CEREBRAL ENERGY METABOLISM IN YOUNG PEOPLE DURING ADAPTATION TO THE CONDITIONS OF THE ARCTIC REGION

IF 0.2 Q4 SPORT SCIENCES

Human Sport Medicine Pub Date : 2019-07-03 DOI:10.14529/hsm190201

N. Anikina, A. Gribanov, I. Kozhevnikova, M. Pankov, S. Bagretsov

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引用次数: 1

Abstract

Aim. The article deals with determining the features of cerebral energy metabolism in young people at different stages of adaptation in the Arctic region. Materials and methods. The level of permanent brain direct current potentials (DCP) was measured in 146 young people: 93 born and permanently living in the Arctic region and 53 migrants living in new climatic conditions for the first months. The study was conducted by using a “Neuro-KM” 12-channel hardware-software complex for the topographic mapping of brain electrical activity. DCP were recorded in the unipolar leads according to the 10-20 international system. Statistical processing of the data obtained was carried out with the software package SPSS-20 for Windows. Results. In young people permanently living in the Arctic region, we revealed functional asymmetry of the brain with right-hemisphere dominance in almost all leads. In migrants living in the climatic conditions of the Arctic region for the first months, we established high values of energy consumption and partial asymmetry of cerebral energy metabolism. Conclusion. Body functioning in the usual habitat is characterized by a stereotypical set of regulatory mechanisms. During adaptation, new ways of responding to changes in the environment are formed. The dominance of the right or left hemisphere occurs depending on the type of tasks. The analysis of interhemispheric asymmetry of energy consumption performed by using the method of brain mapping allows assessing the degree of dominance. The dominance of energy consumption in the left hemisphere may indicate a possible failure of adaptation mechanisms. Positive interhemispheric gradients indicate the correct performance of CNS regulatory mechanisms during adaptation to new environmental conditions

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适应北极地区条件下年轻人的脑能代谢

的目标。本文探讨了北极地区不同适应阶段年轻人的脑能代谢特征。材料和方法。对146名年轻人的永久性脑直流电电位(DCP)水平进行了测量:93名出生并永久生活在北极地区，53名在新气候条件下生活最初几个月的移民。这项研究是通过使用“神经- km”12通道硬件-软件复合体来绘制脑电活动的地形图进行的。DCP按照10-20国际体系记录在单极导联中。采用SPSS-20 for Windows软件包对所得数据进行统计处理。结果。在长期生活在北极地区的年轻人中，我们发现几乎所有的线索都是右半球主导的大脑功能不对称。在最初几个月生活在北极地区气候条件下的移民中，我们建立了高能量消耗值和大脑能量代谢的部分不对称。结论。在通常的生境中，身体功能以一套刻板的调节机制为特征。在适应过程中，形成了应对环境变化的新方式。右半球或左半球的主导地位取决于任务的类型。利用脑图的方法对能量消耗的半球间不对称进行分析，可以评估优势程度。能量消耗在左半球的主导地位可能表明适应机制可能失败。正的半球间梯度表明中枢神经系统调节机制在适应新环境条件时的正确表现

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来源期刊

Human Sport Medicine SPORT SCIENCES-

CiteScore

0.70

自引率

50.00%

发文量