ライフサイエンスコーパス: restless

1 combative]) was -2 to +1 (lightly sedated to restless).

2 vity but opposite sleep profiles, and one by restless (agitated) sleep).

3 rolled (includes children who are impulsive, restless and distractible) and inhibited (includes child

4 toms (that is, pain, tired, short of breath, restless, anxious, sad, hungry, scared, thirsty, confuse

5 Using a four-armed restless bandit reinforcement learning task, we studied

6 y and 20 age-matched controls performing the Restless Bandit Task.

7 Clinically, human RESTless breast tumors also displayed significantly enha

8 1) is the most highly upregulated protein in RESTless breast tumors.

9 Due to the restless efforts of the researchers working hard day and

10 ty-one healthy male participants performed a restless four-armed bandit task in a within-subjects des

11 Restless genital syndrome is a rare disorder that can be

12 In patients with PD, restless genital syndrome should be included in the diff

13 ed to motor fluctuations but compatible with restless genital syndrome.

14 a mutant that was well described previously (restless) is also highly sensitive to Mg2+.

15 enhanced malignancy in tumors lacking REST (RESTless) is only partially understood.

16 syndrome (OSAS) (0.06%), parasomnia (0.7%), restless leg syndrome (0.9%), or psychological insomnia

17 Insomnia and restless leg syndrome (RLS) are associated with increase

18 Restless leg syndrome (RLS) is a sensorimotor disorder.

19 degree, systemic ID have been implicated in restless leg syndrome (RLS) pathogenesis.

20 diopathic generalized seizures, and atypical restless leg syndrome (RLS).

21 Restless leg syndrome is a relatively common problem in

22 gical diseases (Parkinson's disease (PD) and restless leg syndrome) is associated with impulse contro

23 potential moderating effects of steroid use, restless leg syndrome, and biological sex.

24 ntial uses other than heart disease, such as restless leg syndrome, sudden deafness, hepatorenal synd

25 ty disorder (ADHD) undergoing assessment for restless leg syndrome-related sleep disruption.

26 y to sleep disorders, such as narcolepsy and restless leg syndrome.

27 hat has been implicated as a risk factor for restless legs display important features of the syndrome

28 Restless legs patients complain about sensory and motor

29 gand binding and RLS severity (international restless legs scale, IRLS) in areas serving the medial p

30 ility, depression, difficulty concentrating, restless legs syndrome (32%-40%), pica (40%-50%), dyspne

31 depression (g = 1.10, 95% CI [1.06, 1.15]), restless legs syndrome (g = 1.41, 95% CI [1.25, 1.56]),

32 e were performed on patients with idiopathic restless legs syndrome (iRLS) who were not currently on

33 ted odds ratio =1.26; 95% CI = 1.02-1.54) or restless legs syndrome (n = 108, adjusted odds ratio = 1

34 med as the strongest genetic risk factor for restless legs syndrome (odds ratio 1.92, 95% CI 1.85-1.9

35 (odds ratio [OR], 4.49; 95% CI, 3.98-5.06), restless legs syndrome (OR, 3.73; 95% CI, 3.39-4.09), bi

36 In addition, there were associations with restless legs syndrome (OR, 4.19; 95% CI, 3.91-4.50), sl

37 Restless legs syndrome (RLS) affects up to 10% of older

38 ies suggested a positive association between restless legs syndrome (RLS) and coronary heart disease

39 Most research on the association between restless legs syndrome (RLS) and depression has involved

40 Restless legs syndrome (RLS) and periodic limb movements

41 n the urge to move and sensory discomfort of restless legs syndrome (RLS) and properties of melanocor

42 minergic medications relieve symptoms of the restless legs syndrome (RLS) but have the potential to c

43 Restless legs syndrome (RLS) is a CNS disorder involving

44 Restless legs syndrome (RLS) is a common neurologic cond

45 Restless legs syndrome (RLS) is a common neurological di

46 Restless legs syndrome (RLS) is a common neurological di

47 Restless legs syndrome (RLS) is a common sensorimotor di

48 Although restless legs syndrome (RLS) is a disorder recognized in

49 Restless legs syndrome (RLS) is a frequent sleep-related

50 Restless legs syndrome (RLS) is a neurological condition

51 Restless legs syndrome (RLS) is responsive to opioid, do

52 revious cross-sectional study, we found that restless legs syndrome (RLS) was associated with erectil

53 isual perceptive computing (19 patients with restless legs syndrome (RLS), 21 patients with obstructi

54 Restless legs syndrome (RLS), also known as Willis-Ekbom

55 Restless Legs Syndrome (RLS), first chronicled by Willis

56 spinal cord is implicated in the etiology of Restless Legs Syndrome (RLS), which is more prevalent in

57 1 dopaminergic systems in the development of restless legs syndrome (RLS)-like movements during sleep

58 on deficiency (BID), a pathogenetic model of restless legs syndrome (RLS).

59 uding 46 drug-naive patients with idiopathic restless legs syndrome (RLS).

60 ief from dysaesthesias and motor symptoms in restless legs syndrome (RLS).

61 ales (p = 0.007), had a higher proportion of restless legs syndrome (RLS; p < 0.001), had a higher bo

62 or to natural menopause had a higher risk of restless legs syndrome after the index date compared wit

63 oophorectomy, there was an increased risk of restless legs syndrome among women without a benign ovar

64 ls were isolated from the motor cortex of 11 restless legs syndrome and 14 control brains obtained at

65 entified and replicated 13 new risk loci for restless legs syndrome and confirmed the previously iden

66 small effects have been identified for both restless legs syndrome and narcolepsy with cataplexy.

67 and studied the genetic correlations between restless legs syndrome and traits of interest.

68 clinical characteristics of childhood-onset restless legs syndrome are described.

69 r, a significant percentage of patients with restless legs syndrome are responsive to intravenous iro

70 The responsible mechanisms of restless legs syndrome are still not known, although cur

71 [21.0%] vs 135 women [8.2%]; P < .001), and restless legs syndrome before the index date (32 women [

72 loss of iron regulatory protein activity in restless legs syndrome brain tissue further implicates t

73 derlying cause of the iron deficiency in the restless legs syndrome brain.

74 erlying the decreased iron concentrations in restless legs syndrome brains is unknown.

75 f relative brain iron deficiency reported in restless legs syndrome brains may underlie the problems

76 romelanin cells from the substantia nigra of restless legs syndrome brains.

77 ns in the iron management protein profile in restless legs syndrome compared with controls at the sit

78 on in the brain is lower in individuals with restless legs syndrome compared with neurologically norm

79 ng of the molecular mechanisms that underlie restless legs syndrome could lead to new treatment optio

80 Restless legs syndrome is a common neurologic disorder t

81 Restless legs syndrome is a curious neurological disorde

82 Restless legs syndrome is a frequent neurological disord

83 Restless legs syndrome is a neurological disorder charac

84 Restless legs syndrome is a prevalent chronic neurologic

85 Restless legs syndrome is a sensorimotor network disorde

86 EAP4, VAV3) resided in the vicinity of known restless legs syndrome loci, whereas 5 (BBS7, CADM1, CRE

87 This cohort study found that risk of restless legs syndrome was increased among women who und

88 A family history of restless legs syndrome was present in 23 of 32 (72%) sub

89 in and its receptor in the microvessels from restless legs syndrome was significantly decreased compa

90 controls and 14 individuals who had primary restless legs syndrome was subjected to histochemical st

91 mptoms of iron deficiency (fatigue, pica, or restless legs syndrome) and should be considered for tho

92 (parkinsonism, dystonia, tremor, chorea, and restless legs syndrome) were included.

93 found between frequent insomnia symptoms and restless legs syndrome, aging, and cardiometabolic, beha

94 We conclude that, in restless legs syndrome, an increased HCN current in moto

95 on's disease, dystonia, Tourette's syndrome, restless legs syndrome, and akathisia, have traditionall

96 nized conditions (motor stereotypy disorder, restless legs syndrome, and infantile masturbation) as w

97 rcadian disorders, obstructive sleep apnoea, restless legs syndrome, and rapid eye movement (REM) sle

98 onia, chorea, tics, myoclonus, stereotypies, restless legs syndrome, and various other disorders with

99 Diagnosis of restless legs syndrome, as defined using Diagnostic and

100 id eye movement sleep behavior disorder, and restless legs syndrome, as well as circadian disorders,

101 This issue provides a clinical overview of restless legs syndrome, focusing on diagnosis, treatment

102 medical condition, obstructive sleep apnea, restless legs syndrome, idiopathic insomnia, and circadi

103 For restless legs syndrome, implicated variants are typicall

104 navian cohorts and on other sleep disorders (restless legs syndrome, insomnia) and sleep traits (dura

105 xt of another primary sleep disorder such as restless legs syndrome, or secondary to another underlyi

106 value of sex, daytime somnolence, insomnia, restless legs syndrome, sleep apnoea, urinary dysfunctio

107 f sleep are imperfect and may be affected by restless legs syndrome, these findings provide new biolo

108 including central sleep apnea, insomnia, and restless legs syndrome-in AF pathogenesis and progressio

109 sleep disorders center received diagnoses of restless legs syndrome.

110 istory are characteristic of childhood-onset restless legs syndrome.

111 N1) have not previously been associated with restless legs syndrome.

112 riants reveals putatively causative genes in restless legs syndrome.

113 burden of low-frequency and rare variants in restless legs syndrome.

114 ms associated with brain iron acquisition in restless legs syndrome.

115 n brain iron acquisition in individuals with restless legs syndrome.

116 cept for variants previously associated with restless legs syndrome.

117 in the epithelial cells of choroid plexus in restless legs syndrome.

118 or were upregulated in the choroid plexus in restless legs syndrome.

119 eurons contributes to the pathophysiology of restless legs syndrome.

120 the activity of this protein is decreased in restless legs syndrome; a finding similar to our earlier

121 reathlessness, feeling faint, dizziness, and restless legs, especially among men [for all listed symp

122 greater risk of constipation, insomnia, and Restless Legs.

123 particular circadian disorders, narcolepsy, restless-legs syndrome, and OSAS.

124 ss or tiredness, nausea, sweating, and being restless or overactive) did not differ between the group

125 addition, about two-thirds were agitated or restless, or both, and about one-quarter were aggressive

126 ority of the patients (80%) were agitated or restless, or both, with the pain and 26% were aggressive

127 profile was characterized by disinhibition, restless overactivity, a fatuous affect, puerile behavio

128 Recently, restless rapid-eye-movement (REM) sleep emerged as a rob

129 ntation that is specifically associated with restless REM sleep (beta = 0.31, P < 10(-26)).

130 hat was validated to be a specific proxy for restless REM sleep (selective fragmentation: R = 0.57, P

131 in emotion regulation, we hypothesized that restless REM sleep could interfere with the overnight re

132 A recent study shows that restless REM sleep impedes this overnight process, provi

133 The findings suggest that restless REM sleep reflects a process that interferes wi

134 hat a mutation in synaptobrevin 2 (Vamp2) in restless (rlss) mice results in a marked increase of wak

135 : lower values of headache, lower back pain, restless sleep, condyle high gray level-GL-run emphasis,

136 t respiratory event length and self-reported restless sleep, enriched in young adults, is associated

137 In our restless society, such ongoing replacement is a pressing

138 Although it is known that these RESTless tumors are highly aggressive and include all tu

139 sed lymph node involvement observed in human RESTless tumors.

140 ced LIN28A expression when compared with non-RESTless tumors.

141 Here, we ran male and female mice in a restless two-armed bandit task, which encourages both ex

142 classic value-based decision making task: a restless two-armed bandit.

143 chemical probes, and possible responses to a restless volcano.

144 are commensurate with monitoring signals at restless volcanoes, thus improving our ability to foreca

145 the last eruption, Yellowstone has remained restless, with high seismicity, continuing uplift/subsid