Department of Neurology, University of Virginia, Charlottesville, Virginia, U.S.A.
Epilepsia. 2014 Dec;55(12):1969-77. doi: 10.1111/epi.12854. Epub 2014 Dec 3.
Penetrating brain injury (PBI) has the highest risk for inducing posttraumatic epilepsy, and those PBIs with retained foreign materials such as bullet fragments carry the greatest risk. This study examines the potential contribution of copper, a major component of bullets, to the development of epilepsy following PBI.
Anesthetized adult male rats received a penetrating injury from the dorsal cortex to the ventral hippocampus from a high speed small bit drill. In one group of animals, copper wire was inserted into the lesion. Control animals had only the lesion or the lesion plus stainless steel wire (biologically inert foreign body). From 6 to up to 11 months following the injury the rats were monitored intermittently for the development of epilepsy with video-electroencephalography (EEG). A separate set of animals was examined for possible acute seizures in the week following the injury.
Twenty-two of the 23 animals with copper wire developed chronic epilepsy, compared to three of the 20 control rats (lesion and lesion with stainless steel). Copper was associated with more extensive injury. The control rats with epilepsy had larger lesions. In the acute injury group, there was no difference in the incidence of seizures (83% lesion plus stainless steel, 70% lesion plus copper).
Copper increases the risk for epilepsy and may increase damage over time, but there were no differences between the groups in the incidence of acute postinjury seizures. Lesion size may contribute to epilepsy development in lesion-only animals. Copper may be an independent risk factor for the development of epilepsy and possible secondary injury, but lesion size also contributes to the development of epilepsy. The consequences of prolonged exposure of the brain to copper observed in these animals may have clinical implications that require further evaluation.
穿透性脑损伤(PBI)具有诱发外伤性癫痫的最高风险,而那些有弹片等遗留异物的 PBI 风险最大。本研究探讨了铜(子弹的主要成分之一)在穿透性脑损伤后引发癫痫的潜在作用。
麻醉成年雄性大鼠从背侧皮质到腹侧海马接受高速小钻头的穿透性损伤。在一组动物中,将铜丝插入损伤部位。对照组动物只有损伤或损伤加不锈钢丝(生物惰性异物)。在损伤后 6 至 11 个月,通过视频-脑电图(EEG)间歇性监测大鼠癫痫的发生。另一组动物在损伤后一周内检查是否有急性癫痫发作。
23 只植入铜丝的动物中有 22 只发展为慢性癫痫,而 20 只对照组大鼠(损伤加不锈钢丝)中有 3 只(3/20)。铜与更广泛的损伤有关。患有癫痫的对照组大鼠的损伤更大。在急性损伤组中,不锈钢丝加损伤组和铜丝加损伤组的癫痫发作发生率没有差异(分别为 83%和 70%)。
铜增加了癫痫的风险,并且随着时间的推移可能会增加损伤,但在急性损伤后癫痫发作的发生率方面,两组之间没有差异。仅损伤组动物的病变大小可能有助于癫痫的发展。铜可能是癫痫发生和可能的继发性损伤的独立危险因素,但病变大小也有助于癫痫的发展。这些动物中观察到的大脑长时间暴露于铜的后果可能具有临床意义,需要进一步评估。