脑深部电刺激期间微丘脑毁损术的效果:腺苷和谷氨酸外流的潜在影响。
Microthalamotomy effect during deep brain stimulation: potential involvement of adenosine and glutamate efflux.
作者信息
Chang Su-Youne, Shon Young Min, Agnesi Filippo, Lee Kendall H
机构信息
Department of Neurologic Surgery, Mayo Clinic, Rochester, MN 55905, USA.
出版信息
Annu Int Conf IEEE Eng Med Biol Soc. 2009;2009:3294-7. doi: 10.1109/IEMBS.2009.5333735.
Abstract
Deep brain stimulation (DBS) of the thalamus is widely used in humans to treat essential tremor and tremor dominant Parkinson's disease. After DBS lead implantation, tremor is often reduced even without electrical stimulation. Often called "microthalamotomy" effect, the exact mechanism is unknown, although it is presumed to be due to micro lesioning. Here, we tested whether microthalamotomy effect may, in fact, be mediated via release of neurotransmitters adenosine and glutamate, using fast scan cyclic voltammetry (FSCV) and amperometry, respectively. Implantation of microelectrodes into the ventrolateral (VL) thalamus of the rat resulted in transient rise in adenosine and glutamate level from mechanical stimulation. Similarly, high frequency stimulation (100 - 130 Hz) of the VL thalamus also resulted in adenosine and glutamate release. These results suggest that glutamate and adenosine release may be an important and unappreciated mechanism whereby mechanical stimulation via electrode implantation procedure may achieve the microthalamotomy effect.
摘要
丘脑深部脑刺激术(DBS)在人类中被广泛用于治疗特发性震颤和震颤为主型帕金森病。在植入DBS电极后,即使没有电刺激,震颤也常常会减轻。这种现象常被称为“微丘脑毁损术”效应,其确切机制尚不清楚,不过据推测是由于微损伤所致。在此,我们分别使用快速扫描循环伏安法(FSCV)和安培测量法,来测试微丘脑毁损术效应实际上是否可能是通过神经递质腺苷和谷氨酸的释放介导的。将微电极植入大鼠腹外侧(VL)丘脑会导致机械刺激使腺苷和谷氨酸水平短暂升高。同样,对VL丘脑进行高频刺激(100 - 130 Hz)也会导致腺苷和谷氨酸释放。这些结果表明,谷氨酸和腺苷的释放可能是一种重要但未被充分认识的机制,通过电极植入过程中的机械刺激可能借此实现微丘脑毁损术效应。
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