ライフサイエンスコーパス: fatiguing

1 users to physically attempt speech, which is fatiguing and can slow communication.

2 ercise (80% peak power output) for 30 s (non-fatiguing) and to exhaustion ( approximately 9 min; fati

3 ng) and to exhaustion ( approximately 9 min; fatiguing) both under control conditions and with lumbar

4 effort for reward, before and after bouts of fatiguing cognitive exertion.

5 s did not result in lower performance due to fatiguing conditions, although students perceived subjec

6 During the fatiguing contraction protocol completed with NaNO(2) at

7 ip over the course of an ischaemic series of fatiguing contractions and subsequent recovery using the

8 olic calcium concentration during single non-fatiguing contractions at a near-physiological oxygen te

9 cycles of 2.5, 10 and 20 % before and after fatiguing contractions that diminished peak tension and

10 tments that constrain muscle function during fatiguing contractions.

11 feed arteries (FA) dilated maximally during fatiguing contractions.

12 rate (+16-20 beats min(-1)) increased during fatiguing diaphragm contractions.

13 ut are prone to significant deterioration as fatiguing endurance exercise proceeds.

14 erents, MVC and VA remained unchanged during fatiguing exercise (P > 0.3).

15 tivity exist in males but not females during fatiguing exercise and seem to be related to testosteron

16 Fatiguing exercise causes hydrolysis of phosphocreatine,

17 The fatiguing exercise consisted of 120 maximal velocity con

18 ve frequently been observed to change during fatiguing exercise in ways that could influence the deve

19 loss and tissue oxygenation in response to a fatiguing exercise protocol were used to quantify fatiga

20 stimulation, rapid voluntary movements and a fatiguing exercise test of a sustained 45-s isometric co

21 n elbow flexor MEP observed from rest to non-fatiguing exercise under control conditions and resulted

22 ge-related increase in power loss during the fatiguing exercise was strongly associated with intracel

23 force generation at the site involved in the fatiguing exercise, but increased during force productio

24 easure the effects of steady-state exercise, fatiguing exercise, or the inverted-U hypothesis.

25 it was produced at the site involved in the fatiguing exercise.

26 Two fatiguing exercises were used, involving force productio

27 nal modeling of choice behavior we find that fatiguing exertions cause participants to increase their

28 At the same relative fatiguing force, the peak systolic pressure and mean art

29 rve activity and blood pressure responses to fatiguing handgrip and post-exercise circulatory occlusi

30 ents of these nociceptive, interoceptive and fatiguing illnesses.

31 range of negative health outcomes, including fatiguing illnesses.

32 well as when PF was preceded immediately by fatiguing inspiratory muscle work (6.28 +/- 2.24 min; P

33 (LVR) while subjects performed two types of fatiguing inspiratory work to the point of task failure

34 while they performed two types of submaximal fatiguing isometric contraction that required either for

35 delayed fatigue development during repeated fatiguing isometric contractions at near-physiological,

36 ed from the rostral brainstem in response to fatiguing isometric contractions of the hindlimb muscle

37 ressure, and heart rate were measured during fatiguing isometric handgrip (IHG) at 30% maximum volunt

38 is study, young healthy volunteers performed fatiguing isometric handgrip before and after a local in

39 decrease in motoneuronal excitability during fatiguing KE.

40 These findings suggest that voluntary fatiguing knee-extension exercise enhances motor cortica

41 k on corticomotoneuronal excitability during fatiguing knee-extensor exercise (KE).

42 the inhibition of the motoneuron pool during fatiguing knee-extensor exercise.

43 ortical and motoneuronal excitability during fatiguing knee-extensor exercise.

44 We asked whether the central effects of fatiguing locomotor muscle fatigue exert an inhibitory i

45 pain model using acidic saline combined with fatiguing muscle contractions.

46 We suggest that feedback from fatiguing muscle plays an important role in the determin

47 ay be influenced by metabolic changes in the fatiguing muscle.

48 anic force, decline in force after a tetanic fatiguing protocol, and single-fiber-specific force.

49 nd cardiovascular homeostatic adjustments to fatiguing small muscle mass exercise.

50 were comparable to those observed following fatiguing stimulation (6.30-6.70 and 18.04 +/- 1.78 mm,

51 When starting fatiguing stimulation at matching forces (i.e. lower sti

52 epletion was limited (a condition imposed by fatiguing stimulation, long-lasting depolarization, or l

53 cerebellar excitability is affected after a fatiguing task and its association with fatigue.

54 ion can detect diaphragmatic fatigue after a fatiguing task, but the results obtained with this techn

55 potentiated twitch force after a potentially fatiguing task.

56 hrenic nerves before and after a potentially fatiguing task; inspiratory threshold loading to task fa

57 and the curvature constant (W'), followed by fatiguing tasks at +10% and -10% relative to critical in

58 r maximal forces and endurance times for the fatiguing tasks.

59 lexor MVC progressively decreased during the fatiguing trial (P < 0.05).

60 and LVR, whereas the two types of diaphragm-fatiguing trials elicited decreases in .Q(L) and increas

61 When the breathing pattern of the fatiguing trials was mimicked with no added resistance,

62 CS of the left DLPFC on performance during a fatiguing visuospatial WM test.