O'Donnell P, Grace A A
Department of Pharmacology, Albany Medical College, NY, USA.
Schizophr Bull. 1998;24(2):267-83. doi: 10.1093/oxfordjournals.schbul.a033325.
The absence of an animal model that accurately approximates schizophrenia limits current research into the pathophysiology of this disorder. Obviously, the cognitive disturbances associated with schizophrenia are difficult to evaluate in laboratory animals. Nonetheless, animal studies have provided insight into the anatomy and physiology of the brain systems that have been implicated in schizophrenia. These studies also suggest how brain systems may be involved in information processing in normal and pathological conditions. Thus, a careful assessment of the properties and functions of the brain regions suggested to be involved in schizophrenic symptoms has been a primary objective in several laboratories. In this review, we discuss the interactions among the brain regions implicated in schizophrenia--the ventral striatum, prefrontal cortex, hippocampus, and dopamine systems--and provide an integrative model linking altered function in these regions with specific clusters of symptoms of schizophrenia.
缺乏能准确模拟精神分裂症的动物模型限制了目前对该疾病病理生理学的研究。显然,与精神分裂症相关的认知障碍在实验动物中难以评估。尽管如此,动物研究已为涉及精神分裂症的脑系统的解剖学和生理学提供了见解。这些研究还表明了脑系统在正常和病理条件下可能如何参与信息处理。因此,仔细评估被认为与精神分裂症症状有关的脑区的特性和功能一直是几个实验室的主要目标。在本综述中,我们讨论了与精神分裂症有关的脑区——腹侧纹状体、前额叶皮质、海马体和多巴胺系统——之间的相互作用,并提供了一个综合模型,将这些区域功能改变与精神分裂症特定症状群联系起来。