What is the neurobiology of schizophrenia?

IF 3.4 3区 医学 Q2 CLINICAL NEUROLOGY
Michael A Cummings, Ai-Li W Arias, Stephen M Stahl
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Abstract

Schizophrenia spectrum disorders are brain diseases that are developmental dementias (dementia praecox). Their pathology begins in utero with psychosis most commonly becoming evident in adolescence and early adulthood. It is estimated they afflict the U.S. population at a prevalence rate of approximately 0.8%. Genetic studies indicate that these brain diseases are about 80% determined by genes and about 20% determined by environmental risk factors. Inheritance is polygenic with some 270 gene loci having been identified as contributing to the risk for schizophrenia. Interestingly, many of the identified gene loci and gene polymorphisms are involved in brain formation and maturation. The identified genetic and epigenetic risks give rise to a brain in which neuroblasts migrate abnormally, assume abnormal locations and orientations, and are vulnerable to excessive neuronal and synaptic loss, resulting in overt psychotic illness. The illness trajectory of schizophrenia then is one of loss of brain mass related to the number of active psychotic exacerbations and the duration of untreated illness. In this context, molecules such as dopamine, glutamate, and serotonin play critical roles with respect to positive, negative, and cognitive domains of illness. Acutely, antipsychotics ameliorate active psychotic illness, especially positive signs and symptoms. The long-term effects of antipsychotic medications have been debated; however, the bulk of imaging data suggest that antipsychotics slow but do not reverse the illness trajectory of schizophrenia. Long-acting injectable antipsychotics (LAI) appear superior in this regard. Clozapine remains the "gold standard" in managing treatment-resistant schizophrenia.

精神分裂症的神经生物学原理是什么?
精神分裂症谱系障碍是一种脑部疾病,属于发育性痴呆(早老性痴呆)。其病理过程始于子宫内,最常见的是在青春期和成年早期出现明显的精神病。据估计,这些疾病在美国的发病率约为 0.8%。遗传研究表明,这些脑部疾病约 80% 由基因决定,约 20% 由环境风险因素决定。遗传是多基因遗传,目前已发现约 270 个基因位点可导致精神分裂症的发病风险。有趣的是,许多已确定的基因位点和基因多态性都与大脑的形成和成熟有关。已确定的遗传和表观遗传风险导致大脑中的神经母细胞异常迁移,位置和方向异常,容易造成神经元和突触的过度丢失,从而导致明显的精神疾病。因此,精神分裂症的发病轨迹是大脑质量的丧失,与活动性精神病加重的次数和未治疗的病程有关。在这种情况下,多巴胺、谷氨酸和血清素等分子在疾病的阳性、阴性和认知领域发挥着至关重要的作用。抗精神病药物能迅速改善活动性精神病,尤其是积极的体征和症状。抗精神病药物的长期疗效一直备受争议;然而,大部分影像学数据表明,抗精神病药物能减缓但不能逆转精神分裂症的发病轨迹。长效可注射抗精神病药物(LAI)在这方面似乎更胜一筹。氯氮平仍然是治疗耐药精神分裂症的 "金标准"。
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来源期刊
CNS Spectrums
CNS Spectrums 医学-精神病学
CiteScore
6.20
自引率
6.10%
发文量
239
审稿时长
>12 weeks
期刊介绍: CNS Spectrums covers all aspects of the clinical neurosciences, neurotherapeutics, and neuropsychopharmacology, particularly those pertinent to the clinician and clinical investigator. The journal features focused, in-depth reviews, perspectives, and original research articles. New therapeutics of all types in psychiatry, mental health, and neurology are emphasized, especially first in man studies, proof of concept studies, and translational basic neuroscience studies. Subject coverage spans the full spectrum of neuropsychiatry, focusing on those crossing traditional boundaries between neurology and psychiatry.
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