ライフサイエンスコーパス: autonomic response

1 represent the activation of a stress-related autonomic response.

2 inals induces distinct escape behaviours and autonomic responses.

3 nstem level and are not secondary to pain or autonomic responses.

4 ulate hypervigilant WS-evoked behavioral and autonomic responses.

5 l point for blood pressure control and other autonomic responses.

6 main clusters so determined with peripheral autonomic responses.

7 ance and in initiating situation-appropriate autonomic responses.

8 ink hypoglycemia and coordinated arousal and autonomic responses.

9 rtex (VMPFC) lesions can alter emotional and autonomic responses.

10 re fear conditioning normally, with enhanced autonomic responses.

11 which controls patterned neuroendocrine and autonomic responses.

12 mation neurons may coordinate both motor and autonomic responses.

13 ne its role in stress-induced behavioral and autonomic responses.

14 ential role in stress-induced behavioral and autonomic responses.

15 e coupling of emotional stimuli to motor and autonomic responses.

16 onomic denervation prevents the emergence of autonomic responses.

17 g involved in controlling neuroendocrine and autonomic responses accompanying maternal aggression).

18 beating rates of 60 to 90 beats/min, a brisk autonomic response achieving maximal rates of 130 to 160

19 a role for cortical area 25 in emotional and autonomic responses, albeit less direct than that descri

20 n response to hypoglycemia despite an intact autonomic response and a low alpha-cell glucose concentr

21 genes involved in inflammation, the central autonomic response and cortical spreading depression mig

22 oning, schizophrenic patients showed blunted autonomic responses and abnormal blood oxygen level-depe

23 ed one is not only pleasant but also reduces autonomic responses and anxiety in the person promoting

24 partner also resulted in a decrease of both autonomic responses and anxiety levels, suggesting the o

25 The hypothalamus regulates numerous autonomic responses and behaviors.

26 ayed to other CNS sites for integration into autonomic responses and complex behaviors.

27 Changes in autonomic responses and in the subjective experience of

28 discussed with respect to other conditioned autonomic responses and their relevance to foraging and

29 r neutral cues (assessed with behavioral and autonomic responses), and aberrant, increased activation

30 involving changes in one's subjective state, autonomic responses, and behavior.

31 s, the brain patterns that predict these two autonomic responses are largely distinct.

32 blood pressure (BP) and assessed whether the autonomic responses are normalized after recovery from c

33 argely output-measure-specific regulation of autonomic responses argues against a common system hypot

34 Such adjustments are not only autonomic responses, but are under acute cognitive contr

35 Additionally, subsets of leptin-induced autonomic responses can be blocked by melanocortin recep

36 ment task that interrogated the body schema, autonomic response, catastrophic thoughts about pain, an

37 efrontal cortex may be an essential link for autonomic responses driven by emotions.

38 s an important role in the modulation of the autonomic response during subsequent events.

39 Autonomic responses during hypoglycemia were manifested

40 ls, but blockade of sympathetically-mediated autonomic responses, either by chlorisondamine or the be

41 he hypothalamus and may be important for the autonomic responses evoked by complex emotional situatio

42 vagal afferent nerves are thought to mediate autonomic responses evoked by noxious oesophageal stimul

43 ic structures, and this explains the greater autonomic responses evoked by visceral sensation in comp

44 ral nervous system that generate patterns of autonomic response have been identified.

45 apnoea-associated hypoxic burden and cardiac autonomic response have emerged as predictors of OSA-rel

46 ity of LC neurons and may serve to integrate autonomic responses in brain by influencing the widespre

47 natomy representing and mediating peripheral autonomic responses in humans is poorly understood.

48 lar mediators responsible for these abnormal autonomic responses in PAD are poorly understood.

49 The hypothalamus coordinates autonomic responses in part through arginine vasopressin

50 ns of cerebral activity track threat-induced autonomic responses in specific body systems.

51 al microstates and associated behavioral and autonomic responses in term infants, while preterm infan

52 and thereby can co-ordinate the appropriate autonomic response, including adjustments in cardiorespi

53 on, reward periods) and investigated whether autonomic responses influenced choice outcome both immed

54 links the afferent stimulus to the efferent autonomic responses is unknown.

55 asymmetry reflects activity in parts of the autonomic response network such as the auditory cortex.

56 Although the effects of the autonomic response on the inflammatory system are well-k

57 lators of neuronal excitability that mediate autonomic responses, pain, and higher brain function.

58 ditional Ucn treatment, these behavioral and autonomic responses persisted for >30 d.

59 a range of context-dependent somatomotor and autonomic responses resembling animals' natural defensiv

60 Here, we investigated the hedonic and autonomic responses (skin conductance and heart rate) in

61 3beta4alpha5 receptor regulates a variety of autonomic responses such as control of cardiac rate, blo

62 ystem learns aversive facial expressions and autonomic responses such as skin conductance.

63 Underwater submergence produces a complex autonomic response that includes apnea, a parasympatheti

64 alpha5(Asn398) variant may act by regulating autonomic responses that may affect nicotine intake by h

65 travascular volume with normal saline alters autonomic responses that may trigger neurally mediated s

66 In line with the lack of autonomic responses, the massive increase in neuronal ac

67 are part of the respiratory, somatic, and/or autonomic response to AIH, and that propriospinal plasti

68 We aimed to delineate the autonomic response to apnea and to test the effects of a

69 ns, VMPFC modulates emotional processing and autonomic response to arousal (e.g. accompanying decisio

70 heart rate, sinus arrest, and an exaggerated autonomic response to cholinergic signaling.

71 In this study, we tested the prediction that autonomic response to emotional stimuli would be reduced

72 ole in the initiation and maintenance of the autonomic response to exercise and the metabolic profile

73 ta-blockers attenuate some components of the autonomic response to hypoglycemia and could increase th

74 tin action on PAG LepRb neurons augments the autonomic response to noxious stimuli, ensuring sufficie

75 d are also frequently used to understand the autonomic response to sympathoexcitatory manoeuvres like

76 In depersonalization disorder, autonomic response to unpleasant stimuli is reduced.

77 metabolite in ischaemic muscles, exaggerates autonomic responses to activation of muscle afferent ner

78 ate LIFU to the dACC reduces pain and alters autonomic responses to acute heat pain stimuli.

79 The orexin neurons contribute to the autonomic responses to acute psychological stress.

80 regulating both appetite and behavioral and autonomic responses to acute stress.

81 lar hair cells are the primary regulators of autonomic responses to altered gravity and provide genet

82 d, that they persist during apnoea, and that autonomic responses to apnoea result from changes of che

83 ses: (1) of women's genital, subjective, and autonomic responses to audiovisual erotic and audiovisua

84 severity, neural effective connectivity, and autonomic responses to emotional facial expressions.

85 Behavioral, neuroendocrine, and autonomic responses to glucoprivation are impaired after

86 planning, execution, spatial navigation, and autonomic responses to gravito-inertial changes.

87 adults' attachment representations modulate autonomic responses to happy and sad facial expressions,

88 that coordinates the diverse behavioral and autonomic responses to heat.

89 We conclude that autonomic responses to hypoglycemia are reduced during s

90 ese glucagon responses to restoration of the autonomic responses to hypoglycemia.

91 se results showed that isoflurane attenuated autonomic responses to hypoxia, hypoxia-induced hypocapn

92 current study, we examined forearm flow and autonomic responses to ischemic handgrip in young and ol

93 otal role in coordinating neuroendocrine and autonomic responses to maintain cardiovascular homeostas

94 Immune and autonomic responses to mental stress may play a contribu

95 s to music, while asymmetry entropy reflects autonomic responses to music.

96 The participants' autonomic responses to objects approaching the other's f

97 d in the medulla oblongata, mediate adaptive autonomic responses to physical stressors (for example,

98 future consequences of decisions, defective autonomic responses to punishment contingencies and fail

99 wed impairments in updating both actions and autonomic responses to reflect changing contingencies.

100 gulate the initial cortical, behavioral, and autonomic responses to repeated noxious stimuli.

101 mpairment did not result from differences in autonomic responses to reward delivery alone, an inabili

102 e evidence that the MPFC participates in the autonomic responses to simple physiological stimuli in h

103 implicated in the mediation of emotional and autonomic responses to socially significant or provocati

104 tral aldosterone signaling and appetitive or autonomic responses to sodium deficiency.

105 ic regulation' have focused predominantly on autonomic responses to stimulation of the vestibular sen

106 T), a structure that mediates behavioral and autonomic responses to stress and anxiety.

107 Diminished working memory and attenuated autonomic responses to stress are both associated with r

108 se exhibited increased pituitary-adrenal and autonomic responses to stress compared with controls.

109 ich integrate neuroendocrine, behavioral and autonomic responses to stress, are localized in the mPFC

110 bit altered adult behavioral, endocrine, and autonomic responses to stress, but the extent to which e

111 regulators of the behavioral, endocrine, and autonomic responses to stress.

112 tes, coordinating behavioral, endocrine, and autonomic responses to stress.

113 coordinating the endocrine, behavioral, and autonomic responses to stress.

114 CRF has been implicated in coordinating autonomic responses to stressors.

115 Hypoglycemia can impair hormonal and autonomic responses to subsequent hypoglycemia.

116 ral substrates associated with cognitive and autonomic responses to the induction of perseverative co

117 transient myocardial ischaemia had different autonomic responses to the stress of dobutamine infusion

118 dbrain is known to coordinate behavioral and autonomic responses to threat and injury through its des

119 Likewise, autonomic responses to threats are critical for survival

120 These studies have shown that autonomic responses to vestibular stimulation are region

121 ophysiological actions such as regulation of autonomic responses, transmission of pain, generation of

122 ponse to inflammatory stimuli is a result of autonomic responses triggered by prostaglandin E2 action

123 e dACC for effects on behavioral and cardiac autonomic responses using transient heat pain stimuli.

124 ating that afferent feedback from peripheral autonomic responses was critical for activating LC neuro

125 These dysregulated autonomic responses were associated with increased oxida

126 onditional stimuli (CSs) and subject-derived autonomic responses were compared.

127 Imbalances in autonomic responses, while beneficial in the short term,

128 alpha activity, along with eye movements and autonomic responses, while participants awaited either a

129 responsible for most emotional, laughter and autonomic responses, while the middle cingulate cortex c

130 , there was a directionally opposite cardiac autonomic response with a residual increase of sympathet

131 ischaemia, there is a directionally opposite autonomic response with a significant residual increase

132 role for the BSTju in circuitry integrating autonomic responses with somatomotor activity in adaptiv