ライフサイエンスコーパス: vestibular nerve

1 as affected by electrical stimulation of the vestibular nerve.

2 y electrical current pulses delivered to the vestibular nerve.

3 esencephalic tract, quintofrontal tract, and vestibular nerve.

4 t type II hair cells to the primary afferent vestibular nerve.

5 es elicited by electrical stimulation of the vestibular nerve.

6 the three semicircular canal branches of the vestibular nerve.

7 idocaine (1-2 microL of 0.5%) into the right vestibular nerve.

8 Behaviorally relevant patterns of vestibular nerve activation generated a rapid and substa

9 first time plasticity at the synapse between vestibular nerve afferents and their postsynaptic target

10 icated that the three descriptive classes of vestibular nerve afferents have unique as well as overla

11 characterized horizontal semicircular canal vestibular nerve afferents in the toadfish, Opsanus tau.

12 ns in individual response characteristics of vestibular nerve afferents to rotational stimulus provid

13 r reflexes elicited by superior laryngeal or vestibular nerve afferents.

14 anisms of efferent actions, we recorded from vestibular-nerve afferents close to the turtle posterior

15 Many fibers were labeled in the vestibular nerve and in fascicles of the descending vest

16 en in the lagena macula and the cochlear and vestibular nerves by stage 30.

17 was observed in gerbils after lesions of the vestibular nerve central to the ganglion, the cerebellum

18 Second, stimulus evoked vestibular nerve compound action potentials (vCAP) are s

19 test this, we electrically stimulated human vestibular nerves during a goal-directed voluntary tilt

20 cessing stages, the otolith afferents of the vestibular nerve encode linear motion.

21 his study, the effects of iDC stimulation on vestibular nerve fiber firing rate was investigated usin

22 inner ear in the regions of the auditory and vestibular nerve fibres, the neural and abneural limbs a

23 portionally increase or decrease the rate of vestibular nerve firing, as if the head were rotating fa

24 nerated by the electrical stimulation of the vestibular nerve in seven frogs, and we performed a prin

25 ed to arise from differences in the types of vestibular nerve inputs to vestibular nucleus neurons.

26 tion response when the information from both vestibular nerves is centrally integrated.

27 differentiation between inferior or superior vestibular nerve may influence the decision on treatment

28 After lesion of the vestibular nerve, no calretinin staining was seen in any

29 recorded afferent activity from the superior vestibular nerve of anesthetized C57BL/6 mice while stim

30 For patients with inferior vestibular nerve of origin (n = 11), cVEMP amplitudes of

31 threshold levels in the group with superior vestibular nerve of origin (n = 7).

32 We electrically stimulated the vestibular nerves of human subjects to evoke a virtual h

33 For the prediction of superior vestibular nerve origin, sensitivity was 60% and specifi

34 For the prediction of inferior vestibular nerve origin, sensitivity was 73% and specifi

35 The vestibular nerve projects to the four nuclei of the vest

36 First, synchronized vestibular nerve responses are unchanged after administr

37 of calretinin staining resembled that after vestibular nerve section alone, whereas calbindin staini

38 luated the efficacy and safety of electrical vestibular nerve stimulation (VeNS) as a means of reduci

39 t pulses and their postsynaptic responses to vestibular nerve stimulation were recorded, while simult

40 Eighteen consecutive patients undergoing vestibular nerve surgery underwent pre- and postoperativ

41 icity at a candidate site of motor learning: vestibular nerve synapses onto neurons that mediate refl

42 Bidirectional, linear gain control of vestibular nerve synapses onto projection neurons provid

43 logical refinements are required for central vestibular nerve synapses to linearly transmit rate-code

44 ced by sectioning individual branches of the vestibular nerve that innervate the different receptor o

45 fter a combined lesion of the cerebellum and vestibular nerve, the distribution and density of calret

46 timulates semicircular canal branches of the vestibular nerve to convey head rotation.

47 Electrical stimulation of the vestibular nerve using short trains of current pulses ev

48 emoval, requiring sectioning of the involved vestibular nerve (vestibular neurectomy).