ライフサイエンスコーパス: electromyography

1 elies on specialized testing of single-fiber electromyography.

2 nse to colorectal distension was assessed by electromyography.

3 utinely involve nerve conduction studies and electromyography.

4 and avoids localization errors of muscles in electromyography.

5 o analysis, muscle tension measurements, and electromyography.

6 and air jet esthesiometers and blink rate by electromyography.

7 otentials on repetitive nerve stimulation on electromyography.

8 ated by weeks) by using high-density surface electromyography.

9 retrospective ratings and concurrent facial electromyography.

10 scranial magnetic stimulation and concurrent electromyography.

11 haviour detectable with simultaneous surface electromyography.

12 ,333 IU/liter), and an irritable myopathy on electromyography (88%).

13 yoelectric prosthesis is enabled via decoded electromyography activity from reinnervated muscles and

14 fMRI laterality index and with paretic hand electromyography activity.

15 Eleven (41%) of 27 patients also underwent electromyography; all of these patients demonstrated neu

16 Through the use of electromyography analysis, joint angle measurements and

17 Electromyography and bite-forces were measured during ri

18 Other modalities such as sphincter electromyography and central nervous system imaging have

19 g a detailed family history, complemented by electromyography and creatine kinase measurements, shoul

20 and heart conduction abnormalities, shown by electromyography and electrocardiogram analysis, respect

21 duced muscle and brain responses measured by electromyography and electroencephalography.

22 Continuous surface electromyography and footplate manometry monitored task

23 mmatory polymyositis, which was confirmed by electromyography and muscle histology.

24 In seven of 12 patients who underwent electromyography and nerve conduction examinations, evid

25 sis of lumbosacral plexopathy was made after electromyography and nerve conduction studies and the et

26 Traditional (indirect) techniques, such as electromyography and nerve conduction velocity measureme

27 CTM electromyography and neurogram recordings in naive rats

28 udies, needle electromyography, single-fiber electromyography and thermal thresholds were performed.

29 response corresponding to PP was assessed by electromyography and used as an objective criterion of P

30 omposition approach for high-density surface electromyography and was tested with two experimental st

31 ncluded slopes for fear-potentiated startle (electromyography) and self-reported risk ratings.

32 acortical circuits (suppression of voluntary electromyography) and spinal motoneurons (F-waves) in an

33 acortical circuits (suppression of voluntary electromyography) and spinal motoneurons (F-waves) in in

34 o the development of spontaneous activity on electromyography, and are probably the consequence of ca

35 story, clinical, magnetic resonance imaging, electromyography, and biomarker features, was developed

36 Here, we combined kinematic, electromyography, and brain activity measures obtained b

37 ent neurologic and rheumatologic evaluation, electromyography, and muscle biopsy after exclusion for

38 ys, multi-electrode electroretinography, and electromyography, are also viable with this technology.

39 uropathy who completed autonomic testing and electromyography at Mayo Clinic Rochester between 1993 a

40 s such as somatosensory-evoked potentials or electromyography be used to provide optimal monitoring.

41 Measurement of long-lasting reflex using electromyography, behavioral follow-up, and histological

42 or control exercise, progressive relaxation, electromyography biofeedback, low-level laser therapy, o

43 Root mean square electromyography/bite-force calibrations determined subj

44 Phenotypic characterizations included electromyography, brain magnetic resonance and nuclear i

45 ; a subset had electroencephalography (EEG), electromyography, brain MRI, CSF analysis, or a combinat

46 or detected by local electrical stimulation (electromyography), but thin or buried nerves are sometim

47 Diaphragmatic electromyography can predict PNP with a comfortable safe

48 ions were investigated noninvasively by chin electromyography, cervical piezoelectric sensor, and ind

49 Electromyography data indicated no impairment of motor a

50 generalised electrodecrement and paraspinal electromyography dropout consistent with atonic seizures

51 sure respiration with electroencephalography/electromyography (EEG/EMG) to discriminate wake-sleep st

52 male Sprague-Dawley rats underwent diaphragm electromyography electrode implantation and SH surgery.

53 6/2 mice and five wild-type littermates with electromyography electrodes, frontofrontal and frontopar

54 e, chest wall movement, electrocardiography, electromyography, electroencephalography, electro-oculog

55 nal recovery was assayed using the timing of electromyography (EMG) activity recorded from the tibial

56 Periorbital electromyography (EMG) and 22 kHz ultrasonic vocalizatio

57 A number of TMS-electromyography (EMG) and TMS-electroencephalography (E

58 The nerve conduction study (NCS) and electromyography (EMG) attributes that might differentia

59 ts of peripheral muscle resistance (PMR) and electromyography (EMG) before and during ankle flexion.

60 n of an automated algorithm based on surface electromyography (EMG) for differentiation between convu

61 ere recorded using accelerometry and surface electromyography (EMG) from 10 Parkinson's disease patie

62 Electromyography (EMG) from the external oblique muscle

63 inothoracic computed tomography (n = 39) and electromyography (EMG) of the abdominothoracic wall (n =

64 fast errors are only the tip of the iceberg: electromyography (EMG) revealed fast subthreshold muscle

65 Si pellets arrays, photodetector arrays, and electromyography (EMG) sensors, from their preparation s

66 Here we used electromyography (EMG) to compare neural correlates of l

67 It is easy to forget the contribution of electromyography (EMG) to the investigation of paediatri

68 External urethral sphincter (EUS) electromyography (EMG) was typical for the rat, with pha

69 Electromyography (EMG) was used to measure activation in

70 tin, detailed neurologic examination, needle electromyography (EMG), and nerve conduction studies (NC

71 Neuromuscular transmission, electromyography (EMG), and NMJ morphology were assessed

72 between systolic blood pressure (SBP), calf electromyography (EMG), and resultant center of pressure

73 easurements of electroencephalography (EEG), electromyography (EMG), locomotor activity, and subcutan

74 y (MRS) brain, electroencephalography (EEG), electromyography (EMG), muscle biopsy, high-resolution m

75 Activation onset can be estimated from electromyography (EMG)-registered muscle excitation and

76 s estimated through vastus lateralis surface electromyography (EMG).

77 invasive clinical test called intramuscular electromyography (EMG).

78 of the startle blink reflex as measured with electromyography (EMG).

79 I; 51% of total expenditures; $7.5 billion), electromyography (EMG; 20% of expenditures; $2.6 billion

80 ncremental cycle exercise with diaphragmatic electromyography (EMGdi) and respiratory pressure measur

81 o record genioglossal activity (genioglossal electromyography [EMGgg]), normalized with a maximal man

82 Electromyography findings verified no muscle activity.

83 scular dystrophy dystroglycanopathy cases by electromyography found that a defective neuromuscular ju

84 Upper limb motor function scores, electromyography from arm and hand muscles, placebo-expe

85 Tremor was measured by surface electromyography from leg and paraspinal muscles.

86 The correlations between genioglossus electromyography (GGEMG) and epiglottic pressure across

87 Electromyography-guided phrenic nerve (PN) monitoring us

88 Electromyography-guided PN monitoring seems safe and pot

89 Electromyography-guided PN monitoring using a catheter p

90 ate the feasibility, efficacy, and safety of electromyography-guided PN monitoring using a novel hepa

91 Electromyography-guided PN monitoring was performed by p

92 e observed no PNP or complication related to electromyography-guided PN monitoring.

93 ion of motor cortical activity together with electromyography in mice during two forelimb movements t

94 Eyeblink electromyography in normal adults was recorded after eit

95 ent had neuromyotonia, which was excluded by electromyography in seven of the others.

96 in overt proximal weakness, fibrillations on electromyography indicating active denervation, and redu

97 SA using an hCPG that receives diaphragmatic electromyography input and use it to stimulate the vagus

98 andard' technologies as mechanomyography and electromyography is not absolute, it is probably adequat

99 MG at a specialized neuromuscular clinic and electromyography laboratory at a tertiary care academic

100 res that were detectable on muscle biopsies, electromyography, muscle magnetic resonance imaging, and

101 the motor unit are nerve conduction studies/electromyography (NCS/EMG) and muscle biopsy.

102 voluntary contractile capacity and performed electromyography, nerve conduction studies, and vastus l

103 Electromyography/nerve conduction studies showed evidenc

104 " limb-withdrawal responses, detectable with electromyography of the arm to which pain is predicted.

105 Simultaneous recordings were obtained from electromyography on antagonistic muscles (right flexor d

106 re trained to record masseter and temporalis electromyography over 3 days and 3 nights.

107 of pudendal nerve injury is limited; needle electromyography provides a sensitive measure of denerva

108 sions while simultaneously recording surface electromyography (quadriceps and hamstrings).

109 Electroencephalography/electromyography recordings indicated that AC3 KO mice h

110 High-density surface electromyography recordings were decomposed into motor u

111 Using bilateral electromyography recordings, we excluded the possibility

112 Needle electromyography revealed continuous motor unit activity

113 Electromyography revealed persistent abnormalities in F-

114 53 M/s) with normal latencies (2-3 msec) and electromyography revealed signs of denervation.

115 Multisite electromyography revealed that blocking Cx36 in the IO i

116 s for such devices are presented for surface electromyography (sEMG).

117 Electromyography showed bilateral activation of erector

118 Electromyography showed distal more than proximal chroni

119 Electromyography shows denervation, and patients often r

120 , such as spikes, local field potential, and electromyography signals, and can stimulate based on rea

121 Nerve conduction studies, needle electromyography, single-fiber electromyography and ther

122 Electromyography, specifically the M-wave, was analysed

123 Electromyography studies indicated myopathy and findings

124 t integrates electrotactile stimulation with electromyography, temperature, and strain sensing in a s

125 t integrates electrotactile stimulation with electromyography, temperature, and strain sensing in a s

126 ed chronic neurogenic change were present on electromyography, the firing rate of fasciculations in a

127 firmed patients and 65 controls using needle electromyography, the long exercise test, and short exer

128 ion technique and gait analysis with surface electromyography to calculate knee joint kinematics and

129 Our approach made use of electromyography to measure the activation of all releva

130 To test these hypotheses, we used electromyography to measure the activity of 13 muscles o

131 We used quantitative flow visualization and electromyography to show that trout will adopt a novel m

132 To test this, electromyography was used to measure muscle activity at

133 Using electromyography, we then investigated the physiological

134 atients in whom nerve-conduction studies and electromyography were performed, the results in 36 patie

135 e related to the muscle biopsy specimens and electromyography, were consistent with a neurogenic dise

136 stigated by challenging the diaphragm, using electromyography with hypercapnia and optogenetic photoa

137 ns, hyperreflexia, and active denervation on electromyography without cerebellar ataxia.