ライフサイエンスコーパス: muscle paralysis

1 tentially contributes to the amelioration of muscle paralysis.

2 repeated during mechanical ventilation after muscle paralysis.

3 or neurons in the spinal cord and subsequent muscle paralysis.

4 rmanent loss of voluntary motor function and muscle paralysis.

5 ular disorder with loss of motor neurons and muscle paralysis.

6 rent severities of lung injury compared with muscle paralysis.

7 stem is paradoxically forced into a state of muscle paralysis.

8 by motor neuron degeneration and progressive muscle paralysis.

9 by selective motor neuron death resulting in muscle paralysis.

10 of motor neurons (MNs) that causes skeletal muscle paralysis.

11 acetylcholine, thereby resulting in flaccid muscle paralysis.

12 s one of their target sites, thereby causing muscle paralysis.

13 characterized by motoneuron degeneration and muscle paralysis.

14 age and an ex vivo assay for BoNT/A-mediated muscle paralysis.

15 of fiber apoptosis following denervation and muscle paralysis.

16 rs, resulting in membrane inexcitability and muscle paralysis.

17 positive emotions trigger these episodes of muscle paralysis.

18 gation and an almost complete elimination of muscle paralysis.

19 n the proximal tibia metaphysis at 7 d after muscle paralysis (+113%, P<0.02).

20 Muscle paralysis also markedly alters the expression of

21 on compared with mechanical ventilation with muscle paralysis and absence of diaphragmatic activity.

22 ha motor neurons (alphaMNs), associated with muscle paralysis and atrophy, as well as other periphera

23 tract infections as the result of expiratory muscle paralysis and consequent inability to cough.

24 a degenerative motor neuron disease, causing muscle paralysis and death from respiratory failure.

25 is associated with quadriplegia, respiratory muscle paralysis and death in infancy.

26 Early muscle paralysis and epinephrine administration aids res

27 Spinal cord injury (SCI) causes muscle paralysis and extensive sublesional bone loss and

28 ) channels, and small changes cause skeletal muscle paralysis and myotonia, epilepsy, and cardiac arr

29 morbidity and mortality owing to respiratory muscle paralysis and paralysis in the face of inadequate

30 d electroencephalogram and complete skeletal muscle paralysis, and is associated with vivid dreams.

31 ss of heparanase 2 caused embryonic skeletal muscle paralysis, and morphant motor neurons had aberran

32 substances known to humankind, cause flaccid muscle paralysis by blocking acetylcholine release at ne

33 lan Scott initially investigated extraocular muscle paralysis by botulinum injection in 1973, and in

34 Botulinum neurotoxin A (BoNT/A) induces muscle paralysis by enzymatically cleaving the presynapt

35 Botulinum toxin A-induced muscle paralysis caused pronounced osteopenia in control

36 vivid dream mentation combined with skeletal muscle paralysis characterizes rapid eye movement sleep.

37 A into selected forelimb muscles to produce muscle paralysis during the period of development of CS

38 al cord injury (SCI), scoliosis due to trunk muscle paralysis frequently requires surgical treatment.

39 The benefits of spontaneous breathing over muscle paralysis have been proven mainly in mild lung in

40 Muscle paralysis in little skate embryos leads to joint

41 mmy sample and found that it induced tetanus muscle paralysis in mice, with potency comparable to mod

42 neurons might also be recruited to block the muscle paralysis in narcolepsy.

43 cle weakness, it is not the primary cause of muscle paralysis in the acute stage, during which impair

44 cterised by episodes of often severe flaccid muscle paralysis, in which the muscle fibre membrane bec

45 Muscle paralysis increased the number of Hh-responsive c

46 In summary, transient muscle paralysis induced acute RANKL-mediated osteoclast

47 ver, the cellular mechanism underlying acute muscle paralysis-induced bone loss (MPIBL) is poorly und

48 rn of function after botulinum toxin-induced muscle paralysis is due to terminal sprouting and format

49 Cataplexy, a sudden unexpected muscle paralysis, is a debilitating symptom of the neuro

50 most potent of all toxins that cause flaccid muscle paralysis leading to death.

51 ontraction during mechanical ventilation and muscle paralysis may be a contributing factor to unsucce

52 nt with curare or alpha-BTX, suggesting that muscle paralysis may not be the sole factor involved in

53 eous breathing could worsen lung injury, and muscle paralysis might be more protective for injured lu

54 The effect of muscle paralysis on late embryonic- or larval-stage main

55 In this study, the effect of Botox-induced muscle paralysis on myofiber remodeling in adult EOMs wa

56 ction appear normal in relaxed, showing that muscle paralysis per se does not impede proper synapse d

57 Muscle paralysis prevented the increases in MAP and Glu

58 protein in mice shortened duration of local muscle paralysis, restoring muscle function within hours

59 nanotherapy for the treatment of respiratory muscle paralysis resulted from cervical SCI.

60 d by chronic sleepiness and cataplexy-sudden muscle paralysis triggered by strong, positive emotions.

61 improvements in lung aeration were observed, muscle paralysis with severe lung injury resulted in bet

62 ated, as in the contraction group, following muscle paralysis with tubocurarine.

63 It has been supposed that rectus muscle paralysis would cause proptosis due to the reduct