ライフサイエンスコーパス: flexor muscle

1 mb, with hip flexion and a burst of an ankle flexor muscle.

2 ed as well as some specific activity of knee flexor muscles.

3 nsiveness of the motor pathway to upper limb flexor muscles.

4 ximal voluntary contractions (MVC) of finger flexor muscles.

5 fish nerve cord and on abdominal superficial flexor muscles.

6 monic ultrasound imaging of the forearm deep flexor muscles.

7 ulting in a P/O ratio of 1.95 in the plantar flexor muscles.

8 ness in the elbow extensor compared to elbow flexor muscles.

9 alance) and static stretching of the plantar flexor muscles.

10 using a lengthening contraction of the dorsi flexor muscles.

11 th additional pathways affecting the plantar flexor muscles.

12 ceps femoris, soleus and intrinsic foot (toe flexor) muscles.

13 at recorded during a stretch of preactivated flexor muscles (34.4 +/- 3.6 msec), in which motoneurons

14 ), and MUNE measurements from forelimb wrist flexor muscles (415 +/- 8 [SEM]) align with back-traced

15 d that instantaneous velocity, extensor, and flexor muscle activity had a significant effect on spind

16 Although the level of elbow flexor muscle activity was lower during eccentric than c

17 ls and occur only after SCI; (2) affect only flexor muscle activity; (3) neither perturb the timing o

18 , the changes in neural drive to the plantar flexor muscles after a static-stretch intervention were

19 controlling elbow extensor compared to elbow flexors muscles after cervical SCI.

20 imulation, this study focuses on the plantar flexor muscles and builds a new reflex circuit controlle

21 due, in part, to the behavior of the plantar flexor muscles and elastic energy storage in the Achille

22 g bilateral contraction of homonymous (elbow flexor) muscles and increased during bilateral contracti

23 Thus, hip extension backward engaged hip flexor muscle, and hip flexion engaged hip extensors.

24 es on changes in neural drive to the plantar flexor muscles, both after a stretch intervention and af

25 tibial extension/flexion and tibial extensor/flexor muscle bursts can occur independently of the femu

26 to the motor neurons innervating the plantar flexor muscles changes after a brief series of stretches

27 Using isolated plantar flexor muscle contractions in individuals a priori selec

28 ial recruitment of motor neurons innervating flexor muscles controlling progressively more distal joi

29 To measure only passive (flexor) muscle-dependent effects, we used constant exten

30 Neural drive to the plantar flexor muscles during a low-force contraction increased

31 to meet the biomechanical demands imposed on flexor muscles during different motor tasks.

32 avioural withdrawal thresholds and increased flexor muscle electromyographic responses to graded supr

33 ordings of cord dorsum potentials and distal flexor muscle electromyography.

34 In simulations using data from ten flexor muscles, flexor passive torque could always produ

35 extensor, one dorsi flexor, and two plantar flexor muscles following TMS to the right leg representa

36 We suggest that intrinsic hand and flexor muscles have a higher potential to show plasticit

37 que musculoskeletal adaptations: the digital flexor muscles have extremely short fibres and significa

38 Furthermore, we show that the digital flexor muscles have minimal ability to contribute to or

39 resonance spectra were acquired from finger flexor muscle in a 4.7 T magnet using a 5 cm surface coi

40 care could increase strength in weak plantar flexor muscles in chronic stroke patients.

41 ve been reported to differ from those of the flexor muscles in humans and other primates.

42 , ratio of ground reaction force and plantar flexor muscle lever arms) (p < 0.001).

43 Although plantar flexor muscle mechanics and Achilles tendon energy stora

44 also suggests that the different effects of flexor muscle nerve afferent stimulation observed experi

45 ssed mitochondrial efficiency in the plantar flexor muscles of 12 healthy adults (21 +/- 1 years) usi

46 of microvascular recruitment) in the forearm flexor muscles of lean and obese adults before and after

47 graphic signals (EMGs) from the extensor and flexor muscles of the contralateral forearm during its e

48 In locomotion, the flexor muscles of the leg are mainly concerned with the

49 gh the relative activity of the extensor and flexor muscles of the thumb was similar, the brain volum

50 ions to the motoneuron pools of extensor and flexor muscles of upper the extremities.

51 nt extensor muscle actively shortens and the flexor muscle passively lengthens.

52 uscle strength (isokinetic knee extensor and flexor muscle peak torque of each leg), muscle thickness

53 after 12 weeks of knee extensor and plantar flexor muscles' PS training by single passive limb movem

54 ulative, reduced reflexes evoked in the knee flexor muscle semitendinosus (ST) by stimulation at the

55 bservation is that, after stroke, upper limb flexor muscles show good recovery but extensors remain w

56 thickness change between three ankle plantar flexor muscles (soleus, medial and lateral gastrocnemius

57 ntrol animals, while also decreasing plantar flexor muscle strength by 13% and femur strength by 41%

58 Plantar flexor muscle strength increased in chronic stroke patie

59 However, grip strength and plantar flexor muscle strength were significantly decreased in C

60 This study examined how plantar flexor muscle-tendon mechanics during running differs be

61 ng running patterns, to characterize plantar flexor muscle-tendon mechanics.

62 ns with springs in parallel to human plantar flexor muscle-tendons can reduce the metabolic cost of w

63 overy of elbow extensors compared with elbow flexor muscles, to date, the neural mechanisms underlyin

64 ted with the conditioned EMG activity in the flexor muscles under study.

65 ultrasound perfusion imaging of the forearm flexor muscles was performed to evaluate capillary blood

66 in 12 chronic stroke patients, with plantar flexor muscle weakness, using a randomized controlled cr

67 nderwent nerve transfer to reinnervate elbow flexor muscles were assessed using intramuscular electro

68 healthy human subjects, reflex responses in flexor muscles were recorded following extension perturb

69 ted to spasticity and contracture at plantar flexor muscles, whereas heel walking can be attributed t

70 nant influence in patterning the activity of flexor muscles, whereas the redundant activities of grou

71 tions controlling elbow extensor compared to flexor muscles, which is more pronounced after chronic c

72 ity was recorded from the three main plantar flexor muscles while participants performed an isometric