ライフサイエンスコーパス: muscle stiffness

1 m-independent option to treat spasticity and muscle stiffness.

2 scle action potentials (myotonia), producing muscle stiffness.

3 d be considered in cases of exercise-induced muscle stiffness.

4 scle action potentials (myotonia), producing muscle stiffness.

5 ormal cardiac output by sustaining force and muscle stiffness.

6 accompanied by elevated titin-based passive muscle stiffness.

7 ctancy, promoted muscle growth and increased muscle stiffness.

8 tudies of excitability to in vivo studies of muscle stiffness.

9 rroboration for the hyaluronan hypothesis of muscle stiffness.

10 the impact of ECM architecture on TD and CP muscle stiffness across in vivo operating ranges.

11 The rate of relief from muscle stiffness after 12 weeks was almost twice as high

12 Five patients with muscle stiffness after stroke and 5 healthy controls wer

13 ponential T(1p) mapping in patients with arm muscle stiffness after stroke and its ability to measure

14 treatment monitoring tool for patients with muscle stiffness after stroke.

15 hisking indicate that an increase in overall muscle stiffness, an increase in the ratio between deep

16 nd thin filaments, and gives rise to passive muscle stiffness; an important determinant of diastolic

17 element and its deficiency leads to loss of muscle stiffness and aberrant mechanotransduction in ske

18 uld trigger a cascade of events that lead to muscle stiffness and altered motor unit development.

19 in cable number is accompanied by increased muscle stiffness and an increase in the number of collag

20 We found at matched sarcomere lengths muscle stiffness and collagen architecture were similar

21 per motor neuron syndrome and often leads to muscle stiffness and disability.

22 d that the slope of the relationship between muscle stiffness and force decreased with decreasing sho

23 ff person syndrome (SPS) is characterized by muscle stiffness and gait difficulties.

24 s no significant difference in terms of both muscle stiffness and pain levels before and after treatm

25 As the activation progressed, the muscle stiffness and phase angle steadily increased; the

26 rgic) neurotransmission is believed to cause muscle stiffness and spasms.

27 cted rabbits can cause MN hyperexcitability, muscle stiffness and spasticity characteristic of CP.

28 Impaired motor control, including muscle stiffness and spasticity, is the hallmark of spas

29 er the treatment in terms of upper trapezius muscle stiffness and the pain levels in the patient grou

30 ratio between deep and superficial intrinsic muscle stiffness, and an increase in sinus blood pressur

31 ers, disrupts perinuclear MT arrays, reduces muscle stiffness, and decreases larval crawling velocity

32 sient adverse events such as increased pain, muscle stiffness, and headache were reported 50% to 67%

33 reduced body size, evoked tremor, seizures, muscle stiffness, and morbidity by postnatal day 21.

34 morphology, including muscle thickness (MT), muscle stiffness, and muscle quality.

35 in the muscles of patients with post-stroke muscle stiffness, and that muscle hyaluronan content is

36 yotonia, cold induced myotonia, resulting in muscle stiffness, and tightness.

37 n (GAG) content in patients with post-stroke muscle stiffness; and to determine the effect of hyaluro

38 Among them, muscle stiffness as measured by SWE, T(2), and extracell

39 auses widespread chronic pain, asthenia, and muscle stiffness, as well as in some cases depression, a

40 ify GAG content in patients with post-stroke muscle stiffness before and after hyaluronidase injectio

41 dy is the first to demonstrate that fibrotic muscle stiffness can elicit FAP activation to myofibrobl

42 ck, thigh) but Tibialis Anterior (foot lever muscle) stiffness decreased inflight vs. preflight (p <

43 e myopathy characterized by exercise-induced muscle stiffness due to mutations in the ATP2A1 gene.

44 both the enhanced excitability of myotonia (muscle stiffness due to repetitive discharges) and the i

45 ce, F, approximates the isometric force, the muscle stiffness, E, is large, and the muscle hysteresiv

46 e (CRS) measuring patient reported change in muscle stiffness from baseline.

47 hanges in muscle and ECM architecture impact muscle stiffness, gait and joint function in CP.

48 n utero (at 70%-83% gestation) are born with muscle stiffness, hyperreflexia and, as recently discove

49 tion of EDL and SOL indicated an increase in muscle stiffness in KO animals.

50 ority of CE over placebo in the treatment of muscle stiffness in MS.

51 While longer sarcomeres increase muscle stiffness in patients with CP compared to typical

52 Muscle stiffness in stiff-person syndrome (SPS) is produ

53 ific and characteristic pattern of increased muscle stiffness indicative of the fibrotic and necrotic

54 Post stroke muscle stiffness is a common problem, which left untreat

55 Muscle stiffness is a digital biomarker for risk monitor

56 The results suggest that muscle stiffness is characterized by increased muscle fr

57 e does not occur, although during shortening muscle stiffness is reduced compared to the isometric st

58 displays three important characteristics: 1) muscle stiffness leads force during force development; 2

59 In patients, muscle stiffness lessens with exercise, a change known a

60 trols (n = 5), and patients with post-stroke muscle stiffness (n = 5) were recruited (March 2017-Apri

61 e contraction, the frequency response of the muscle stiffness of single beta-escin permeabilized smoo

62 ture of Brody disease is an exercise-induced muscle stiffness of the limbs, and often of the eyelids.

63 e tense LR seems inconsistent with intrinsic muscle stiffness or diffuse orbital fat pressure but sug

64 identified in families with either myotonia (muscle stiffness) or periodic paralysis, or both.

65 l with eight components addressing symptoms (muscle stiffness, pain and discomfort and muscle spasms,

66 In addition to the hallmark muscle stiffness, patients with recessive myotonia conge

67 ease in the pain level and the reductions in muscle stiffness (r = 0.595).

68 t hypercontractile phenotype with congenital muscle stiffness, rather than weakness, and respiratory

69 Following muscle injury, muscle stiffness remained elevated after morphological r

70 Except for global muscle stiffness, results of neurologic examination are

71 associated with chronic symptoms, including muscle stiffness, spasms, pain and insomnia.

72 Multiple sclerosis is associated with muscle stiffness, spasms, pain, and tremor.

73 putative roles of orbital fat and intrinsic muscle stiffness suggested to be alternatives to connect

74 enita, the diaphragm has much less myotonia (muscle stiffness) than the extensor digitorum longus or

75 how hand function arises from neurally tuned muscle stiffness that balances finger stability with com

76 are neuromuscular disorders characterized by muscle stiffness that intensifies in cold environments.

77 e producing myotonic discharges (observed as muscle stiffness) that are worsened by elevated K+ level

78 he independent preparatory control of reflex muscle stiffness, the selective extraction of informatio

79 amplitude required to cause active force or muscle stiffness to fall by half, or hysteresivity to do

80 amplitude required to cause active force or muscle stiffness to fall by half, or hysteresivity to do

81 Muscle stiffness values of both groups were evaluated wi

82 Muscle stiffness was estimated during pCa 6.0 activation

83 No acute effect on passive muscle stiffness was observed.

84 However, titin-based muscle stiffness was reduced in the mice that expressed

85 rom these hearts (n=8) revealed that passive muscle stiffness was significantly reduced in patients w

86 Muscle stiffness was the most prominent symptom overall,

87 ped natural frequency as an approximation of muscle stiffness, which in turn reflects stress.