ライフサイエンスコーパス: vestibular nucleus

1 r neurons that are given off to the inferior vestibular nucleus.

2 ar nucleus and fibers directed to the medial vestibular nucleus.

3 scending and ventral portions of the lateral vestibular nucleus.

4 raphy of stimulus sensitivity in the lateral vestibular nucleus.

5 rons in the magnocellular part of the medial vestibular nucleus.

6 cleus and the lateral margin of the superior vestibular nucleus.

7 or lateral line both terminate in the medial vestibular nucleus.

8 and the parvocellular portion of the medial vestibular nucleus.

9 roduced increased Fos labeling in the medial vestibular nucleus.

10 erent neurons are also located in the medial vestibular nucleus.

11 anterograde tracer injection into the medial vestibular nucleus.

12 r nucleus, and rostral portion of the spinal vestibular nucleus.

13 set of neurons, presumed FTNs, in the medial vestibular nucleus.

14 which are sparsely distributed in the medial vestibular nucleus.

15 ngulum, hippocampus, thalamus, amygdala, and vestibular nucleus.

16 r nuclear complex, except the dorsal lateral vestibular nucleus.

17 the abducens nucleus and the ventral lateral vestibular nucleus.

18 ocellularis, and bilaterally in the inferior vestibular nucleus.

19 esh of dendrites and terminals in the medial vestibular nucleus, adjacent to the ventricular border.

20 and at the level of the posterior tangential vestibular nucleus and coursed through ventral parts, pr

21 as well as ascending fibers in the superior vestibular nucleus and fibers directed to the medial ves

22 ions: less c-Fos was induced in the superior vestibular nucleus and locus coeruleus after estradiol r

23 Cells in the lateral vestibular nucleus and RF colocalized NPNFP and a marker

24 fection, PrP(Sc) was detected in the lateral vestibular nucleus and the interposed nucleus of the cer

25 minal labeling was heavy in the dorsolateral vestibular nucleus and the lateral margin of the superio

26 tibulo-ocular processing (such as the medial vestibular nucleus and the nucleus abducens).

27 Otto Deiters, for whom the lateral vestibular nucleus and the supporting cells of the outer

28 of the thalamus, 0.24 ug . g(-1) +/- 0.04 in vestibular nucleus) and significantly greater than that

29 lla, medial facial nucleus, A5 area, lateral vestibular nucleus, and internal lateral subnucleus of t

30 ventral and lateral portions of the superior vestibular nucleus, and rostral portion of the spinal ve

31 ular border, in the neuropil of the superior vestibular nucleus, and scattered in the descending and

32 s, substantia nigra, deep cerebellar nuclei, vestibular nucleus, and the thalamus.

33 longitudinal fasciculus (MLF) and the medial vestibular nucleus are associated with ipsiversive tilt

34 that motion-sensitive neurons in the lateral vestibular nucleus are state dependent.

35 eticular neurons, whereas projections to the vestibular nucleus arise from the lateral reticular nucl

36 lar nerve and in fascicles of the descending vestibular nucleus, as well as ascending fibers in the s

37 end organs, whereas secondary afferents from vestibular nucleus carry integrated signals.

38 nucleus prepositus hypoglossi (NPH), spinal vestibular nucleus, cochlear complex, and gigantocellula

39 Myelinated fiber bundles of the spinal vestibular nucleus contained moderate numbers of labeled

40 tibular nuclei revealed that only the medial vestibular nucleus contained significant numbers of peri

41 ), motor trigeminal nucleus, facial nucleus, vestibular nucleus, dorsal motor nucleus of the vagus, a

42 Labeled terminals were present in the medial vestibular nucleus, especially along the ventricular bor

43 resent in the neuropil of the dorsal lateral vestibular nucleus, especially surrounding the large neu

44 f firing rate potentiation in neurons of the vestibular nucleus have revealed new rules of plasticity

45 with comparable synaptogenesis of the medial vestibular nucleus in flight relative to control fetuses

46 the perifornical/LH area through the lateral vestibular nucleus in the brainstem.

47 These results indicate that the inferior vestibular nucleus is an integrating center for vestibul

48 medial vestibular nucleus (MVN) and inferior vestibular nucleus (IVN) project to the parabrachial nuc

49 us and a few scattered neurons in the medial vestibular nucleus, just rostral to the NTS.

50 ateral hemisection at C3 (HX) and in lateral vestibular nucleus (LVN) neurons that were hemisected at

51 that optogenetic stimulation of the lateral vestibular nucleus (LVN) only results in motor responses

52 ase (nNOS) define subdivisions of the medial vestibular nucleus (MVe) and the nucleus prepositus (PrH

53 cally defined subdivisions within the medial vestibular nucleus (MVe) and within the functionally rel

54 The mammalian medial vestibular nucleus (MVe) receives input from all vestibu

55 he superior vestibular nucleus (SVN), medial vestibular nucleus (MVN) and inferior vestibular nucleus

56 measure GABA levels in the bilateral medial vestibular nucleus (MVN) at various times after unilater

57 neurones in the rostral region of the medial vestibular nucleus (MVN) develop a sustained increase in

58 agonist baclofen on tonically active medial vestibular nucleus (MVN) neurones were recorded in slice

59 n of intrinsic parameters observed in medial vestibular nucleus (MVN) neurons can be neatly subdivide

60 have recently been identified in rat medial vestibular nucleus (MVN) neurons during 'vestibular comp

61 the intrinsic properties of brainstem medial vestibular nucleus (MVN) neurons during vestibular compe

62 ffects of nociceptin (orphanin FQ) on medial vestibular nucleus (MVN) neurons in vitro, and on vestib

63 id neurotransmitters in slices of the medial vestibular nucleus (MVN) prepared from normal and labyri

64 We apply this strategy to the mouse medial vestibular nucleus (MVN), which comprises several types

65 of rats with particular focus on the medial vestibular nucleus (MVN).

66 ed response characteristics of well-isolated vestibular nucleus neurons (n = 9) while pairing yaw rot

67 onveying these nonlabyrinthine inputs to the vestibular nucleus neurons are unknown.

68 properties were exceptional among brainstem vestibular nucleus neurons but strikingly similar to neu

69 Finally, we show that vestibular nucleus neurons can transduce synaptic inputs

70 diverse fast-firing capacities among medial vestibular nucleus neurons of mice, we identify a group

71 The firing behaviour of vestibular nucleus neurons putatively involved in produc

72 dal 3-D whole body rotation of well-isolated vestibular nucleus neurons which were tested for monosyn

73 le-cell recordings from spontaneously firing vestibular nucleus neurons, brief periods of inhibitory

74 In spontaneously firing vestibular nucleus neurons, CaMKII activity is near maxi

75 f the cerebellum provide inhibitory input to vestibular nucleus neurons, with gamma-aminobutyrate (GA

76 ufficient to impact the firing of downstream vestibular nucleus neurons.

77 ses to reduced Purkinje cell input to medial vestibular nucleus neurons.

78 tentiation, and reductions in BK currents in vestibular nucleus neurons.

79 ive head movement were faithfully encoded by vestibular nucleus neurons.

80 s in the types of vestibular nerve inputs to vestibular nucleus neurons.

81 ts, we compared GABA receptors in the medial vestibular nucleus of brain slices from Scn8a mutant mic

82 ity of fast-spiking cell types in the medial vestibular nucleus of mice of both sexes, we examined th

83 uronal density was identified in the lateral vestibular nucleus of the brainstem and a small but stat

84 erent subcortical connectivity of the medial vestibular nucleus of the golden hamster (Mesocricetus a

85 Labeling was moderate to heavy in the medial vestibular nucleus, particulary the rostral half of the

86 on of CTB, confirmed that some in the medial vestibular nucleus polysynaptically project to the SCN a

87 es have demonstrated that the neurons of the vestibular nucleus possess the capacity for both synapti

88 induced bidirectional synaptic plasticity in vestibular nucleus projection neurons: long-term potenti

89 Vestibular nucleus projections to these regions originat

90 ed from those from the native ear within the vestibular nucleus, resembling the ocular dominance colu

91 Other neurons in the vestibular nucleus show a wide range of blends of signal

92 hroughout larval stages, cells in the medial vestibular nucleus show best frequencies to particle mot

93 r and middle reticular nuclei, magnocellular vestibular nucleus, solitary tract nucleus, nucleus medi

94 reticular nucleus, lateral tegmental field, vestibular nucleus, subretrofacial nucleus, spinal trige

95 membrane properties of neurons in the medial vestibular nucleus substantially influence firing respon

96 abbits and rats have shown that the superior vestibular nucleus (SVN), medial vestibular nucleus (MVN

97 ied several classes of neurons in the medial vestibular nucleus that receive Purkinje cell synapses f

98 t of the periaqueductal gray, and the medial vestibular nucleus that were also neurotensinergic.

99 the red nucleus, the oculomotor nucleus, the vestibular nucleus, the cochlear nucleus, the gigantocel

100 tis, the dorsal cochlear nucleus, the medial vestibular nucleus, the inferior olive, and the dorsal m

101 nation were lateral, particularly the spinal vestibular nucleus, the lateral portion of the superior

102 heir synapses within a distinctive brainstem vestibular nucleus, the tangential nucleus.

103 itive labeling was present in the descending vestibular nucleus: this was heaviest laterally, and the

104 ricular nerve were the lateral/dorsal medial vestibular nucleus, ventral and lateral portions of the

105 nucleus, the lateral portion of the superior vestibular nucleus, ventral nucleus y, the external cune

106 few neuron cell bodies in the ventrolateral vestibular nucleus, vestibulocerebellar nucleus, and des

107 e bilateral lesions in the dorsal brain stem vestibular nucleus (VN) and cerebellum of severely affec

108 llular unit responses were recorded from the vestibular nucleus (VN) and medial longitudinal fascicul

109 positive neurons in the area postrema (AP), vestibular nucleus (VN), parabrachial nucleus (PBN), nuc

110 y of staining, measured in the caudal medial vestibular nucleus, was significantly lower.

111 marker, measured in the magnocellular medial vestibular nucleus, was significantly reduced.

112 some of the Fos-labeled cells in the medial vestibular nucleus were commissural.

113 Neurons of the medial vestibular nucleus were not as heavily innervated.

114 However, the locus coeruleus and medial vestibular nucleus, which contribute to sleep and eye mo

115 he chick tangential nucleus is a major avian vestibular nucleus whose principal cells participate in

116 fasciculus (MLF), and neurons in the lateral vestibular nucleus, whose axons project through the asce