ライフサイエンスコーパス: carpal tunnel

1 al bones and thus defined the borders of the carpal tunnel.

2 dian nerve is compressed at the wrist in the carpal tunnel.

3 e flexor tendons of the hands running in the carpal tunnel.

4 gament (TCL) forms the volar boundary of the carpal tunnel and may provide mechanical constraint to t

5 ral prostate surgery, parathyroidectomy, and carpal tunnel) and major surgical procedures (ie, ventra

6 d trial evidence supports the superiority of carpal tunnel decompression and total knee replacement o

7 ery included debridement of necrotic tissue, carpal tunnel decompression, and external neurolysis.

8 athy of the median nerve at the level of the carpal tunnel, known as carpal tunnel syndrome, is the m

9 ction, aspiration, lithotripsy; arthroscopy, carpal tunnel; or cataract; 2.02 million) in California'

10 the global rating of change scale and Boston Carpal Tunnel Questionnaire.

11 Carpal tunnel release (CTR) technique may influence the

12 ive therapies may undergo open or endoscopic carpal tunnel release for definitive treatment.

13 The outcomes of carpal tunnel release in community-based practices are e

14 In conclusion, carpal tunnel release is associated with significant cut

15 ymptom severity score and rate of subsequent carpal tunnel release surgery on the study hand at 5 yea

16 In a cohort of patients who underwent carpal tunnel release, a preoperative physical examinati

17 and attorney involvement prior to performing carpal tunnel release, and discuss with patients the pro

18 We analyzed data from the Maine Carpal Tunnel Study, a community-based study of the outc

19 ted random allocation stratified by site, to carpal tunnel surgery (n=57) or to a well-defined, non-s

20 In 60 patients undergoing carpal tunnel surgery [36 female, mean age 62.5 (standar

21 ncluding back or neck surgery, appendectomy, carpal tunnel surgery, gynecologic surgery, abdominal su

22 Carpal tunnel symptoms were more common in men taking GH

23 Carpal tunnel syndrome (33%), arthralgia (25%), and derm

24 nd 22 hands were studied in 20 patients with carpal tunnel syndrome (CTS) (five men [mean age, 49.0 y

25 Carpal tunnel syndrome (CTS) is a common and disabling c

26 Bilateral carpal tunnel syndrome (CTS) is a common extracardiac ma

27 Carpal tunnel syndrome (CTS) is a condition in which the

28 Carpal tunnel syndrome (CTS) is the most common nerve en

29 Carpal tunnel syndrome (CTS) leads to distortion of axon

30 Carpal tunnel syndrome (CTS) occurs when the median nerv

31 Carpal tunnel syndrome (CTS), a common peripheral nerve

32 Steroid injections are used in idiopathic carpal tunnel syndrome (CTS), but evidence of efficacy b

33 ng a more prominent role in the diagnosis of carpal tunnel syndrome (CTS), especially ultrasonography

34 e tissue (SSCT) is a pathognomonic change in carpal tunnel syndrome (CTS).

35 are no epidemiologic studies on the risk of carpal tunnel syndrome (CTS).

36 posure-response relationships with prevalent carpal tunnel syndrome (CTS).

37 h ATTR cardiac amyloidosis have a history of carpal tunnel syndrome (CTS).

38 signs, are widely used for the diagnosis of carpal tunnel syndrome (CTS).

39 for rare systemic disorders associated with carpal tunnel syndrome (eg, amyloidosis) should alert cl

40 served between overall physical activity and carpal tunnel syndrome (HR per 1 SD, 1.28; 95% CI, 1.18-

41 atio, 1.3 [95% CI, 1.08-1.90]; P=0.013), and carpal tunnel syndrome (odds ratio, 1.94 [95% CI, 1.43-2

42 between healthy volunteers and patients with carpal tunnel syndrome (P<.001 for both FA and ADC).

43 were significantly elevated in patients with carpal tunnel syndrome (P<0.007) confirming large fibre

44 inical and electrophysiological diagnosis of carpal tunnel syndrome [17 females, mean age (standard d

45 Sixty-three subjects with carpal tunnel syndrome aged 20-60 years and 28 age- and

46 al manifestations and outcomes of ulcerating carpal tunnel syndrome among 9 older adults in Portugal.

47 f the relationships between computer use and carpal tunnel syndrome among office workers, birth weigh

48 toencephalography data from 12 patients with carpal tunnel syndrome and 12 healthy control subjects u

49 Carpal tunnel syndrome and cardiac dysfunction frequentl

50 ures are novel markers of neuroplasticity in carpal tunnel syndrome and could be used to study centra

51 at familial entrapment neuropathies, such as carpal tunnel syndrome and focal ulnar neuropathy syndro

52 Associated features, including carpal tunnel syndrome and lumbar spinal stenosis, raise

53 aged 22 to 69 years with primary idiopathic carpal tunnel syndrome and no prior treatment with local

54 gnose many types of peripheral neuropathies (carpal tunnel syndrome and other entrapment neuropathies

55 ventions are beneficial for the treatment of carpal tunnel syndrome and several treatment options are

56 correlation between the clinical severity of carpal tunnel syndrome and the latency of the early M20,

57 about the best approaches for assessment of carpal tunnel syndrome and to guide treatment decisions.

58 Some of these focal neuropathies such as carpal tunnel syndrome are common, and others such as ne

59 Findings that argue against the diagnosis of carpal tunnel syndrome are unlikely Katz hand diagram re

60 ry outcome was hand function measured by the Carpal Tunnel Syndrome Assessment Questionnaire (CTSAQ)

61 Thus, slower peripheral nerve conduction in carpal tunnel syndrome corresponds to greater delays in

62 Finally, subjects with carpal tunnel syndrome demonstrated a smaller cortical s

63 -finger forced-choice testing, subjects with carpal tunnel syndrome demonstrated greater response tim

64 male, 49.7 +/- 9.9 years old), patients with carpal tunnel syndrome demonstrated increased fractional

65 ychomotor performance testing, subjects with carpal tunnel syndrome demonstrated reduced maximum volu

66 with healthy control subjects, subjects with carpal tunnel syndrome demonstrated reduced second/third

67 Our findings suggest that carpal tunnel syndrome does not exclusively affect large

68 The presence of typical symptoms of carpal tunnel syndrome had a much lower sensitivity.

69 of indeterminate chronicity in 1 woman, and carpal tunnel syndrome in 1 woman.

70 ine for any outcome except for prevalence of carpal tunnel syndrome in vaccinated women at least 30 y

71 Carpal tunnel syndrome is a common complication of repet

72 The pathology of idiopathic carpal tunnel syndrome is a noninflammatory fibrosis of

73 Carpal tunnel syndrome is characterized by numbness and

74 ticity for median nerve innervated digits in carpal tunnel syndrome is indeed maladaptive and underli

75 Carpal tunnel syndrome is the most common entrapment neu

76 Carpal tunnel syndrome is the most common entrapment neu

77 Carpal tunnel syndrome is the most common entrapment neu

78 Carpal tunnel syndrome is the most common peripheral ner

79 uroplasticity and the functional deficits in carpal tunnel syndrome is unknown.

80 uloskeletal manifestations such as bilateral carpal tunnel syndrome or spinal stenosis.

81 is manifesting as macroglossia and bilateral carpal tunnel syndrome presented with skin-colored to ye

82 Boston Carpal Tunnel Syndrome Questionnaire assessed pain and p

83 Suspected carpal tunnel syndrome should be investigated first with

84 the variant for HF, atrial fibrillation, and carpal tunnel syndrome was 27%, 26%, and 43%, respective

85 ty, non-surgical treatment for patients with carpal tunnel syndrome without denervation.

86 rms that surgery is useful for patients with carpal tunnel syndrome without denervation.

87 uses the most common entrapment neuropathy (carpal tunnel syndrome) as a human model system to prosp

88 million have fibromyalgia, 4-10 million have carpal tunnel syndrome, 59 million have had low back pai

89 Carpal tunnel syndrome, a median nerve entrapment neurop

90 Neuroimaging data demonstrate that carpal tunnel syndrome, a peripheral neuropathy, is acco

91 several other noncardiac phenotypes such as carpal tunnel syndrome, and arthroplasty which are top r

92 o experience soft tissue edema, arthralgias, carpal tunnel syndrome, and gynecomastia and were somewh

93 ly used in treating patients with idiopathic carpal tunnel syndrome, but evidence regarding long-term

94 In subjects with carpal tunnel syndrome, but not healthy controls, sensor

95 ns of PMP22 have abnormalities indicative of carpal tunnel syndrome, documented by electrophysiologic

96 This issue provides a clinical overview of carpal tunnel syndrome, focusing on screening and preven

97 further delineated and was shown to include carpal tunnel syndrome, hepatic dysfunction, and possibl

98 Chronic nerve compression (CNC), as in carpal tunnel syndrome, is a common cause of peripheral

99 at the level of the carpal tunnel, known as carpal tunnel syndrome, is the most common entrapment ne

100 The high prevalence of carpal tunnel syndrome, its effects on quality of life,

101 These findings suggest that in idiopathic carpal tunnel syndrome, local methylprednisolone injecti

102 n with osteoarthritis, rheumatoid arthritis, carpal tunnel syndrome, osteoporosis, diffuse idiopathic

103 of common hATTR amyloidosis manifestations (carpal tunnel syndrome, polyneuropathy, cardiomyopathy,

104 Nonsurgical techniques in the treatment of carpal tunnel syndrome, such as yoga, ultrasound, noninv

105 Carpal tunnel syndrome, though generally successfully tr

106 Carpal tunnel syndrome, trigger finger, de Quervain teno

107 Carpal tunnel syndrome, trigger finger, de Quervain teno

108 ts that most common entrapment neuropathies (carpal tunnel syndrome, ulnar neuropathy of the elbow, u

109 -related hand ischemia (ie, steal syndrome), carpal tunnel syndrome, ulnar neuropathy, aneurysms, and

110 neuropathies are overdiagnosed, particularly carpal tunnel syndrome.

111 or chronic obstructive pulmonary disease and carpal tunnel syndrome.

112 heart failure (HF), atrial fibrillation, and carpal tunnel syndrome.

113 more than 80% sensitive and 95% specific for carpal tunnel syndrome.

114 ptoms, is 64% sensitive and 83% specific for carpal tunnel syndrome.

115 currence of long and/or repeated episodes of carpal tunnel syndrome.

116 can predict long-term clinical outcomes for carpal tunnel syndrome.

117 sential to better understand the etiology of carpal tunnel syndrome.

118 l constraint to the median nerve, leading to carpal tunnel syndrome.

119 ent-related synchronization in subjects with carpal tunnel syndrome.

120 C threshold values might be used to diagnose carpal tunnel syndrome.

121 3) mm2/sec might be used in the diagnosis of carpal tunnel syndrome.

122 susceptibility to neuropathy, including the carpal tunnel syndrome.

123 surgery than of splinting for patients with carpal tunnel syndrome.

124 f pathologies implicated in the causation of carpal tunnel syndrome.

125 dibular gland enlargement, macroglossia, and carpal tunnel syndrome.

126 based study of the outcomes of treatment for carpal tunnel syndrome.

127 plantar fasciitis, Achilles tendinitis, and carpal tunnel syndrome.

128 ment in relieving some symptoms and signs of carpal tunnel syndrome.

129 lt in findings of hyper- or hypomobility, or carpal tunnel syndrome.

130 y earlier and more frequent association with carpal tunnel syndrome; a predominance of negative senso

131 rent arthritis of the left knee, followed by carpal tunnel syndrome; biopsy of the patient's knee sho

132 D-microvascular disease, T2D-neuropathy, T2D-carpal-tunnel syndrome, T2D-nephropathy, T2D-retinopathy

133 joint spaces, and in synovial membranes and carpal tunnel tissue.

134 nsisting of firm digital pressure across the carpal tunnel to reproduce symptoms, is 64% sensitive an