ライフサイエンスコーパス: emotional regulation

1 te settings (for satisfaction, optimism, and emotional regulation).

2 c afferents and interact with each other for emotional regulation.

3 cognition, language, attention, memory, and emotional regulation.

4 l for memory retrieval, decision making, and emotional regulation.

5 FC) plays an essential role in cognition and emotional regulation.

6 avoidance of perceived threats and impaired emotional regulation.

7 ontribute to a cycle that is deleterious for emotional regulation.

8 ep contributing to deficits in cognition and emotional regulation.

9 n-based psychotherapy, which aims to improve emotional regulation.

10 oral lobe structure implicated in social and emotional regulation.

11 romedial PFC (vmPFC) have critical roles for emotional regulation.

12 tal cortex, a frequent target for modulating emotional regulation.

13 nvolves altering neural circuits involved in emotional regulation.

14 as behavioral inhibition, self-control, and emotional regulation.

15 changes in several brain regions involved in emotional regulation.

16 y fingerprints for a novel neural element in emotional regulation.

17 iety disorders and associated alterations in emotional regulation.

18 other neuropeptide systems involved in brain emotional regulation.

19 so supports problem solving, creativity, and emotional regulation.

20 rsive events occur is essential for adaptive emotional regulation.

21 , in localized recuperative processes and in emotional regulation.

22 ts of X-linked genes on social-cognition and emotional regulation.

23 circuits involved in cognitive processes and emotional regulation.

24 cts on a range of neurochemicals relevant to emotional regulation.

25 erest mask supporting emotion processing and emotional regulation.

26 key regions involved in sound processing and emotional regulation.

27 otal to learning, decision-making, and socio-emotional regulation.

28 rain regions that may support behavioral and emotional regulation.

29 with habit formation, reward processing and emotional regulation.

30 suggesting changes in cognitive control and emotional regulation.

31 spectively; OR, 1.72; 95% CI, 1.21 to 2.43), emotional regulation (19.1% v 14.1%, respectively; OR, 1

32 that 10%-20% of interindividual variation in emotional regulation abilities is accounted for by the s

33 se results suggest that LINC01268 influences emotional regulation, aggressive behavior, and suicide b

34 that are central to cognitive processing and emotional regulation, also after correcting for confound

35 decreased centrality in regions involved in emotional regulation and ability to accurately attribute

36 nger-term intimate relationships, a shift in emotional regulation and an increase in risky behaviour,

37 cortical-subcortical circuits implicated in emotional regulation and behavior.

38 nt, as they provide the foundation for later emotional regulation and cognition, but little is known

39 stsynaptic densities, hence participating in emotional regulation and cognitive processes that are im

40 evere IBS were found in key areas related to emotional regulation and higher-order cognition, includi

41 mygdala by serotonin (5-HT) is important for emotional regulation and is implicated in the pathogenes

42 The amygdala is a brain area involved in emotional regulation and pain.

43 FosB immunostaining in areas associated with emotional regulation and reward processing, i.e., infral

44 ther these associations are mediated through emotional regulation and screen use and whether they var

45 Parental factors, mediating variables (emotional regulation and screen use), and the moderator

46 ural processes underlying reward, cognition, emotional regulation and stress responsivity relevant to

47 ween regions that showed deactivation during emotional regulation and the right caudate, predicted hi

48 frontal white matter pathways implicated in emotional regulation and top-down executive control.

49 n accessible mental practice associated with emotional regulation and well-being.

50 trial, possibly reflecting an alteration in emotional regulation and/or error monitoring.

51 ests enhanced goal-directed action, improved emotional regulation, and diminished craving.

52 ften experience difficulties with attention, emotional regulation, and frustration tolerance.

53 role in the integration of bodily feelings, emotional regulation, and goal-directed behaviors.

54 ibition of risky behavior and impulsiveness, emotional regulation, and impulse control/error monitori

55 areas associated with sensorimotor function, emotional regulation, and monoamine production.

56 function, working memory, reward processing, emotional regulation, and motivated behavior.

57 nd behaviours-eg, toileting, feeding skills, emotional regulation, and social-communication skills.

58 PFC and the ACC are implicated in memory and emotional regulation, and the ACC has motor areas and is

59 the hypothalamus has long been implicated in emotional regulation, and the hypothalamic neuropeptide

60 tor functions, the cerebellum is involved in emotional regulation, anxiety and affect.

61 rd processing, inhibitory control and social-emotional regulation are critical components of external

62 The same neuroplasticity that leaves emotional regulation, behavioral adaptation, and executi

63 t that the elevated activation of reward and emotional-regulation brain regions (medial prefrontal co

64 od in the hippocampus, a region critical for emotional regulation, by meta-analyzing 8 transcriptiona

65 nships between WM structure in key tracts in emotional regulation circuitry (ie, cingulum, uncinate f

66 and striatum, which are regions involved in emotional regulation, conditioning, and motivation.

67 inently in several wisdom subcomponents (eg, emotional regulation, decision making, value relativism)

68 difference, -2.75; 95% CI, -4.58 to -0.92), emotional regulation difficulties (adjusted difference,

69 Improvement in negative affect, emotional regulation difficulties, and worry at week 5 m

70 Early change in negative affect, emotional regulation difficulties, and worry mediated la

71 es of insomnia, depressive symptoms, affect, emotional regulation difficulties, worry, perseverative

72 ning enhances both cognitive functioning and emotional regulation during challenging events.

73 n this commentary we suggest that exercising emotional regulation during episodic counterfactual thin

74 ed in voluntary motor control, awareness and emotional regulation (eg, sensorimotor, salience, centra

75 a range of social (facial affect perception, emotional regulation, empathic accuracy, mental state at

76 STN and GPi extends beyond motor control to emotional regulation, emphasising the importance of moni

77 central executive network (CEN), supporting emotional regulation (ER) subcomponent processes such as

78 central executive network (CEN), supporting emotional regulation (ER) subcomponent processes such as

79 a circuits could be pivotal in understanding emotional regulation in health and disease.

80 lasting consequences on stress responses and emotional regulation in humans, increasing vulnerability

81 al trajectories of brain regions involved in emotional regulation in offspring.

82 l to certain subcomponents of wisdom such as emotional regulation (including impulse control), decisi

83 ctions among large-scale networks supporting emotional regulation influence white matter (WM) microst

84 The role of serotonin in emotional regulation is well established, but little is

85 a system implicated in stress responses and emotional regulation, is altered in patients diagnosed w

86 continues to be associated with maladaptive emotional regulation, leading to exaggerated neural and

87 ructural maturation of regions important for emotional regulation may in part underlie symptoms of ir

88 ectivity of the IFG from regions involved in emotional regulation may represent a trait abnormality f

89 idal-thalamic circuitry involved in mood and emotional regulation, may determine patients likely to b

90 s in frontal system brain regions subserving emotional regulation, motivation, and self-perception; h

91 exposure (PCE) on brain regions involved in emotional regulation, motivational control, and addictio

92 had greater connectivity in the salience and emotional regulation networks and lowered connectivity b

93 core the need for interventions that address emotional regulation, nutrition literacy, and media awar

94 of the salience network, involved in social-emotional regulation of environmental stimuli, is restri

95 he broader brain network dynamics underlying emotional regulation of memory.

96 otional arousal, plays a central role in the emotional regulation of memory.

97 lity, specifically involved in cognitive and emotional regulation of pain.

98 , optimism, happiness, cognitive engagement, emotional regulation, perseverance, worry, and sadness.

99 eromodal frontal cortices, key structures in emotional regulation processes and central in BD, are im

100 rontal cortex-amygdala circuit implicated in emotional regulation, providing the first data on the ne

101 ctivation in the mid-cingulate cortex during emotional regulation (Rate Ratio = 3.07(95% CI:1.09-8.66

102 ivity, in distinct brain regions involved in emotional regulation, relative to novelty-induced explor

103 crostructure of prefrontal tracts supporting emotional regulation relevant to BD: forceps minor, ante

104 6; 95% confidence interval [CI], 1.02-2.39), emotional regulation (RR, 1.84; 95% CI, 1.35-2.49), anxi

105 nd affective regulation (mean Dysfunction in Emotional Regulation Scale score 131.80 [22.04] vs 104.3

106 outcomes 4 years later, with screen use and emotional regulation serving as mediators.

107 e CEN, DMN, and SN during working memory and emotional regulation tasks (all ps < 0.05 qFDR).

108 (PFC) mediate higher cognitive functions and emotional regulation that are disrupted in psychiatric d

109 oid misuse may occasion top-down deficits in emotional regulation that begin as early as 400 ms after

110 in attentional control, decision-making, and emotional regulation, the anterior cingulate cortex is c

111 learning and neuronal structures involved in emotional regulation, the medial prefrontal cortex (mPFC

112 ral manifestations that reflect processes of emotional regulation, thinking, and social behavior.

113 lay between inflammation and behavioural and emotional regulation throughout childhood.

114 se associations, while the mediating role of emotional regulation was limited to sleep quality.

115 ngs allows for some preservation of adaptive emotional regulation, whereas more pronounced alteration

116 The prefrontal cortex (PFC) supports emotional regulation, with each PFC subregion specializi

117 of pathways provides a circuit mechanism for emotional regulation, with the anterior cingulate playin