Epilepsy is a chronic noncommunicable disease of the brain that affects people of all ages and causes frequent seizures. It is one of the most common neurological diseases, affecting around 50 million people globally.

In epilepsy, the electrical firing of the brain becomes deregulated often presenting as sudden bursts of neuronal spikes, ultimately causing seizure activity. The mechanism of epileptogenesis remains unclear.

Seizures caused by epilepsy can occur at any time, usually lasting from a few seconds to a few minutes. It can affect people in different ways with varying types of symptom manifestations. Seizures can be classified based on their onset location and propagation: focal seizures begin on one side of the brain and generalized seizures involve both sides of the brain.

Up to 70% of epilepsy patients can control their epileptic episodes with antiseizure medication. While 20% of patients develop treatment-resistant epilepsy (TDR) and they must resort to more invasive methods, such as surgical removal of the brain region involved in seizure onset or deep brain stimulation.

Kainic acid (KA) is a potent glutamate analog that is used to induce neurodegeneration and model temporal lobe epilepsy(TLE) in rodents. The model presents with neuropathological and electroencephalographic features that are seen in patients with TLE.

KA reliably induces severe, prolonged seizures, which are convulsive status epilepticus. The kainic acid model is widely used in the study of epilepsy and is a reliable model for understanding TLE.