before being allowed to drive (anywhere from 3 to 12 months) and may require a doctor’s evaluation of your ability to drive.

Work & school
Informing others around you about your medical condition is your decision. However, if your seizures are only moderately controlled someone may eventually witness you having a seizure. Educate your co-workers and teachers about how to recognize your specific kind of seizures and what to do when one occurs. Always wear your medical identification bracelet. It is against the law for you to be discriminated based on your medical condition.

Sources & links

If you have more questions, please contact Mayfield Brain & Spine at 800-325-7787 or 513-221-1100. For information about the Epilepsy Center at the UC Neuroscience Institute, call 886-941-8264.

Sources

  1. Browne TR, Holmes G: Handbook of Epilepsy. Philadelphia, Lippincott-Raven Publishers, 1997, pp. 175
  2. Pellock JM, Dodson WE, Bourgeois F: Pediatric epilepsy, diagnosis and therapy. New York, Demos Medical Publishers, 2001, pp. 73-76
  3. Wiebe S, Blume WT, Girvin JP, Eliasziw M: A randomized, controlled trial of surgery for temporal-lobe epilepsy. NEJM 345: 311–8, 2001

Links
www.efa.org (Epilepsy Foundation of America), or call 800-EFA-1000
www.aesnet.org (American Epilepsy Society)
www.epilepsynse.org.uk (National Society for Epilepsy)
www.epilepsy.com
www.epilepsyandhealth.com

Glossary

antiepileptic drug (AED): a medication used to control epileptic seizures

aura: a "warning" that a seizure may be imminent, the beginning of a seizure. Auras ranging from abnormal smells or tastes, to a funny feeling in the stomach, to sounds, colors, or emotional rushes.

automatism: things people do during a seizure in a state of diminished consciousness, such as pulling at their clothes or chewing.

efficacy: the effectiveness of a drug therapy in accomplishing its intended purpose.

epileptologist: a neurologist who specializes in the treatment of epilepsy.

generalized seizure: a seizure involving the entire brain.

hypermetabolism: faster than normal metabolism.

hypometabolism: slower than normal metabolism.

ictal: that which happens during a seizure.

idiopathic: of unknown cause.

interictal: that which happens between seizures.

intractable: difficult to control.

localization: finding the location in the brain where epileptic seizures start.

monotherapy: treatment with only one drug.

partial seizure: a seizure involving only a portion of the brain.

status epilepticus: a seizure that lasts more than 5 minutes and requires immediate medical attention due to lack of oxygen to the brain.

video EEG monitoring: simultaneous monitoring of a patient’s behavior with a video camera and the patient’s brain activity by EEG.


updated > 4.2016
reviewed by > Maureen Gartner, RN and David Ficker, MD / University of Cincinnati Department of Neurology, Ohio

Mayfield Certified Health Info materials are written and developed by the Mayfield Clinic. We comply with the HONcode standard for trustworthy health information. This information is not intended to replace the medical advice of your health care provider.


Mayfield services

Our affiliation with the Epilepsy Center at the UC Neuroscience Institute provides comprehensive evaluation of high volumes of patients who have, or are thought to have, epilepsy. We are the Cincinnati region's only center with a Level IV rating – the highest rating possible -- from the National Association of Epilepsy Centers.

Our epilepsy team includes five epileptologists, a neurosurgeon who specializes in epilepsy surgery, neuropsychologists, nursing specialists, and EEG technologists.

Each year, more than 90 epilepsy patients are evaluated for surgery by Mayfield neurosurgeons. We provide cutting-edge epilepsy surgery and vagus nerve stimulation surgery when medications no longer control seizures.

If your neurologist has recommended surgery and you would like to make an appointment, please call 513-221-1100.