ライフサイエンスコーパス: neck pain

1 , which may contribute to the persistence of neck pain.

2 atic adaptations in people with a history of neck pain.

3 the leading cause of DALYs was low back and neck pain.

4 itis, sore throat, dysphagia, and unilateral neck pain.

5 hesias, neck stiffness, muscle weakness, and neck pain.

6 the choice of therapy for acute and subacute neck pain.

7 behavior correlates of low back pain and/or neck pain.

8 n unrelated symptoms included sleepiness and neck pain.

9 ong patients with newly diagnosed idiopathic neck pain.

10 fear of movement in people with a history of neck pain.

11 expression patterns associated with chronic neck pain.

12 ureter colic or musculoskeletal back and/or neck pain.

13 inal care patterns following newly diagnosed neck pain.

14 chemic heart disease (2447) and low back and neck pain (1565).

15 million, neck pain: 9 million, both back and neck pain: 19 million).

16 presentation was head drop (43%) followed by neck pain (38%).

17 eck pain was 31% (low back pain: 34 million, neck pain: 9 million, both back and neck pain: 19 millio

18 The C2 DRG also plays an important role in neck pain, a common and disabling disorder that is poorl

19 2.7 billion-$92.9 billion), and low back and neck pain accounted for the third-highest amount, with e

20 es, ischemic heart disease, and low back and neck pain accounting for the highest amounts of spending

21 -design study, 96 adults with recurrent mild neck pain, ache, or stiffness were randomly allocated to

22 ty (MD) were analyzed in 30 individuals with neck pain and 30 pain-free controls through whole-brain

23 ded 30 individuals with chronic non-specific neck pain and 30 pain-free controls.

24 essons both led to significant reductions in neck pain and associated disability compared with usual

25 The rising prevalence of neck pain and chronic injuries has been attributed to in

26 spective as well as profound implications on neck pain and injury prevention.

27 Spending on low back and neck pain and on diabetes increased the most over the 18

28 es were found, the major ones being vertigo, neck pain and other pain syndromes, as well as stress an

29 Acupuncture reduced neck pain and produced a statistically, but not clinical

30 ence interval [95% CI] 1.8-7.3]) and between neck pain and response on the GHQ (OR 3.3, 95% CI 2.1-5.

31 emity musculoskeletal disorders (MSDs; e.g., neck pain and shoulder fatigue) requires frequent exerci

32 ed States presented with a 1-year history of neck pain and stiffness that had been unsuccessfully tre

33 ons in individuals with chronic non-specific neck pain and their relationships with pain-related outc

34 changes in patients with chronic nonspecific neck pain and their relationships with pain-related outc

35 utilized as a treatment for chronic back and neck pain and, to some extent, that the amount of superv

36 e disorder, other musculoskeletal disorders, neck pain, and anxiety disorders.

37 isease, chronic kidney disease, low back and neck pain, and depressive disorders; the latter three we

38 difficulty with driving, eating/swallowing, neck pain, and headaches but more difficulty with walkin

39 a 16-year-old male who presented with fever, neck pain, and odynophagia and was ultimately diagnosed

40 gest for SMRs used for trigeminal neuralgia, neck pain, and painful cramps; evidence suggested SMRs f

41 rs (back pain: aOR, 1.57; 95% CI, 1.42-1.75; neck pain: aOR, 1.22; 95% CI, 1.07-1.39; arthritis: aOR,

42 djusted follow-up rates of imaging for acute neck pain (AORR, 1.16; 95% CI, 0.83-1.63) and overall im

43 Low back and neck pain are common and result in significant patient d

44 Low back and neck pain are critical public health problems.

45 Lower back and neck pain are leading physical conditions for which pati

46 Low back and neck pain are often self-limited, but health care spendi

47 Back and neck pain are significant healthcare burdens that are co

48 isual loss, pulsatile tinnitus, and back and neck pain, but the clinical presentation is highly varia

49 stimulation (HWDS) for chronic low back and neck pain (cLBP, cNP) have been promising, so a retrospe

50 tcomes in patients with chronic non-specific neck pain (CNSNP).

51 eletal disorders including low back pain and neck pain, diabetes, and cirrhosis--increased since 1990

52 Persistent neck-pain disability (PNPD) is common following traumati

53 Secondary outcomes were neck pain, disability, quality of life, work status, tre

54 Neck pain due to thyroiditis was reported in up to 18% o

55 Compared to controls, participants with neck pain exhibited decreased mI and mI/tCr (left DLPFC

56 ational prevalence estimates of low back and neck pain exist and few studies have investigated the as

57 mb, extremity, or joint pain, back pain, and neck pain for each week, patterns of treatment use were

58 joint and its capsule are a common source of neck pain from whiplash.

59 The results revealed that individuals with neck pain had lower FA and higher MD in several white ma

60 2016, among the 154 conditions, low back and neck pain had the highest amount of health care spending

61 The children showed neck pain, head tilt, and reduction in neck mobility.

62 = 1.85 (95% CI = 1.17-2.92)) and absence of neck pain in 28.9% and 15.9% (OR = 2.04 (95% CI = 1.25-3

63 the past 3 months, and 30.1 million have had neck pain in the past 3 months.

64 low back pain in the range of 52-68% and for neck pain in the range of 35-58%.

65 ndex [NDI]), quality of life (EQ5D), present neck pain intensity, and present arm pain intensity).

66 ; motor/movement; pain in head; pain in back/neck; pain involving sites other than head, neck, and ba

67 Mechanical neck pain is a common condition that affects an estimate

68 njuries and blood-borne infections, back and neck pain is a poorly recognized factor causing chronic

69 Chronic neck pain is associated with neuroplastic changes in bra

70 Although neck pain is known to be a complex and multifactorial co

71 ons with different rheumatic conditions (eg, neck pain, low back pain, systemic lupus erythematosus,

72 atients asked about new or worsening back or neck pain, lower extremity weakness, or radiculopathy sy

73 Management of chronic neck pain may benefit from additional active self-care-o

74 E] change, 3.5 [0.5] vs 3.1 [0.4]; P = .47), neck pain (mean [SE] change, 3.0 [0.5] vs 3.4 [0.5]; P =

75 Secondary outcomes were arm and neck pain, measured with numeric rating scales (NRS); qu

76 equelae reported from exposed patients were: neck pain, myalgia, arthralgia, paresthesia, sleep disor

77 equelae reported from exposed patients were: neck pain, myalgia, arthralgia, paresthesia, sleep disor

78 icity/upper and lower limbs, torticollis and neck pain/neck muscles, and sialorrhea/parotid and subma

79 included adult patients with newly diagnosed neck pain, no recent opioid use, and at least 1 year of

80 the trip plus at least one of the following: neck pain, nuchal rigidity, altered cutaneous sensations

81 hysical Component Score (SF-36 PCS), arm and neck pain numeric rating scale (NRS) scores, American Sp

82 l Emergency Department because of increasing neck pain on the right side and difficulty in swallowing

83 rhoea (one), fatigue (one), dysphagia (one), neck pain (one), and diaphoresis (one); pain associated

84 partment with either musculoskeletal back or neck pain or kidney stone-related pain.

85 of all studied prediagnostic features except neck pain or stiffness was higher in patients who went o

86 ures (tremor, rigidity, balance impairments, neck pain or stiffness, and shoulder pain or stiffness),

87 rule including any of age 40 years or older, neck pain or stiffness, witnessed loss of consciousness,

88 Although spending on low back and neck pain, other musculoskeletal disorders, and diabetes

89 Studies of neck pain patients are now merited.

90 edicting post-treatment outcomes for chronic neck pain patients undergoing a multimodal program featu

91 botulinum toxin group and included head and neck pain, posterior cervical weakness, and dysphagia.

92 These reports included neck pain, problems with attention, muscle twitches and

93 terations in people with chronic nonspecific neck pain, providing insights into altered central mecha

94 igated the associations between low back and neck pain, psychological factors, and health behaviors i

95 The primary outcome was the Northwick Park Neck Pain Questionnaire.

96 ys before, the patient felt a sudden, severe neck pain radiating to the temporal apophysis.

97 Mean neck pain-related disability decreased by 5.74 points (3

98 MPNA was more effective than UC in reducing neck pain-related disability immediately after treatment

99 abolites alterations in chronic non-specific neck pain remain unknown.

100 ficacy of acupuncture for chronic mechanical neck pain remains unproved.

101 Generally, adults with low back and/or neck pain reported more comorbid conditions, exhibited m

102 tors have an important influence on back and neck pain reporting in women.

103 There were initial transient reports of mild neck pain, scalp tingling and headache that were extingu

104 in the NDI (38 to 28, p = 0.046) and VAS for neck pain scores (5.1 to 3, p = 0.012).

105 y (DCM); however, it lacks consideration for neck pain scores and neglects the multidimensional aspec

106 threatening complication of an injection for neck pain several years ago, Ms W experienced a wrong-si

107 For participants with acute and subacute neck pain, SMT was more effective than medication in bot

108 %-96%]), nausea (54% [95% CI, 46%-62%]), and neck pain/stiffness (43% [95% CI, 32%-53%]).

109 t patients with painful spasms or cramps and neck pain; their long-term use for low back pain, fibrom

110 es included lifetime history of low back and neck pain (using a range of increasingly stringent defin

111 ervical spine imaging completion after acute neck pain visits, any imaging completion after an adult

112 The 3-month US prevalence of back and/or neck pain was 31% (low back pain: 34 million, neck pain:

113 s were recruited, and the median duration of neck pain was 6 years.

114 m-level use (OR=0.33, 95% CI 0.12-0.93); any neck pain was three times more common among nurses repor

115 th acute (<3 months) or chronic (>=3 months) neck pain were enrolled and completed patient-reported o

116 f individuals (n = 684) with chronic back or neck pain who saw a physician, chiropractor, and/or phys

117 The patient also described new neck pain with passive head movements, without neck stif

118 Patients with pure axial neck pain without radicular pain were not eligible.