Many seizures manifest as single, self-limited episodes. Such occurrences serve to alert the intensivist that a metabolic, drug or structural problems exists. The first step is to terminate the ictal activity followed by an evaluation as to the cause of the seizure. Neuro-imaging (CT scan) is always required to exclude a structural lesion even in the context of an identifiable metabolic/drug etiology. An EEG is required in patients who do not fully regain conscious (see Sect. “Status Epilepticus”) and in those patients whose level of consciousness is difficult to assess (due to sedation, underlying disease, etc.).

In many patients with a pre-existent seizure disorder no obvious precipitating factor can be determined. A fall in serum levels of AEDs due to poor compliance with medications or due to increased clearance associated with concurrent illness has been implicated in some patients. Adult patients with a new diagnosis of epilepsy may first present in status epilepticus.

It is likely that ineffective recruitment of inhibitory neurons together with excessive neuronal excitation play a role in the initiation and propagation of the electrical disturbance occurring in status epilepticus. A growing body of basic science and clinical observation supports the concept that status epilepticus becomes more difficult to control as its duration increases. It is been postulated that this may occur due to a mechanistic shift from inadequate GABAergic inhibitory receptor-mediated transmission to excessive NMDA excitatory receptor mediated transmission [1]. Furthermore, as status epilepticus progresses, the GABA_A receptors are internalized and become functionally inactivated, conferring benzodiazepine resistance, which is believed to be a major cause of treatment failure. This may explain why benzodiazepines (GABAergic receptor agonists) are very effective AEDs during the early period of status epilepticus however they become less effective as time passes [1]. In humans and experimental animals, sustained seizures cause selective neuronal loss in vulnerable regions such as the hippocampus, cortex and thalamus. The degree of neuronal injury is closely related to the duration of seizures, underscoring the importance of rapid control of status epilepticus.