Laboratory investigations, whilst not essential to the diagnosis of seizures or of epilepsy, can be fundamental to determining the cause and guiding management. Over 50% of first seizures have an acute symptomatic cause, including a range of metabolic, toxic or infectious cause. The same triggers can precipitate status epilepticus, either de novo or as part of a deterioration in control in individuals with established epilepsy. Some, such as hypoglycaemia or severe hyponatraemia, can be fatal without prompt identification and treatment. Failure to identify seizures associated with recreational drug or alcohol misuse can lead to inappropriate AED treatment, as well as a missed opportunity for more appropriate intervention. In individuals with established epilepsy on treatment, some laboratory monitoring is desirable at least occasionally, in particular, in relation to bone health, as well as in situations where changes in AED clearance or metabolism are likely (extremes of age, pregnancy, comorbid disorders of renal or hepatic function). For any clinician managing people with epilepsy, awareness of the commoner derangements associated with individual AEDs is essential to guide practice. In this article, we review indications for tests on blood, urine and/or cerebrospinal fluid in patients presenting with new‐onset seizures and status epilepticus and in people with established epilepsy presenting acutely or as part of planned monitoring. Important, but rare, neurometabolic and genetic disorders associated with epilepsy are also mentioned.
Hippocampal damage after traumatic brain injury (TBI) is associated with late posttraumatic conditions, such as depression, cognitive decline and epilepsy. Mechanisms of selective hippocampal damage after TBI are not well understood. In this study, using rat TBI model (lateral fluid percussion cortical injury), we assessed potential association of immediate posttraumatic seizures and changes in corticosterone (CS) levels with neuroinflammation and neuronal cell loss in the hippocampus. Indices of distant hippocampal damage (neurodegeneration and neuroinflammation) were assessed using histological analysis (Nissl staining, Iba-1 immunohistochemical staining) and ELISA (IL-1β and CS) 1, 3, 7 and 14 days after TBI or sham operation in male Wistar rats (n = 146). IL-1β was elevated only in the ipsilateral hippocampus on day 1 after trauma. CS peak was detected on day 3 in blood, the ipsilateral and contralateral hippocampus. Neuronal cell loss in the hippocampus was demonstrated bilaterally; in the ipsilateral hippocampus it started earlier than in the contralateral. Microglial activation was evident in the hippocampus bilaterally on day 7 after TBI. The duration of immediate seizures correlated with CS elevation, levels of IL-1β and neuronal loss in the hippocampus. The data suggest potential association of immediate post-traumatic seizures with CS-dependent neuroinflammation-mediated distant hippocampal damage.
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