ライフサイエンスコーパス: physical exertion

1 gories, ordered to reflect typical levels of physical exertion.

2 to perform the daily activities that require physical exertion.

3 ound the higher arterial pressures evoked by physical exertion.

4 ty of sensorimotor and visceral responses to physical exertion.

5 occurred during or immediately after unusual physical exertion.

6 eath due to cardiac causes, independently of physical exertion.

7 tophoresis session, eliminating the need for physical exertion.

8 ent-related potential is affected by walking physical exertion.

9 getic stressors such as food deprivation and physical exertion.

10 Physical exertion and anger or emotional upset are trigg

11 t a combination of factors including extreme physical exertion and heat exposure.

12 Physical exertion and high-fat diet did not increase the

13 The other 2 patients heard a "pop" during physical exertion and immediately became dyspneic, and a

14 al challenges due to cold temperatures, high physical exertion, and 24-hour daylight.

15 ired for mitochondrial fusion in response to physical exertion, and for the associated extension in l

16 nal protective equipment, work arrangements, physical exertion, and work with heavy equipment may put

17 Physical exertion, anger, and emotional upset are report

18 athletes, which are usually associated with physical exertion, continue to achieve high public visib

19 s, 54% in high school students, and 82% with physical exertion during competition/training, whereas o

20 Exposure to extreme heat and physical exertion during fire suppression activates plat

21 al upset and 5.3% (n = 708) engaged in heavy physical exertion during the case period.

22 Physical exertion, emotional stress and environmental te

23 lation evolved to meet demands during marked physical exertion for "fight or flight" survival, comple

24 Experiences of physical exertion guide our assessments of effort.

25 ed flow field of a neighbour to reduce their physical exertion, however, the mechanism by which such

26 suggest mechanisms of vaso-occlusion during physical exertion in SCT.

27 Heavy physical exertion in the case period was associated with

28 ns for elderly users, thereby reducing their physical exertion in the kitchen and enhancing their com

29 e benefits and risks of physical activity or physical exertion in varied environments and during comp

30 in's GABAergic system integrates features of physical exertion into judgments of effort, and how basi

31 Fatigue due to physical exertion is a ubiquitous phenomenon in everyday

32 ne response to a challenging situation (i.e. physical exertion or aggressive context).

33 ow the nervous system uses information about physical exertion to generate assessments of effort.

34 Vigorous physical exertion transiently increases the risk of acut

35 ischaemic stroke, and ICH, while acute heavy physical exertion was associated with ICH only.

36 The adjusted odds of dying during physical exertion were higher in men than in women (odds

37 iation of anger or emotional upset and heavy physical exertion with acute stroke, to determine the im