运动应激性高的人工作记忆也好

Humans with a high motor excitability（兴奋性 ，应激性） have a better working memory than humans with a low excitability. This was shown in a study conducted by scientists from the Transfacultary Research Platform at the University of Basel. By measuring the motor excitability, conclusions can be drawn ¹ as to the general cortical（皮质的） excitability -- as well as to cognitive ² performance. Working memory allows the temporary storage of information such as memorizing a phone number for a short period of time. Studies in animals have shown that working memory processes among others depend on the excitability of neurons in the prefrontal cortex. Moreover, there is evidence that motor neuronal excitability might be related to the neuronal excitability of other cortical regions. Researchers from the Psychiatric University Clinics (UPK Basel) and the Faculty ³ of Psychology ⁴ in Basel have now studied if the excitability of the motor cortex correlates with working memory performance- results were positive., ,"The motor cortical excitability can be easily studied with transcranial（经颅的） magnetic stimulation ⁵," says Nathalie Schicktanz, doctoral student and first author of the study. During this procedure, electromagnetic impulses with increasing intensity ⁶ are applied ⁷ over the motor cortex. For subjects with high motor excitability already weak impulses are sufficient to trigger certain muscles -- such as those of the hand -- to show a visible twitch ⁸., ,Conclusions for other cortical regions, ,In the present study, that included 188 healthy young subjects, the scientists were able to show that subjects with a high motor excitability had increased working memory performance as compared to subjects with a low excitability. "By measuring the excitability of the motor cortex, conclusions can be drawn as to the excitability of other cortical areas," says Schicktanz., ,"The findings help us to understand the importance of neuronal excitability for cognitive processes in humans," adds Dr. Kyrill Schwegler, co-author of the study. The results might also have important clinical implications, as working memory deficits ¹⁰ are a component ¹¹ of many neuropsychiatric disorders ¹³, such as schizophrenia or attention deficit ⁹ hyperactivity disorder ¹². In a next step, the scientists plan to study the relation between neuronal excitability and memory on a molecular ¹⁴ level., ,The study is part of a project lead by Prof. Dominique de Quervain and Prof. Andreas Papassotiropoulos. The project uses transcranial magnetic stimulation to study the cognitive functions in humans. The goal is to identify the neurobiological and molecular mechanisms ¹⁵ of human memory.