ライフサイエンスコーパス: anxiety state

1 s foot-shock paradigms designed to induce an anxiety state.

2 ing demonstrates that they have an increased anxiety state.

3 ild-type mice, an effect not associated with anxiety state.

4 top-down control of the stress-induced high-anxiety state.

5 critical role in the regulation of fear and anxiety states.

6 thic changes, gastro-oesophageal reflux, and anxiety states.

7 neate the brain systems that mediate various anxiety states.

8 s between self-reported low anxiety and high anxiety states.

9 synaptic function and circuit regulation in anxiety states.

10 noid system in the development of persistent anxiety states.

11 ion decreases fear-related freezing and high-anxiety states.

12 The mean scores for state anxiety (State-A) and trait anxiety (Trait-A) were ident

13 Individuals with anxiety states alone tended to develop either depression

14 Two components of anxiety (state and trait) were assessed during critical

15 MA projection implements top-down control of anxiety state and learned freezing, both at baseline and

16 ropeptide orexin (hypocretin) is involved in anxiety states and arousal.

17 development of OCD or the interplay between anxiety states and avoidance behaviors.

18 l as for relief of pain or in comorbidity of anxiety states and depression.

19 serve as therapeutic targets for regulating anxiety states and provide a blueprint for examining how

20 nd endocrinological dimensions of persistent anxiety states and provide a cellular point of entry to

21 el for studying the neurobiology of an early anxiety state, and potentiation of the USV response afte

22 bapentin and pregabalin in bipolar disorder, anxiety states, and insomnia: systematic review, meta-an

23 This review summarizes research on trait anxiety, state anxiety, anxiety disorders, ocular motor

24 xytocin (OT) system may play a role in human anxiety states, anxiety-related traits, and moreover, th

25 vidence of the efficacy of gabapentinoids in anxiety states, but minimal evidence in bipolar disorder

26 This anxiety-state-dependent neural circuitry thus enables cu

27 A sub-group of 9% had developed a persistent anxiety state during the first 3 months.

28 cannabinoids and reverses the stress-induced anxiety state in a cannabinoid receptor-dependent manner

29 tion and reward-based learning, we show that anxiety states in humans impair learning by attenuating

30 Anxiety states induced experimentally or occurring natur

31 Persistent fatigue with a comorbid mood or anxiety state is related to even more functional impairm

32 Anxiety state levels were measured during the vestibular

33 aires measuring trait mindfulness and dental anxiety (state, responding to a dental treatment scenari

34 Children self-reported trait anxiety (State-Trait Anxiety Inventory for Children) and

35 patients (51.9%) reported moderate to severe anxiety (State-Trait Anxiety Inventory State >= 40).

36 ] [PCL-5]), stress (Perceived Stress Scale), anxiety (State-Trait Anxiety Inventory), and depression

37 f depression (Beck Depression Inventory-II), anxiety (State-Trait Anxiety Inventory-YA), and fatigue

38 e, body mass index, depression (Zung Scale), anxiety (State-Trait Anxiety Scale) and the number of ap

39 Finally, high and low anxiety states were accompanied by high and low levels o

40 Anxiety states were elicited in healthy participants (n

41 n reuptake inhibitor (SSRI) and ketamine, on anxiety states with different etiologies, but of known o

42 These feelings were associated with anxiety states with rumination (37.5%) and fear for the