Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
about
The vestibular system mediates sensation of low-frequency sounds in miceComplex movements evoked by microstimulation of the ventral intraparietal areaBlepharospasm: Update on Epidemiology, Clinical Aspects, and PathophysiologyInteractions between stretch and startle reflexes produce task-appropriate rapid postural reactions.Long-latency reflexes account for limb biomechanics through several supraspinal pathways.The Deakin/Graeff hypothesis: focus on serotonergic inhibition of panic.Cell type-specific modifications of corticotropin-releasing factor (CRF) and its type 1 receptor (CRF1) on startle behavior and sensorimotor gatingEvidence for Startle Effects due to Externally Induced Lower Limb Movements: Implications in Neurorehabilitation.The role of sensory modality in prepulse inhibition: An ontogenetic study.Modeling startle eyeblink electromyogram to assess fear learningReduced Prepulse Inhibition as a Biomarker of Schizophrenia.Sensorimotor Difficulties Are Associated with the Severity of Autism Spectrum Conditions.The Functional Networks of Prepulse Inhibition: Neuronal Connectivity Analysis Based on FDG-PET in Awake and Unrestrained Rats.Protective balance and startle responses to sudden freefall in standing humans.Glycine and GABAA receptors mediate tonic and phasic inhibitory processes that contribute to prepulse inhibition in the goldfish startle network.A cost minimisation and Bayesian inference model predicts startle reflex modulation across species.Greater general startle reflex is associated with greater anxiety levels: a correlational study on 111 young women.Behavioral models of tinnitus and hyperacusis in animals.Instruction-dependent modulation of the long-latency stretch reflex is associated with indicators of startle.Origin and function of short-latency inputs to the neural substrates underlying the acoustic startle reflexRegeneration in the era of functional genomics and gene network analysis.Behavioral detection of passive whisker stimuli requires somatosensory cortexWhiplash evokes descending muscle recruitment and sympathetic responses characteristic of startleEffect of seated trunk posture on eye blink startle and subjective experience: comparing flexion, neutral upright posture, and extension of spine.Interactions between gaze-evoked blinks and gaze shifts in monkeysA possible role of the locus coeruleus in complex regional pain syndrome.Prenatal IV nicotine exposure produces a sex difference in sensorimotor gating of the auditory startle reflex in adult rats.TMS perturbs saccade trajectories and unmasks an internal feedback controller for saccades.Fear potentiation is associated with hypothalamic-pituitary-adrenal axis function in PTSDRepeated elicitation of the acoustic startle reflex leads to sensitisation in subsequent avoidance behaviour and induces fear conditioning.The TIP39-PTH2 receptor system: unique peptidergic cell groups in the brainstem and their interactions with central regulatory mechanisms.Stretch sensitive reflexes as an adaptive mechanism for maintaining limb stability.CRF1 and CRF2 receptors are required for potentiated startle to contextual but not discrete cuesThe differential role of motor cortex in stretch reflex modulation induced by changes in environmental mechanics and verbal instructionStartle reactivity in children at risk for migraineSubthreshold auditory inputs to extrastriate visual neurons are responsive to parametric changes in stimulus quality: sensory-specific versus non-specific codingThe medial paralemniscal nucleus and its afferent neuronal connections in rat.Examination of spasticity of the knee flexors and knee extensors using isokinetic dynamometry with electromyography and clinical scales in children with spinal cord injury.Role of corticotropin releasing factor in anxiety disorders: a translational research perspectiveSynaptic depression and short-term habituation are located in the sensory part of the mammalian startle pathway.
P2860
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P2860
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
description
2002 nî lūn-bûn
@nan
2002 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@ast
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@en
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@nl
type
label
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@ast
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@en
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@nl
prefLabel
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@ast
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@en
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@nl
P2093
P1476
Tactile, acoustic and vestibular systems sum to elicit the startle reflex.
@en
P2093
Brian W Scott
John S Yeomans
Paul W Frankland
P356
10.1016/S0149-7634(01)00057-4
P577
2002-01-01T00:00:00Z