ライフサイエンスコーパス: autonomic

1 ve been observed, but whether cardiovascular autonomic abnormalities are associated with subsequent p

2 ocampal theta activity, rapid eye movements, autonomic activation and loss of postural muscle tone (a

3 ts, through identification of alterations to autonomic activity and functional coupling within the DM

4 These studies are revealing how autonomic activity becomes integrated into behavior as p

5 Importance: Differences in cardiovascular autonomic activity between individuals with psychiatric

6 Differences in cardiac autonomic and adrenergic control may contribute to sex d

7 ogical inactivation of area 25 decreased the autonomic and behavioral correlates of negative emotion

8 neurons in orchestrating the neuroendocrine, autonomic and behavioral response to stressful situation

9 lected on all patients alongside correlating autonomic and cardiac assessments.

10 in contracting skeletal muscles evoke reflex autonomic and cardiovascular adjustments.

11 Worse autonomic and cognitive functions predict development of

12 Logistic regression confirmed that worse autonomic and cognitive functions were predictors of ICB

13 trol subjects to define neural correlates of autonomic and cognitive responses before and after induc

14 iated with the cerebral cortex, to influence autonomic and endocrine systems that control internal or

15 o develop ICB had more severe anxiety, worse autonomic and global cognitive functions and were more l

16 sautonomia and early development of combined autonomic and motor features but not MSA phenotype (mult

17 These regions influence numerous aspects of autonomic and neuroendocrine activity and are typically

18 d specification of NC derivatives, including autonomic and sensory neurons.

19 a highly coordinated set of neuroendocrine, autonomic, and behavioral responses that are independent

20 Stress elicits neuroendocrine, autonomic, and behavioral responses that mitigate homeos

21 aling in the coordination of neuroendocrine, autonomic, and behavioral responses to acute and chronic

22 systems underlying placebo effects on pain, autonomic, and immune responses.

23 he brain and the functions of the endocrine, autonomic, and immune systems.

24 CO2-evoked freezing, autonomic, and respiratory responses were assessed in TD

25 s for these effects through investigation of autonomic arousal and alterations of activation and func

26 an emotional response bears the signature of autonomic arousal in the insular cortex.

27 amygdalar nuclei, poised to activate CeM for autonomic arousal.

28 dopamine levels disinhibits CeM and triggers autonomic arousal.

29 liorate pain and inflammation in RA restores autonomic balance and reduces cardiovascular events.

30 entions in the general population to restore autonomic balance may prevent AF.

31 e use was associated with a shift in cardiac autonomic balance toward sympathetic predominance and in

32 homeostasis to the vulnerability of central autonomic brainstem pathways to hypoxic stress and impli

33 modulate acute HSV-1 and HSV-2 infections in autonomic, but not sensory, neurons.IMPORTANCE Stress ex

34 rom electroencephalograms (EEG), we computed autonomic cardiac markers, such as heart rate (HR) and H

35 a loss of inhibitory control over excitatory autonomic centres.

36 study suggests that increased heart rate and autonomic changes are prevalent in behavioural variant f

37 controlled breathing and apnoea, to identify autonomic changes that might contribute to postflight or

38 l exactitude and to evaluate the concomitant autonomic changes.

39 t profound plasticity develops within spinal autonomic circuitry below the injury, creating a sympath

40 Our study suggests altered autonomic circuits at the level of the PVN, which can co

41 To compile DMH maps for the autonomic cold defense and for the cold-seeking response

42 ovide support for CRF1 expression in central autonomic components of the limbic forebrain, the locus

43 ours have focused largely on the sensory and autonomic consequences of PAG activation.

44 y of evidence suggests the importance of the autonomic control in the regulation of hepatic metabolis

45 l disorder characterized by a failure in the autonomic control of breathing.

46 e structural and functional organization for autonomic control of the heart in normal conditions, how

47 These effects of chronic hypoxia on autonomic control of the heart may concern not only HA d

48 able to discern pathology-related changes in autonomic control, and we demonstrate that between-group

49 te effects of hypoglycemia on cardiovascular autonomic control.

50 We prospectively collected autonomic data from 464 patients with orthostatic sympto

51 syndrome (OSAS) leads to neurocognitive and autonomic deficits that are partially mediated by thalam

52 Autonomic denervation is an alternative approach for pat

53 ioural responses nullified thermodynamic and autonomic differences associated with menstrual phase an

54 ting the importance of individual neural and autonomic differences in the response to nature exposure

55 ry mechanisms in the amygdala and heightened autonomic drive, as seen in chronic anxiety disorders.SI

56 mage of this insular subregion might lead to autonomic dysbalance and an upregulation of sympathetic

57 echanisms underlying worry and rumination to autonomic dyscontrol, highlighting overlapping neural su

58 Evidence suggests that development of autonomic dysfunction (AutD) may negatively affect disea

59 Cardiac autonomic dysfunction and cardiac microvascular dysfunct

60 he level of the PVN, which can contribute to autonomic dysfunction and dysregulation of neural contro

61 mentation mitigates PM2.5 effects on cardiac autonomic dysfunction and inflammation in a single-blind

62 (2) The relationship between autonomic dysfunction and morbidity and mortality can be

63 ity, and independent of motor impairment and autonomic dysfunction as assessed using overnight heart

64 e identified that a significant component of autonomic dysfunction associated with several cardiovasc

65 Cardiac autonomic dysfunction denoted by low resting short-term

66 Autonomic dysfunction developed in 85 patients (mean [SD

67 city, pulmonary hypertension, diastolic, and autonomic dysfunction have all been described, but a uni

68 icacious in the treatment of respiratory and autonomic dysfunction in heart failure.

69 that optimizing pain management may resolve autonomic dysfunction in RA.

70 Cardiovascular autonomic dysfunction in seizure is a major cause of sud

71 VLM and their contribution to cardiovascular autonomic dysfunction in seizure.

72 (1) Autonomic dysfunction is present in common diseases like

73 en cardiovascular risk, althogh whether such autonomic dysfunction is present in RA is not known.

74 Autonomic dysfunction predisposes patients to the develo

75 utonomic neuropathy assessed by the Compound Autonomic Dysfunction Test (rs = 0.66 [95% CI, 0.22 to 0

76 The pattern of autonomic dysfunction that we describe may help to expla

77 Autonomic dysfunction was defined as autonomic failure a

78 study aimed to evaluate early stage cardiac autonomic dysfunction with electrocardiography (ECG)-bas

79 Molecular mechanisms linking autonomic dysfunction with poorer clinical outcomes in c

80 ozanimod 0.5 mg: optic neuritis, somatoform autonomic dysfunction, and cervical squamous metaplasia

81 ), which are noninvasive measures of cardiac autonomic dysfunction, are associated with AF incidence

82 sociated with non-tremor dominant phenotype, autonomic dysfunction, depression, anxiety and probable

83 tiffness, changes in vascular structure, and autonomic dysfunction, is examined.

84 Certain clinical features, such as autonomic dysfunction, neuropsychiatric changes, viral p

85 Our analyses revealed that an autonomic dysfunction-specific multi-organ sequence of g

86 neuropathy, whereas 2 others had subclinical autonomic dysfunction.

87 ement abnormalities, developmental delay and autonomic dysfunction; an absolute loss of dopamine is g

88 multisystemic cholinergic neurotransmission, autonomic dysfunctions were reported in the antenatal fo

89 evelopment of disordered breathing patterns, autonomic dysregulation and increases in incidence of ar

90 11%), acute flaccid paralysis in 4 (7%), and autonomic dysregulation with pulmonary edema in 4 (7%).

91 GAD also display a characteristic pattern of autonomic dysregulation.

92 raphy of the DMH, a structure that modulates autonomic, endocrine, and behavioral responses and is a

93 s whereas non-neuroendocrine (presumably pre-autonomic) ERbeta-EGFP neurons predominated in the poste

94 Clinically, autonomic evaluation often focuses on sudomotor function

95 ine (NAC), prevented hypoglycemia-associated autonomic failure (HAAF) and impaired activation of vent

96 responses, known as hypoglycemia-associated autonomic failure (HAAF).

97 NTERPRETATION: Patients presenting with pure autonomic failure are at high risk of phenoconverting to

98 Autonomic dysfunction was defined as autonomic failure at autonomic function testing or 2 of

99 (median +/- interquartile range) and had had autonomic failure for 5 +/- 7 years.

100 t hypoglycemia-associated neuroendocrine and autonomic failure in healthy humans.

101 e small group of patients retaining the pure autonomic failure phenotype had very low plasma norepine

102 One hundred patients who presented with pure autonomic failure were recruited at 5 medical centers in

103 arkers that predict which patients with pure autonomic failure will develop Parkinson disease, dement

104 r characterised by a variable combination of autonomic failure, levodopa-unresponsive parkinsonism, c

105 e system atrophy had younger age at onset of autonomic failure, severe bladder/bowel dysfunction, pre

106 ng attacks of unilateral pain accompanied by autonomic features.

107 Hamilton Anxiety and Depression Scale), and autonomic function (blood pressure, laxative use).

108 aging and the measurement of parasympathetic autonomic function (heart rate variability) in 19 patien

109 e an independent association between cardiac autonomic function and CFR.

110 exposure is also related to impaired cardiac autonomic function and changes in heart rate variability

111 We suggest that a reduced cardiac autonomic function and damage to the adrenergic receptor

112 omplex interaction between eating behaviour, autonomic function and energy homeostasis.

113 thing and apnoea, conceived to perturb their autonomic function and identify changes, if any, provoke

114 We examined changes in cardiac autonomic function and repolarization during sustained e

115 o investigate whether differences in cardiac autonomic function as indexed by resting heart rate and

116 However, whether modulation of autonomic function determines the relative strength of t

117 vagal motor nuclei has provided insight into autonomic function in health and disease.

118 This review focuses on how to assess autonomic function in humans including various ways to m

119 shed, and this perturbed behavior as well as autonomic function in mutant mice.

120 The need to assess autonomic function is paramount in many experimental par

121 function was defined as autonomic failure at autonomic function testing or 2 of the following symptom

122 mpathetic and parasympathetic cardiovascular autonomic function tests.

123 genic forms of PD, comorbidities that affect autonomic function, a coexisting neuropathologic diagnos

124 e "gut-brain axis" to alter neural circuits, autonomic function, and higher-order brain function and

125 ent in PH rats normalized the cardiovascular autonomic function, demonstrated by an increase in paras

126 dian arrhythmias impair mentation, immunity, autonomic function, endocrine activity, hormonal signali

127 nd inhibition of CeM, resulting in modulated autonomic function.

128 tory neurons, whose wiring may help modulate autonomic function.

129 rom internal organs are essential for normal autonomic function.

130 rmal cerebellar, sensory, cranial nerve, and autonomic function.

131 n the parasympathetic control of cardiac and autonomic function.

132 o regulate thirst, vasopressin secretion and autonomic function.

133 In untreated larvae, regions associated with autonomic functionality, sensory processing and stress-r

134 found that lights triggered more changes in autonomic functions and negative emotions during, rather

135 aimed to evaluate the relationships between autonomic functions, intracranial pressure, and cerebral

136 The pons controls crucial sensorimotor and autonomic functions.

137 several nuclei implicated in the control of autonomic functions.

138 -1 spread via the dorsal root ganglia to the autonomic ganglia of the enteric nervous system (ENS) in

139 entially occur anywhere along the peripheral autonomic ganglion sites.

140 Increased ROS also depress autonomic ganglion synaptic transmission by oxidizing th

141 d functional small fiber evaluation, such as autonomic (heart rate, blood pressure, and sweat testing

142 We have identified that autonomic heat loss responses at rest and during fixed-i

143 hese pathophysiological outcomes and restore autonomic homeostasis is also discussed.

144 e devastating consequences of post-traumatic autonomic hyperreflexia and post-injury immune suppressi

145 Behavioral and autonomic hyperresponsiveness in PTSD may arise from a h

146 inephrine system may underlie behavioral and autonomic hyperresponsiveness in PTSD.

147 ittently to determine whether behavioral and autonomic hyperresponsiveness to sudden sounds in PTSD i

148 20.2 +/- 4.0 vs. 9.7 +/- 2.6 events h(-1) ), autonomic imbalance [0.6 +/- 0.2 vs. 0.2 +/- 0.1 low/hig

149 e altered in CHF and that they contribute to autonomic imbalance and progression of CHF.

150 Autonomic imbalance, with excess sympathetic activation

151 tivation exacerbates cardiac dysfunction and autonomic imbalance.

152 Autonomic impairment after acute traumatic brain injury

153 Links between autonomic impairment and increased intracranial pressure

154 The degree of autonomic impairment was quantified using the composite

155 However, relationships between autonomic impairment, intracranial pressure, impaired ce

156 startle magnitude and habituation, PPI, MMN, autonomic indices, and subjective self-rating scales.

157 d -response systems that proximally regulate autonomic induction of the CTRA.

158 e effect of HA on HR depended on the type of autonomic inhibition (P = 0.006).

159 We observed that autonomic innervation of sweat glands in the footpads wa

160 The dense autonomic innervation of the choroidal vessels predispos

161 liance on BAT-based NST depends on increased autonomic input, as indicated by abundant levels of tyro

162 Interventions that influence autonomic inputs to myocardium may prevent AF.

163 de the neurological symptoms of seizures and autonomic instability.

164 ting anatomical descriptions of the 'central autonomic-interoceptive network'.

165 lamic parvafox nucleus may contribute to the autonomic manifestations that accompany the expression o

166 oreflex sensitivity we aimed to test whether autonomic markers are associated with functional outcome

167 Impaired function of all the cardiac autonomic measures (except the washout rate) was associa

168 tion between self-relatedness and peripheral autonomic measures (heart rate, heart rate variability,

169 othesis and provides evidence that different autonomic measures reflect distinct, measurable patterns

170 levant and neutral stimuli in behavioral and autonomic measures.

171 d parasympathetic nervous activity, or a non-autonomic mechanism.

172 ic nervous systems, along with potential non-autonomic mechanisms, by individual and combined pharmac

173 mediates numerous stress-related endocrine, autonomic, metabolic, and behavioral responses.

174 eocortex as well as brainstem dorsal medulla autonomic microcircuits.

175 (Atrial Fibrillation Ablation and Autonomic Modulation via Thoracoscopic Surgery [AFACT];

176 ed increases in respiratory, somatic, and/or autonomic motor output.

177 severe enzymatic deficiency and devastating autonomic, motor, and cognitive impairment, DDC common g

178 ncentration stimulates and then desensitizes autonomic nAChRs leading to disruptions of cardiac funct

179 cemia and examined symptoms and hormonal and autonomic nerve responses.

180 nically with small diameter (100-300 microm) autonomic nerves could have a significant impact in fund

181 lly record neural activity from two separate autonomic nerves: the glossopharyngeal and vagus nerves.

182 fic role in the glucose-dependent control of autonomic nervous activity; this is, however, unrelated

183 People with RTT show a variety of autonomic nervous system (ANS) abnormalities and mouse m

184 on vocal output are via fluctuations of the autonomic nervous system (ANS) mediated by vocal biomech

185 Psychosocial stressors induce autonomic nervous system (ANS) responses in multiple bod

186 The autonomic nervous system (ANS) shows strong variation ac

187 EA prevented blunting of all neuroendocrine, autonomic nervous system (ANS), metabolic, and symptom c

188 lopmental epoch of significant change in the autonomic nervous system (ANS).

189 atform neural interfacing technique with the autonomic nervous system and demonstrate the possibility

190 The human stress response activates the autonomic nervous system and endocrine systems to increa

191 e on the bidirectional interplay between the autonomic nervous system and immune responses during inf

192 of the human PHOX2B gene, a key regulator of autonomic nervous system development, lead to congenital

193 ime span that encompassed the development of autonomic nervous system dysfunction and hypertension.

194 in; although further research is required in autonomic nervous system dysfunction, genetics and immun

195 if it simply correlates with the severity of autonomic nervous system dysfunction.

196 Differences in autonomic nervous system functioning may predate or repr

197 are sensory neurons, demonstrating that the autonomic nervous system plays a substantial role in HSV

198 us system, obesity-driven alterations in the autonomic nervous system prompt imbalances in sympatheti

199 The autonomic nervous system regulates all aspects of normal

200 The autonomic nervous system regulates cardiac electrical an

201 Autonomic nervous system testing revealed no abnormaliti

202 ensory neurons, as well as in neurons of the autonomic nervous system that are highly responsive to s

203 A major effector arm is the autonomic nervous system that controls epinephrine relea

204 lam can result in widespread neuroendocrine, autonomic nervous system, and metabolic counterregulator

205 work in these disorders that link the brain, autonomic nervous system, bone marrow, and spleen to the

206 -4 receptor (Mc4r)-expressing neurons in the autonomic nervous system, particularly in the paraventri

207 nal crosstalk between the CRH/ACTH pathways, autonomic nervous system, vasopressinergic system, and i

208 system (ENS) is the largest component of the autonomic nervous system, with neuron numbers surpassing

209 pheral- and neuroinflammation as well as the autonomic nervous system-bone marrow communication in he

210 the regulation of hepatic functions via the autonomic nervous system.

211 as well as development and evolution of the autonomic nervous system.

212 ulation of the parasympathetic branch of the autonomic nervous system.

213 ypoglycemia (IIH) is largely mediated by the autonomic nervous system.

214 he anatomy and physiology of the central and autonomic nervous systems in regard to control of the ca

215 s response are found in both the central and autonomic nervous systems.

216 ular emphasis on the role of the central and autonomic nervous systems.

217 re structures that control cognitive-reward, autonomic, neuroendocrine, and visual modulation of eati

218 and the central nervous system could include autonomic, neuroendocrine, enteric, and immune systems,

219 hPSC reporter lines, we recapitulated human autonomic neuron development in vitro and successfully i

220 Our results show that autonomic neurons are more responsive to epinephrine and

221 e death of sensory (dorsal root ganglia) and autonomic neurons observed in FD.

222 Sensory and autonomic neurons of the peripheral nervous system (PNS)

223 rough immune system suppression, sensory and autonomic neurons that become infected by HSV-1 and HSV-

224 SV-1 and HSV-2 infections within sensory and autonomic neurons, we analyzed viral DNA and the product

225 ensation caused by reductions in sensory and autonomic neurons.

226 Hereditary sensory and autonomic neuropathies are a group of phenotypically rel

227 Moreover, in hereditary sensory and autonomic neuropathies.

228 Sensory and autonomic neuropathy affects the majority of type II dia

229 s' CNFL correlated with the severity of both autonomic neuropathy assessed by the Compound Autonomic

230 Our findings indicate autonomic neuropathy is an early and prominent deficit i

231 pathetic nerve fibres in human patients when autonomic neuropathy is suspected.

232 haracterised by a progressive peripheral and autonomic neuropathy often with associated cardiac failu

233 Hereditary sensory and autonomic neuropathy type III, or familial dysautonomia

234 pathy, peripheral neuropathy, cardiovascular autonomic neuropathy, arterial stiffness, and hypertensi

235 subsequently were found to have sensorimotor autonomic neuropathy, whereas 2 others had subclinical a

236 arrhythmias associated with diabetic cardiac autonomic neuropathy.

237 to both peripheral baroreceptors and central autonomic nuclei such as the nucleus tractus solitarius

238 information which is transmitted to central autonomic nuclei to which SFO neurons project.

239 rcuits in the brain to regulate food intake, autonomic outflow, and endocrine function to maintain en

240 lineate the regions critical for maintaining autonomic outflow.

241 energy expenditure, glucose homeostasis and autonomic outflow.

242 among stimulatory and inhibitory inputs and autonomic outputs, which, in our study, could not be att

243 ween the orthostatic symptoms during HUT and autonomic parameters.

244 f food intake and involved specific efferent autonomic pathways.

245 Cardiac autonomic perturbations frequently antecede onset of par

246 ve identified brain regions recruited during autonomic processing, neurological lesion studies have y

247 nced by the actors, audiences may experience autonomic reactions, with less distance, or may have to

248 episodes activate chemoreceptors stimulating autonomic reflex responses.

249 Autonomic reflex screens (77%) and thermoregulatory swea

250 sion tomography/computed tomography, cardiac autonomic reflex tests, and heart rate variability indic

251 in and outside of the hypothalamus, such as autonomic regions of the brain stem and spinal cord.

252 subjectivity that rest on interoception and autonomic regulation (internal "action").

253 kJ; P < 0.01] in conjunction with equivalent autonomic regulation and thermal strain but higher evapo

254 Cardiac autonomic regulation during hypoglycemia appears to be t

255 So far, autonomic regulation patterns of different positive emot

256 ge can be leveraged in the evolving realm of autonomic regulation therapy for cardiac therapeutics.

257 fixed intensities (125 and 150 W), to assess autonomic regulation, then self-paced intensity (30 min

258 on the heart that is critically involved in autonomic regulation.

259 ssociated with self-processing but also with autonomic regulation.

260 ion, but also to bodily state monitoring and autonomic regulation.

261 tage AD-associated neurodegeneration affects autonomic regulation.

262 sociated behavioural, sensorimotor, gait and autonomic (respiratory and cardiac) phenotypes are absen

263 itivity in CHF and contributes to associated autonomic, respiratory and cardiac sequelae.

264 striatum during reward anticipation; blunted autonomic responding for relevant stimuli; blunted neura

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

281 ventricular hypothalamic nucleus [PaMP]) and autonomic (rostral medullary raphe pallidus [RPa]) respo

282 included the following standardized scales: Autonomic Scale for Outcomes in Parkinson's Disease (SCO

283 mpairment was quantified using the composite autonomic severity scale.

284 and IPD showed length-dependent somatic and autonomic small fiber loss, more severely expressed in p

285 l cognitive processing and the modulation of autonomic somatic markers.

286 sterior hypothalamic nucleus (PH) stimulates autonomic stress responses.

287 ite effect, allowing amygdalar activation of autonomic structures and emotional arousal.

288 a number of thermoregulatory responses, both autonomic (sweating) and behavioral (peeling off a layer

289 a critical functional connection between the autonomic (sympathetic and parasympathetic) nervous and

290 nt polyneuropathy associated with sensory or autonomic symptoms.

291 renergic system is intimately related to the autonomic system and is thought to play a key role at th

292 type and peripheral neuropathy who completed autonomic testing and electromyography at Mayo Clinic Ro

293 hophysiology in specific disease conditions, autonomic testing, risk stratification, and neuromodulat

294 clude skin biopsy, quantitative sensory, and autonomic testing.

295 Autonomic thermoregulation is a recently acquired functi

296 nPO neurons produces effects on drinking and autonomic thermoregulatory mechanisms, providing a struc

297 the hypothesis that an imbalance of cardiac autonomic tone and increased systemic oxidative stress a

298 in humans, is associated with a reduction in autonomic tone, bradycardia, and incidence of obesity-as

299 or elucidating brain structures that control autonomic tone.

300 neurological autoimmunity (including enteric/autonomic) usually related to small-cell lung carcinoma.