ライフサイエンスコーパス: muscle tension

1 ss, vocal hyperfunction, benign lesions, and muscle tension.

2 uscle, the relationship between longitudinal muscle tension and longitudinal muscle shortening, and t

3 ducers were placed along the colon to record muscle tension and propulsive force on the pellet and mi

4 length change led to an increase in resting muscle tension and to a transient increase in [Ca2+]i.

5 ctly influenced muscle tension (Distress --> Muscle Tension), and the third posited that the effect o

6 active and "passive" components of circular muscle tension are separately extracted from concurrent

7 ations observed between stimulation rate and muscle tension as well as the probability that as few as

8 in the mutant hearts consistent with loss of muscle tension because N-cadherin was no longer availabl

9 Muscle tension development during contraction was signif

10 In airway smooth muscle, tension development caused by a contractile stim

11 he first posited that emotional distress and muscle tension directly influenced pain (hypothesis 1a:

12 f emotional distress on pain was mediated by muscle tension (Distress --> Muscle Tension --> TMJD pai

13 that emotional distress directly influenced muscle tension (Distress --> Muscle Tension), and the th

14 Mathematical analysis showed that the muscle tension due to contralateral stimulation increase

15 ctive and "passive" components of esophageal muscle tension during bolus transport.

16 ortly before phlebotomy, and distraction and muscle tension during collection.

17 sing mixed methods and including adults with muscle tension dysphonia from academic otolaryngology cl

18 of diagnoses such as vocal fold nodules and muscle tension dysphonia.

19 examined the relationships among masticatory muscle tension, emotional distress, and TMJD pain in a s

20 vels of autonomic symptoms (e.g., headaches, muscle tension [F = 25.0, p < 0.0011 and higher behavior

21 was mediated by muscle tension (Distress --> Muscle Tension --> TMJD pain).

22 s 1a: Distress --> TMJD Pain; hypothesis 1b: Muscle Tension --> TMJD Pain).

23 ndings support a causal role for masticatory muscle tension in TMJD pain.

24 the finding that the T-jump effect on active muscle tension is pronounced during shortening, but is d

25 chilles' tendon, foot) transmitting the calf muscle tension is stiff.

26 e behavioral output by using video analysis, muscle tension measurements, and electromyography.

27 gue, difficulty concentrating, irritability, muscle tension, or sleep disturbances).

28 Chronic muscle tension placed on the pericranial muscles and sca

29 SIF motoneurons would contribute to increase muscle tension progressively toward the on-direction as

30 tal gut transit, colonic bead expulsion, and muscle tension recordings.

31 ckling in the tymbal, and a small release of muscle tension resulted in a rapid recovery due to the s

32 rneurons, are stretch sensitive, rather than muscle tension sensitive, since they are resistant to mu

33 to be largely stretch sensitive, rather than muscle-tension sensitive, since they generate ongoing tr

34 In the mediation model, the addition of muscle tension to the model reduced the impact of emotio

35 Consequently, muscle tension was systematically lower in muscles from

36 Changes in muscle tension were recorded isometrically.