Relations between brain pathology and temporal lobe epilepsy

X Zhang, SS Cui, AE Wallace… - Journal of …, 2002 - Soc Neuroscience
X Zhang, SS Cui, AE Wallace, DK Hannesson, LC Schmued, DM Saucier, WG Honer…
Journal of Neuroscience, 2002Soc Neuroscience
Temporal lobe epilepsy, the most common type of epilepsy in adult humans, is characterized
clinically by the progressive development of spontaneous recurrent seizures of temporal
lobe origin and pathologically by hippocampal neuronal loss and mossy fiber sprouting. In
this study, we sought to test the prominent hypothesis that neuronal loss and mossy fiber
sprouting play a critical role in the genesis and progression of temporal lobe epilepsy. Rats
receiving a single kainic acid injection experienced a single sustained episode of epileptic …
Temporal lobe epilepsy, the most common type of epilepsy in adult humans, is characterized clinically by the progressive development of spontaneous recurrent seizures of temporal lobe origin and pathologically by hippocampal neuronal loss and mossy fiber sprouting. In this study, we sought to test the prominent hypothesis that neuronal loss and mossy fiber sprouting play a critical role in the genesis and progression of temporal lobe epilepsy.
Rats receiving a single kainic acid injection experienced a single sustained episode of epileptic status with massive neuronal loss and mossy fiber sprouting, whereas rats receiving triple kainic acid injections experienced two priming episodes and one sustained episode of epileptic status with no detectable neuronal loss and mossy fiber sprouting. Early in the process of chronic seizure development, primed rats that failed to show detectable neuronal loss and mossy fiber sprouting exhibited a starting date and a frequency of spontaneous recurrent seizures similar to those of nonprimed rats that showed massive neuronal loss and mossy fiber sprouting. However, nonprimed rats displayed significantly prolonged episodes of spontaneous recurrent seizures over the whole process of chronic seizure development and more frequent severe seizures later in the process. Similar results were observed in both Fischer-344 and Wistar rats as well as in the rat pilocarpine preparation of temporal lobe epilepsy.
These results fail to reveal a relation between neuronal loss–mossy fiber sprouting and the genesis of temporal lobe epilepsy but suggest that neuronal loss, mossy fiber sprouting, or both contribute to the intensification of chronic seizures.
Soc Neuroscience