Introduction: Who Should Seek Diagnosis
If you or someone you know begins having seizures, it’s important to seek medical attention promptly. A seizure happens when there is abnormal electrical activity in the brain, causing temporary changes in awareness, movement, sensations, or behaviour. While having one seizure doesn’t automatically mean you have epilepsy, medical evaluation is essential to understand what’s happening.[1]
You should consider seeking diagnostic testing if you’ve experienced any episode where you suddenly lost awareness of your surroundings, had uncontrollable jerking movements, stared blankly into space for several seconds, or experienced brief muscle twitches that you couldn’t control. These could all be signs of different types of seizures associated with idiopathic generalised epilepsy.[3]
According to medical guidelines, epilepsy is generally diagnosed when someone has had two unprovoked seizures more than 24 hours apart, or when they’ve had one unprovoked seizure but tests suggest they’re at high risk of having more. Sometimes epilepsy is diagnosed based on recognising a specific epilepsy syndrome, which is a particular pattern of seizures and other features that doctors can identify.[1]
Children and young people between the ages of four and their early twenties are most commonly diagnosed with idiopathic generalised epilepsy, though it can be identified at other ages as well. If seizures begin in childhood or adolescence and there’s no obvious cause like a head injury, brain infection, or stroke, then idiopathic generalised epilepsy should be considered as a possible diagnosis.[3]
People with idiopathic generalised epilepsy typically have normal development, normal neurological examinations, and their brains appear structurally normal on imaging scans. The seizures seem to come from the person’s own body, possibly related to their genes, rather than from an external cause. Between seizures, people usually feel and function normally.[5]
Diagnostic Methods for Idiopathic Generalised Epilepsy
Taking a Medical History
The first and most important step in diagnosing idiopathic generalised epilepsy is a detailed conversation between you and your doctor about what happened. Your doctor will want to know exactly what you experienced before, during, and after each seizure. Because you might not remember everything that happened during a seizure, it can be very helpful to bring someone with you who witnessed the episode and can describe what they saw.[3]
Your doctor will ask about the timing of the seizures, what triggers might have been present (such as lack of sleep, stress, or flashing lights), whether there’s a family history of epilepsy, and whether you have any other medical conditions. They’ll also want to know about your development as a child and whether you’ve ever had any brain injuries, infections, or other neurological problems.[1]
Electroencephalogram (EEG)
The electroencephalogram, or EEG, is the most sensitive and important test for diagnosing idiopathic generalised epilepsy. This test measures the electrical activity in your brain using small sensors placed on your scalp. The test is completely painless and non-invasive, involving no needles or injections.[5]
In people with idiopathic generalised epilepsy, the EEG typically shows a characteristic pattern of abnormal electrical discharges. These appear as generalised spikes, polyspikes, or spike-wave patterns that happen across both sides of the brain at the same time. The pattern usually has a frequency of about 2.5 to 6 cycles per second. This is different from other types of epilepsy where abnormal activity might only show up in one specific area of the brain.[5]
The EEG is unlikely to be completely normal in someone with untreated idiopathic generalised epilepsy. However, if a routine awake EEG doesn’t show anything unusual, your doctor might recommend recording your brain activity during sleep and upon waking, as abnormal discharges are often more obvious during these times. Certain techniques during the test can also help reveal hidden abnormalities, such as asking you to breathe deeply and rapidly (hyperventilation), exposing you to flashing lights, or conducting the test after you’ve been sleep-deprived.[5]
Sometimes during hyperventilation in the EEG, subtle clinical signs of seizures become apparent that weren’t obvious before. Using video recording alongside the EEG, or asking you to count your breaths during hyperventilation, can help identify brief lapses in awareness that might otherwise go unnoticed.[5]
Brain Imaging Scans
Brain imaging tests such as magnetic resonance imaging (MRI) or computed tomography (CT) scans are often performed to look at the structure of your brain. However, in idiopathic generalised epilepsy, these scans typically show no structural abnormalities, tumours, lesions, or other visible problems. This is actually one of the key features that helps doctors distinguish idiopathic generalised epilepsy from other forms of epilepsy that might be caused by brain injuries, strokes, tumours, or other structural issues.[4]
The normal appearance of the brain on imaging scans, combined with the characteristic EEG pattern and the types of seizures you’re experiencing, helps confirm the diagnosis of idiopathic generalised epilepsy. While your brain looks structurally normal, the electrical signalling between brain cells is not functioning as it should.[3]
Physical and Neurological Examination
Your doctor will conduct a physical examination and test your neurological functions, checking things like your reflexes, muscle strength, coordination, sensation, and mental status. In idiopathic generalised epilepsy, these examinations are typically normal between seizures. Finding normal results on these examinations helps support the diagnosis, as it shows there’s no ongoing neurological damage or other neurological disease causing the seizures.[5]
Blood Tests and Other Laboratory Tests
Your doctor may order blood tests to check for other conditions that could cause seizures, such as low blood sugar, electrolyte imbalances, infections, or liver and kidney problems. While these tests don’t directly diagnose idiopathic generalised epilepsy, they help rule out other possible causes of seizures.[1]
In some cases, genetic testing might be recommended, especially if there’s a strong family history of epilepsy or if your doctor suspects a specific genetic syndrome. Some forms of idiopathic generalised epilepsy have been linked to specific gene mutations, though not all cases have an identified genetic cause.[2]
Distinguishing Between Subtypes
Once idiopathic generalised epilepsy is confirmed, your doctor will try to determine which specific subtype you have. The main subtypes include childhood absence epilepsy, juvenile absence epilepsy, juvenile myoclonic epilepsy, and epilepsy with generalised tonic-clonic seizures alone. Each subtype has a typical age of onset and characteristic seizure patterns.[4]
Childhood absence epilepsy typically begins between ages four and eight, with brief lapses of consciousness called absence seizures. Juvenile absence epilepsy starts between ages eight and fourteen, with similar but possibly more frequent absence seizures. Juvenile myoclonic epilepsy usually appears during adolescence or young adulthood and involves brief muscle jerks, often occurring in the morning. Epilepsy with generalised tonic-clonic seizures alone is characterised by seizures involving loss of consciousness, stiffening of the body, and shaking movements, without other seizure types.[4]
Diagnostics for Clinical Trial Qualification
If you’re considering participating in a clinical trial for idiopathic generalised epilepsy, you’ll need to undergo specific diagnostic tests to determine whether you meet the criteria for enrolment. Clinical trials have strict requirements to ensure that the participants being studied actually have the condition being investigated and that it’s safe for them to receive the experimental treatment.[8]
Confirming the Diagnosis
For clinical trial enrolment, you’ll need documentation confirming your diagnosis of idiopathic generalised epilepsy. This typically requires previous EEG results showing the characteristic generalised spike-wave pattern, along with your seizure history. Some trials may require a recent EEG to confirm that the abnormal brain activity pattern is still present.[5]
The trial organisers will want to know exactly which subtype of idiopathic generalised epilepsy you have, as some studies focus on specific syndromes like juvenile myoclonic epilepsy, while others may include all types of idiopathic generalised epilepsy. You may need to provide detailed seizure records documenting the frequency and types of seizures you’ve experienced over a certain time period.[8]
Baseline Testing and Monitoring
Before entering a clinical trial, you’ll undergo baseline testing to establish your starting point. This typically includes a comprehensive physical examination, neurological assessment, blood tests, and possibly brain imaging to ensure there are no other underlying conditions that would make it unsafe for you to participate.[8]
Many clinical trials also require baseline EEG recording and may use video-EEG monitoring to document your seizures objectively. This helps researchers measure whether the treatment being tested actually reduces seizure frequency or changes brain activity patterns. Throughout the trial, you’ll have repeated EEG tests and other assessments to monitor your response to treatment and watch for any side effects.[1]
Seizure Documentation Requirements
Most clinical trials for epilepsy require participants to keep detailed seizure diaries, recording every seizure, its type, duration, and circumstances. You may be asked to track your seizures for several weeks or months before officially entering the treatment phase of the trial. This baseline period helps establish how many seizures you typically have, which is then compared to your seizure frequency during and after treatment.[8]
Some trials may provide electronic devices or smartphone applications to help you track seizures more accurately. Family members or carers might also be asked to help document seizures, particularly if you’re not always aware when they occur.[8]
Treatment History Assessment
Clinical trials often have specific requirements about previous treatments. Some trials are looking for people who haven’t responded well to standard medications, while others may want participants who have never been treated before. You’ll need to provide detailed information about all the anti-epileptic medications you’ve tried in the past, how long you took them, what doses you reached, and why you stopped taking them (whether due to side effects or lack of effectiveness).[8]
The research team will review this treatment history to determine if you meet the trial’s eligibility criteria. They’ll also want to know about any other treatments you’ve tried, such as special diets, surgery, or nerve stimulation devices.[8]