Ahmari Susanne E, Dougherty Darin D
Translational Neuroscience Program, Department of Psychiatry, University of Pittsburgh, Pittsburgh, Pennsylvania.
Department of Psychiatry, Massachusetts General Hospital, Boston, Massachusetts.
Depress Anxiety. 2015 Aug;32(8):550-62. doi: 10.1002/da.22367. Epub 2015 May 7.
Obsessive-compulsive disorder (OCD) is a chronic, severe mental illness with up to 2-3% prevalence worldwide. In fact, OCD has been classified as one of the world's 10 leading causes of illness-related disability according to the World Health Organization, largely because of the chronic nature of disabling symptoms.([1]) Despite the severity and high prevalence of this chronic and disabling disorder, there is still relatively limited understanding of its pathophysiology. However, this is now rapidly changing due to development of powerful technologies that can be used to dissect the neural circuits underlying pathologic behaviors. In this article, we describe recent technical advances that have allowed neuroscientists to start identifying the circuits underlying complex repetitive behaviors using animal model systems. In addition, we review current surgical and stimulation-based treatments for OCD that target circuit dysfunction. Finally, we discuss how findings from animal models may be applied in the clinical arena to help inform and refine targeted brain stimulation-based treatment approaches.
强迫症(OCD)是一种慢性、严重的精神疾病,全球患病率高达2%-3%。事实上,根据世界卫生组织的分类,强迫症已被列为全球与疾病相关残疾的十大主要原因之一,这主要是由于致残症状的慢性性质。([1])尽管这种慢性致残性疾病严重且患病率高,但对其病理生理学的了解仍然相对有限。然而,由于可用于剖析病理行为背后神经回路的强大技术的发展,这种情况正在迅速改变。在本文中,我们描述了最近的技术进展,这些进展使神经科学家能够开始使用动物模型系统识别复杂重复行为背后的回路。此外,我们回顾了目前针对强迫症的以回路功能障碍为靶点的手术和基于刺激的治疗方法。最后,我们讨论了动物模型的研究结果如何应用于临床领域,以帮助为基于靶向脑刺激的治疗方法提供信息并加以完善。