ライフサイエンスコーパス: autonomic

1 rtical arousal from sleep is associated with autonomic activation and acute increases in heart rate.

2 e menstrual pain's association with abnormal autonomic activity and bladder sensitivity, even two wee

3 ing or glottic adduction, influenced cardiac autonomic activity and cortical arousal from sleep.

4 Overall, we found that infant-parent autonomic activity did not covary across the day-but tha

5 actions in the central regulation of cardiac autonomic activity in response to negative affective sti

6 actors that modify the arousal intensity and autonomic activity remain enigmatic.

7 the processing of sensorimotor information, autonomic activity, levels of awareness and the control

8 sed clearance rather than changes in central autonomic activity.

9 reconnected serotonergic circuits regulating autonomic activity.

10 Multiple neuroendocrine, autonomic and behavioral responses are regulated by the

11 ls it to be a hub that is able to coordinate autonomic and behavioral responses to many types of stim

12 aptic input from brain regions implicated in autonomic and behavioral responses to stress, as well as

13 ple aspects of thermal regulation, including autonomic and behavioral thermoregulation.

14 ds in the elderly, as well as the underlying autonomic and cardio-dynamic pathways that may explain t

15 We evaluated autonomic and cardiorespiratory recovery following aerob

16 e experience characterised by alterations in autonomic and cerebral function.

17 r findings demonstrate an unanticipated cell-autonomic and circuit-independent disruption of postnata

18 as of the peripheral nervous system from the autonomic and dorsal root ganglia (DRG) to the axon and

19 Stress can affect health directly, through autonomic and neuroendocrine responses, but also indirec

20 ence physiological functions associated with autonomic and non-autonomic nervous systems through its

21 nge of clinical features reflecting central, autonomic and peripheral dysfunction.

22 presentation is often blurred by concomitant autonomic and somatic symptoms.

23 dementia underwent sleep, motor, cognitive, autonomic and special sensory testing.

24 After the MI, the autonomic and ventricular function were evaluated, as we

25 Blood pressure is controlled by endocrine, autonomic, and behavioral responses that maintain blood

26 propriately orchestrates neurophysiological, autonomic, and behavioral responses to stress.

27 nfiltrates, was observed in the dorsal root, autonomic, and enteric ganglia.

28 ted unconditioned threat responses including autonomic arousal, anxiety, and freezing behavior, while

29 text, or event boundaries, elicit a burst of autonomic arousal, as indexed by pupil dilation.

30 ion of the corrugator supercilii muscle, and autonomic arousal, as indexed by skin conductance, while

31 All LC neurons receive inputs related to autonomic arousal, but distinct subpopulations of those

32 motion processing with concurrent indices of autonomic arousal, in a cohort of patients representing

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

34 of central chemoreflex activation on cardiac autonomic balance and cardiac function in HF rats was ab

35 TATEMENT Cardiorespiratory reflexes maintain autonomic balance and ensure cardiovascular health.

36 al hand by photoplethysmography, and cardiac autonomic balance was assessed by determining heart rate

37 ighlight opportunities for the regulation of autonomic behavior in enzyme-powered oil droplets and pr

38 led micro-reactor droplets with programmable autonomic behaviors provides a step towards smart liquid

39 ry fibers terminating in the respiratory and autonomic brainstem centers.

40 rony occurred across social contexts in both autonomic branches.

41 V) and pulse rate variability are indices of autonomic cardiac modulation.

42 our knowledge of the effects of ketamine on autonomic cardiovascular regulation is primarily limited

43 t is unknown if low dose ketamine influences autonomic cardiovascular responses during painful stimul

44 that "high points" of infant arousal led to autonomic changes in the parent and that instances where

45 BoNT-A are not limited to muscle-relaxing or autonomic cholinergic effects but that it can act as an

46 We show here that the autonomic cholinergic nervous system (including parasymp

47 he mechanisms and functional significance of autonomic circuit modulation by glial cells remain large

48 rgans, and a tool to study the physiology of autonomic circuits.

49 ), the two ME/CFS groups tended to have more autonomic complaints and behavioral symptoms while the s

50 a, IRt inhibition blocked rhythmic motor and autonomic components of fictive swallow but not swallow-

51 respiratory-cardiovascular coupling, cardiac autonomic control and cardiac function were analysed in

52 (RCC), central chemoreflex function, cardiac autonomic control and cardiac function were studied.

53 (PM2.5) with HRV as an indicator of cardiac autonomic control during early development.

54 Research into cardiac autonomic control has received great interest in the pas

55 tests interrogate various aspects of cardiac autonomic control in either resting conditions or with p

56 ious effects on cardiac function and cardiac autonomic control in HF rats that were abolished by lesi

57 F+DbetaH-SAP; P < 0.05) and improved cardiac autonomic control in HF rats.

58 vances in the field of neuroinflammation and autonomic control in HF.

59 total serum calcium (p < 0.001) with intact autonomic control in the cross-sectional population.

60 ial mechanism plays an important role in the autonomic control of heart rate.

61 not cause clinically significant changes in autonomic control of HR in this group of subjects with o

62 tes in behaviors that involve changes in the autonomic control of visceromotor activity, including du

63 Clearly, the two limbs of autonomic control over the stomach are influenced by dis

64 , we highlight areas in the field of cardiac autonomic control that we feel show the most promise for

65 ting rate (46 bpm/mM ionized calcium without autonomic control).

66 tive behavior, pain, and multiple aspects of autonomic control, including respiration, blood pressure

67 e variability (HRV), an indicator of cardiac autonomic control.

68 nduced plasma and brain [regions involved in autonomic control: nucleus tractus solitarius (NTS) and

69 ood pressure may relate to dementia risk via autonomic disturbance or hemodynamic mechanisms, but the

70 ey role of TRPM8 channels in the sensory and autonomic disturbances associated with surgical damage o

71 elop optimal approaches to delineate cardiac autonomic dysfunction and its adverse effects to develop

72 alpha-Synucleinopathies are characterized by autonomic dysfunction and motor impairments.

73 Intrinsic autonomic dysfunction arises from diseases that directly

74 hus, we have generated a mouse model of pure autonomic dysfunction caused by alpha-Syn pathology.

75 gical alpha-Syn and the cardinal features of autonomic dysfunction in alpha-synucleinopathy.

76 Our findings of autonomic dysfunction in both early episodic and chronic

77 Extrinsic autonomic dysfunction reflects the changes in autonomic

78 Furthermore, autonomic dysfunction within the first 3 years from onse

79 , for the management of common symptoms (eg, autonomic dysfunction) in patients with Lewy body dement

80 ral pain mechanisms, pelvic floor muscle and autonomic dysfunction, anxiety, depression and childhood

81 In parallel, the mice develop autonomic dysfunction, featured by orthostatic hypotensi

82 Cardiac autonomic dysfunction, including loss of cardiac sympath

83 eart rate variability signals a component of autonomic dysfunction.

84 ugmented under conditions of hypotension and autonomic dysfunction.

85 namics and contributes to the development of autonomic dysreflexia (AD).

86 days after an injury sufficiently diminishes autonomic dysreflexia, a real time gauge of sympathetic

87 This results in less severe autonomic dysreflexia, a real-time gauge of sympathetic

88 ment of hemodynamic parameters and mitigated autonomic dysreflexia.

89 hypertension that hallmarks life-threatening autonomic dysreflexia.

90 Cardiac autonomic dysregulation has been implicated in the comor

91 r deficits including inactive blindsight and autonomic dysregulation.

92 l condition known as hypoglycemia-associated autonomic failure (HAAF) that may occur in patients with

93 In the pure autonomic failure (PAF), alpha-synuclein (alpha-Syn) pat

94 DLB), multiple system atrophy (MSA) and pure autonomic failure (PAF).

95 Development of autonomic failure is associated with more rapid disease

96 abetes mellitus and the syndromes of primary autonomic failure.

97 ation and replicated hypoglycemia-associated autonomic failure.

98 n of pain, and presence of prominent cranial autonomic features during attacks (miosis OR 11.24, 95%

99 suffer from the chronic variant, have marked autonomic features, be intractable to treatment and have

100 pheral tissues and progress to the brain via autonomic fibers.

101 all myelinated (Adelta), unmyelinated (C) or autonomic fibres may also be affected.

102 arisons) and the Scale for Outcomes for PD - autonomic function (5.8 [3.7] vs 8.1 [5.9] and 8.4 [6.0]

103 The measures of cardiac autonomic function (except low frequency-to-high frequen

104 the association between measures of cardiac autonomic function and cardiac vascular function in type

105 e objective of the study was to determine if autonomic function in newborns differs by mode of delive

106 utonomic dysfunction reflects the changes in autonomic function that are secondarily induced by cardi

107 The autonomic function that is clinically assessed by heart

108 Cardiac autonomic function was evaluated using heart rate variab

109 Physiological makers of autonomic function, and biochemical markers of HPA-axis

110 t bring an additional positive effect to the autonomic function, and consequently, in the inflammator

111 us, and in brainstem regions associated with autonomic function, including the dorsal vagal complex,

112 To reestablish the descending regulation of autonomic function, we transplanted serotonergic neuron

113 inate behavior, neuroendocrine function, and autonomic function.

114 vides insight into cardiovascular health and autonomic function.

115 hypothalamic nuclei regulating appetite and autonomic function.

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

117 umans, synchrony occurs even at the level of autonomic functioning; people interacting often show mut

118 hiatric, emotional, cognitive, metabolic and autonomic functions are presented, along with uncertaint

119 t a clear link between these activations and autonomic functions measured by dynamics of pupillary di

120 at processes stress and regulates immune and autonomic functions.

121 While autonomic ganglia have been extensively studied in rats

122 We hypothesized that the autonomic ganglia have important roles in viral reactiva

123 ndings indicate that viral reactivation from autonomic ganglia is a feature of latent viral infection

124 omical features of a cell bridge linking two autonomic ganglia of the neck, namely, the nodose gangli

125 However, HSV-2 has also been found latent in autonomic ganglia.

126 entral and peripheral nervous systems in the autonomic ganglia.

127 thermal stimulation in SCD are indicative of autonomic hypersensitivity in the microvasculature.

128 ticipated that thermal exposure would induce autonomic hypersensitivity of their microvasculature wit

129 airway disease without altering life-saving autonomic hypoxic reflexes.

130 Inflammatory processes and cardiovascular autonomic imbalance are very relevant characteristic of

131 RV in Ossabaw mini-pigs, implying aggravated autonomic imbalance.

132 sion is a prevalent disease characterized by autonomic-induced elevated and sustained blood pressure

133 was unable to achieve significant effects on autonomic innervation in peripheral organs.

134 oth the central nervous system (CNS) and the autonomic innervation of peripheral organs bidirectional

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

136 rised by fever, myoclonus, ataxia, weakness, autonomic instability, and full recovery in most patient

137 findings of myoclonus, ataxia, weakness, and autonomic instability.

138 s of central parasympathetic and sympathetic autonomic involvement that overlapped signatures of emot

139 paresthesia, and dysesthesias (although the autonomic manifestations occasionally may be the present

140 We examined the mRNA expression for selected autonomic markers in samples of the NG with or without c

141 ); p=0.04) and the Scales for Outcomes in PD-Autonomic (mean (SD) 14.9 (8.7) vs 7.7 (4.9); p<0.001).

142 gnetic resonance imaging, posturographic and autonomic measurements while participants performed a sh

143 Here we describe the time course of cardiac autonomic modulation assessed by heart rate variability

144 he overwintering suggest a long-term cardiac autonomic modulation in response to isolation and confin

145 entricular function, baroreflex sensitivity, autonomic modulation, and inflammatory profile in PYR-tr

146 on-specific therapies targeting myocytes and autonomic modulation.

147 ecord spontaneous vocalizations and wireless autonomic monitors to record heart rate, heart rate vari

148 neurons are part of the central somatic and autonomic motor circuits.

149 agus nerve (VN) which is the main multimodal autonomic nerve that provides a major communication path

150 tective effect of DVF during L-TME on pelvic autonomic nerves and postoperative urogenital function r

151 very challenging due to the small nature of autonomic nerves and the low-amplitude signals from thei

152 Autonomic nerves convey essential neural signals that re

153 istinctive physiological neural signals from autonomic nerves will help develop new treatments for re

154 issues are heavily innervated by sensory and autonomic nerves, and are densely populated by resident

155 ible conduction block in motor, sensory, and autonomic nerves, but causes transient activation of act

156 rises from diseases that directly affect the autonomic nerves, such as diabetes mellitus and the synd

157 g physiological action potentials from small autonomic nerves.

158 in vital regulatory functions controlled by autonomic nerves.

159 ing brain structure and function, as well as autonomic nervous system (ANS) activity.

160 izures are known to often manifest also with autonomic nervous system (ANS) changes, it is not clear

161 delivery and exposure to labor affects early autonomic nervous system (ANS) function, as measured by

162 riability (HRV) are mainly determined by the autonomic nervous system (ANS), which interacts with rec

163 sory thresholds, tone response, compliance), autonomic nervous system (baroreceptor sensitivity and e

164 of peripheral hemodynamics and the effect of autonomic nervous system activity on these signals has r

165 igeminal nerve stimulation on survival rate, autonomic nervous system activity, hemodynamics, brain p

166 re; most of these strategies aim to modulate autonomic nervous system activity.

167 reatment with PYR prevents impairment of the autonomic nervous system after MI, which may be associat

168 n regulating the function of the sensory and autonomic nervous system and endo- and exocrine glands.

169 hat there is a strong connection between the autonomic nervous system and the tumor and could help un

170 logy originates in the enteric or peripheral autonomic nervous system and then spreads to the brain.

171 Autonomic nervous system control of the heart is a dynam

172 This study shows how both branches of the autonomic nervous system cooperate to orchestrate daily

173 ni and is characterised by muscle spasms and autonomic nervous system dysfunction.

174 Autonomic nervous system effects have been hypothesized

175 pha(1D)-ARs) - key regulators of central and autonomic nervous system function - contain two putative

176 dbrain regions involved in the regulation of autonomic nervous system function.SIGNIFICANCE STATEMENT

177 valid and non-invasive indicator of cardiac autonomic nervous system functioning.

178 mor bearing animal models have eluded to the autonomic nervous system having a direct effect on tumor

179 The role of the autonomic nervous system in NAFLD remains unclear.

180 cessary to investigate the importance of the autonomic nervous system in postprandial human metabolis

181 r reflex responses through modulation of the autonomic nervous system in the brainstem.

182 ntal evidence suggests a crucial role of the autonomic nervous system in whole body metabolism with m

183 , which plays a major role in the peripheral autonomic nervous system intervening both in the parasym

184 Autonomic nervous system involvement precedes the motor

185 ions between exposure estimates and indirect autonomic nervous system measurements.

186 ifferences in the oropharyngeal skeleton and autonomic nervous system of lampreys and modern gnathost

187 The autonomic nervous system orchestrates organ-specific, sy

188 The autonomic nervous system plays a key role in maintaining

189 ody under a variety of physiological states, autonomic nervous system reflexes regulate regional symp

190 ition may act in part through effects on the autonomic nervous system regulation of gastric emptying

191 Background The autonomic nervous system response to apnea and its mecha

192 entilatory instability and/or have augmented autonomic nervous system responses that increase the lik

193 (alpha-Syn) pathology is confined within the autonomic nervous system with no motor features, but mou

194 l axis regulation and cortisol dynamics, the autonomic nervous system, and gene expression; and (d) e

195 e dysfunction, impairment of the sensory and autonomic nervous system, and haematological anomalies.

196 bility (FHRV) emerges from influences of the autonomic nervous system, fetal body and breathing movem

197 ral sensitization and the involvement of the autonomic nervous system, which has a role in generating

198 s associated with alterations in HRV and the autonomic nervous system.

199 ns, seems also to play a role in the central autonomic nervous system.

200 renewed interest in the anatomy of the mouse autonomic nervous system.

201 elong infection in neurons of the sensory or autonomic nervous system.

202 mpathetic or parasympathetic branches of the autonomic nervous system.

203 art rate is under the precise control of the autonomic nervous system.

204 the major cortical components of the central autonomic nervous system.

205 is involved in heart rate regulation by the autonomic nervous system.

206 n with secondary spreading to the peripheral autonomic nervous system; and a body-first (bottom-up) t

207 imbalance, dysregulated endocannabinoid and autonomic nervous systems and endothelial dysfunction in

208 functions associated with autonomic and non-autonomic nervous systems through its effects on multipl

209 To limit autonomic neural influences on heart rate (HR) during is

210 y (PAG) integrate negative emotions with the autonomic, neuroendocrine, and immune systems to facilit

211 ), and arterial stiffness and cardiovascular autonomic neuropathy (24 [1.8%] vs 13 [1.0%]; p=0.015).

212 ripheral neuropathy (DPN) and cardiovascular autonomic neuropathy (CAN).

213 t and progression of diabetic cardiovascular autonomic neuropathy (CAN).

214 Hereditary sensory and autonomic neuropathy (HSAN) types IA and IC (IA/C) are c

215 ost prevalent form of hereditary sensory and autonomic neuropathy (HSAN).

216 The link between cardiac autonomic neuropathy and risk of cardiovascular disease

217 PT are known to cause hereditary sensory and autonomic neuropathy type 1 (HSAN1), we examined 10 addi

218 Hereditary sensory and autonomic neuropathy type III (HSAN III) is a rare neuro

219 Individuals with hereditary sensory and autonomic neuropathy type III (HSAN III), also known as

220 ered in patients with Hereditary Sensory and Autonomic Neuropathy type V (HSAN V), caused by the 661C

221 h factor (NGF) causes Hereditary Sensory and Autonomic Neuropathy type V, a rare disease characterize

222 s associated with no detrimental subjective, autonomic, or functional changes.

223 l crest cells make to become sensory, glial, autonomic, or mesenchymal cells can be formalized as a s

224 ypes with posturomotor, oromotor, positional-autonomic, orienting, and vigilance circuits.

225 egulate thirst, neuroendocrine function, and autonomic outflow.

226 , connects with the motor, physiological and autonomic output centers of the CeA.

227 ate neural and humoral signals to coordinate autonomic output to viscera that regulate a variety of p

228 IRt activity contributes to post-I motor and autonomic outputs, and find that IRt neurons are necessa

229 phosphatidic acid in stimulating the primary autonomic oxygen chemoreceptors, the carotid bodies, in

230 ity demonstrated significant decrease in all autonomic parameters, showing an important parasympathet

231 ding of alpha-Syn pathology only through the autonomic pathway to both the central nervous system (CN

232 and intensity dependency in driving distinct autonomic pathways could form a road map for optimizing

233 These results demonstrate key reflex autonomic pathways regulating exercise heart rate respon

234 n cytokine responses, the neuroendocrine and autonomic pathways that connect sleep with the immune sy

235 ing with gross motor development, vision and autonomic physical activities, most evident if children

236 It can also account for the EEG, EMG, and autonomic profiles of wake, REM, and NREM states and sev

237 cephalogram (EEG), electromyogram (EMG), and autonomic profiles.

238 ac (detected by global longitudinal strain), autonomic, pulmonary, and muscular impairments increased

239 The MSBR index included autonomic (pulse rate, blood pressure), metabolic (HOMA(

240 an experimental protocol designed to elicit autonomic reactivity in response to maternal interaction

241 Critically, autonomic reactivity predicts many mental states and, wh

242 ower hypothalamic-pituitary-adrenal axis and autonomic reactivity to stress has also been reported.

243 Autonomic reactivity varied by features of social contex

244 on, avocado pulp improved cardiovascular and autonomic recovery after exercise, suggesting a reduced

245 esting SBP (110 to 120 mmHg) offered delayed autonomic recovery following moderate exercise.

246 te avocado pulp intake on cardiovascular and autonomic recovery subsequent to moderate exercise.

247 ate viscerosensory input to powerfully alter autonomic reflex function and other behaviors.SIGNIFICAN

248 it initiates neuroendocrine, behavioral, and autonomic reflex responses that ensure optimal internal

249 te variability (HRV) indices, cardiovascular autonomic reflex tests (CARTs), and cardiac (123)I-metai

250 We performed standardized cardiovascular autonomic reflex tests and targeted fasting plasma metab

251 of cardiorespiratory homeostasis depends on autonomic reflexes controlled by neuronal circuits of th

252 the aortic arch and carotid sinus initiates autonomic reflexes to change heart rate and blood pressu

253 vocellular, magnocellular and descending/pre-autonomic regions of the PVN, and multiple structural di

254 xons topographically projected to the caudal autonomic regions.

255 , but that midbrain structures important for autonomic regulation also play a crucial role in higher-

256 Changes in human autonomic regulation have been implicated based on epide

257 al use of vagus nerve stimulation to deliver autonomic regulation therapy for HFrEF, results of large

258 HFrEF study will randomize patients (2:1) to autonomic regulation therapy plus guideline-directed med

259 The ANTHEM-HFrEF (Autonomic Regulation Therapy to Enhance Myocardial Funct

260 domized, controlled study evaluating whether autonomic regulation therapy will benefit patients with

261 Abnormal autonomic regulation, a key factor implicated in BPS and

262 ntensities (125 and 150 W), aiming to assess autonomic regulation, and then a self-paced intensity (3

263 ed in relation to a model that describes how autonomic regulatory and interoceptive processes may con

264 ructural, electrical, electromechanical, and autonomic remodeling.

265 es the amplitude augmentation of the central autonomic respiratory output during hypoxia.

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

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

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

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

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

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

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

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

274 inals induces distinct escape behaviours and autonomic responses.

275 hat instances where the adult showed greater autonomic responsivity were associated with faster infan

276 , consistent with a faster activation of the autonomic salience network.

277 Whether upstream autonomic signaling pathways responsible for raising exe

278 to severe pain and regional inflammatory and autonomic signs in complex regional pain syndrome (CRPS)

279 e intimate association between the sleep and autonomic/somatic motor control circuits suggests that a

280 Our findings suggest that autonomic state matching has a direct effect on the pers

281 ranodal SAN conduction, which worsens during autonomic stimulation and overdrive suppression to condu

282 FAAH inhibition also attenuated autonomic stress reactivity, assessed via electrodermal

283 and higher HR variability, reflecting lower autonomic stress responses.

284 cerebral perfusion pressure and activate CNS autonomic sympathetic control circuits to increase syste

285 Autonomic sympathetic noradrenergic signals have been sh

286 Time from disease onset to four autonomic symptoms (constipation, urinary symptoms, erec

287 l neuralgiform headache attacks with cranial autonomic symptoms (SUNA) remains challenging in view of

288 l neuralgiform headache attacks with cranial autonomic symptoms (SUNA).

289 Small-fiber sensory and autonomic symptoms are early presentations of familial a

290 However, autonomic symptoms have not been specifically assessed a

291 We evaluated whether development of autonomic symptoms is associated with disease progressio

292 sal link between HPV vaccination and diffuse autonomic symptoms leading to hospital contact.

293 No significant changes in quality of life or autonomic symptoms were found.

294 airment Score +7 [mNIS+7]), quality of life, autonomic symptoms, nutritional status, disability, ambu

295 gnitive, neuropsychiatric, sleep, motor, and autonomic symptoms.

296 itory system, and motor, neuromodulatory and autonomic systems involved in feeding, were observed in

297 o promote connectivity in sensory, motor and autonomic systems.

298 uscle, as well as the endocrine, immune, and autonomic systems.

299 cholamine levels were assessed as proxies of autonomic tone in the periphery.

300 is a must, and term the desired foundation "autonomics." We focus on three main challenges: 1) how t