躯体运动的调节系统,内脏活动的中枢调节;
The regulation system of somatic motor, The central regulation of visceral sensation;
切断后,该神经根至其肌肉效应器的躯体运动神经支配被中断了。
When transected, the somatic motor innervation of this specific spinal root to its effector muscles remains interrupted.
右半球展示了躯体感觉区、躯体运动区、视区及内容调节区。
The right hemisphere displays the body's sense area, movement area and contents regulation area.
然而专家尚未明确指出躯体运动能否对阿尔茨海默病患者产生这些作用。
But experts have not yet clearly defined whether or not physical activity has an effect on those with Alzheimer's.
疑核是重要的内脏运动核和躯体运动核,它与中枢神经系统和外周器官建立了广泛的神经联系。
Nucleus ambiguus (NA) is an important visceral and somatic motor nucleus which establishes widely connections with the central nervous system and peripheral organs.
躯体运动神经元同时支配MPG和EUS可能是人工体神经内脏神经反射弧控制排尿的主要神经解剖学基础。
Simultaneous reinnervation of MPG and EUS by one group of somatic motor neurons may be the major neural anatomy infrastructure for controllable voiding via the somatic-autonomic reflex arc.
结果:电针后患者双侧第一躯体运动皮质区、运动前区及顶上小叶和健侧的补充运动区发生明显的代谢功能变化。
Results: the significant changes of metabolic function were exhibited in MI, PMC, Lps bilaterally, as well as the SMA of healthy side after acupuncture.
对这些影像学进行分析的第一步工作就是对他们的共同解剖学结构进行校准,例如将运动皮层与躯体感觉皮层分离开的中央沟。
The first step in analyzing these images is to align their common anatomical structures, such as the "central Sulcus," a fold that separates the motor cortex from the somatosensory cortex.
完成认知测验时,与受损害个体相比,正常个体步态呈规则周期性、抬脚速度更快,并且头部和躯体的运动也更迅速。
Healthy individuals demonstrated a more periodic gait with regular and higher velocity foot kicks and faster torso and head movement than impaired individuals when completing a cognitive task.
结合躯体感觉和运动诱发电位监测可以检测出大部分患者的早期脊髓损伤。
Combined somatosensory and motor evoked potential monitoring allows the detection of early spinal cord dysfunction in most patients.
目的:为了解运动后营养物质的补充对躯体性疲劳消除的作用。
Objective:In order to study the effects of nutritional substance supplement for clearing up body tiredness after exercise.
古希腊强调的是:选择灵魂(理性)的需要而不是躯体(感觉)的需要,按照人的理性需要去影响生命运动;
The view of the ancient Greece emphasized as follows: choose soul(rational) rather than the needs of the body(feeling), and in accordance with the rational needs which influence life movements.
结论:在许多儿童脊柱畸形手术中,结合躯体感觉和运动诱发电位监测可以有效避免神经系统损伤。
Conclusions: Combined somatosensory and motor evoked potential monitoring effectively prevents neurologic injury in most children undergoing surgery for spinal deformity.
结果扣带回接受来自支配前肢和颜面部的运动区皮质以及额叶和躯体感觉区皮质的神经元投射。
Result Cingulate cortex received projections from frontal cortex, motor cortex of foreleg area, face area and somatic sensory area.
神经组织损伤可造成患者躯体感觉、运动功能障碍和严重的心理功能失调。
Disorders of somatesthesia and locomotion and disturbance of mental function appeard when nerve tissue is injured.
认知焦虑、自信心与运动成绩是线性相关;躯体焦虑与运动成绩是“倒正”型关系。
Cognitive anxiety and self-confidence had a linear relationship with performance, and somatic anxiety had an inverted-U relationship with performance.
结论:运动级别越高的运动员越倾向于任务取向,认知和躯体状态焦虑越低,状态自信心越高。
Conclusion: the higher the exercise level athletes, the more inclined to task orientation, the lower cognitive and somatic state anxiety, the higher the state self-confidence.
不同年龄跳伞运动员SCL-90的躯体化和恐怖情绪差异有显著性意义(P<0.05);
There were obvious differences in the somatization of SCL-90 and horror(P<0.05) among varying-aged parachuting athletes.
不同运动成绩的运动员认知状态焦虑、躯体状态焦虑、状态自信心之间差异具有显著性。
As to athletes with different sports achievement, the differences are obvious in aspects of cognitive-state anxiety, somatic-state anxiety and self-confidence.
结论:针刺耳甲区对心血管和胃肠运动产生调节优于躯体部位针刺,且依赖于副交感神经传出系统的完整性。
Conclusion the adjustment of ear acupuncture over gastric movement and cardiovascular system is superior to that of body acupuncture.
结果表明:女运动员与其他职业青年女性心理健康水平无明显差异,但在躯体化、抑郁、焦虑等方面症状明显;
The result shows that there is no significant difference in psychological health level between the two groups but there are significant symptoms of bodybuilding, depression and anxiety.
运动神经元疾病破坏大脑内控制动作的神经,使患者成为不动的躯体。
Motor neurone disease destroys nerves in the brain that control movement, leaving patients locked in a failing body.
运动神经元疾病破坏大脑内控制动作的神经,使患者成为不动的躯体。
Motor neurone disease destroys nerves in the brain that control movement, leaving patients locked in a failing body.
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