ライフサイエンスコーパス: auditory perception

1 n about how sensorimotor integration affects auditory perception.

2 Here, we tested for such echoes in auditory perception.

3 ticipants, we examined entrainment echoes in auditory perception.

4 st that CRMP1 is required for high-frequency auditory perception.

5 n is thought to be fundamental to successful auditory perception.

6 ochlear hair cells are not only critical for auditory perception.

7 tes auditory decisions by modulating ongoing auditory perception.

8 for further studies into the rhythmicity of auditory perception.

9 Pitch and timbre are two crucial aspects of auditory perception.

10 , which seems to be important for successful auditory perception.

11 inciples also play a crucial role in healthy auditory perception.

12 asticity in the auditory cortex and improves auditory perception.

13 , which has also been found to be related to auditory perception.

14 elope may reflect mechanisms specialized for auditory perception.

15 tor processes to enable imagery and to guide auditory perception.

16 Pitch and timbre are two crucial aspects of auditory perception.

17 sidered to be a central mechanism underlying auditory perception.

18 ns arising from the motor system can enhance auditory perception.

19 ring at a later age (P23-P35) did not impair auditory perception.

20 t yet been generalized to task-related human auditory perception.

21 t that learning is accompanied by changes in auditory perception.

22 Pitch is a fundamental attribute of auditory perception.

23 ions of different components of attention to auditory perception.

24 focused on linking physiological results to auditory perception.

25 us fundamental building blocks of visual and auditory perception.

26 intrinsic mechanism for attenuating phantom auditory perception.

27 cortical processing associated with superior auditory perception.

28 reflects the central role of harmonicity in auditory perception.

29 the temporal fidelity that is essential for auditory perception.

30 intensity components within each signal for auditory perception.

31 ut not limited to, fine motor production and auditory perception.

32 te to functional impairments of language and auditory perception.

33 ysis frequency spacing to more closely match auditory perception.

34 in cochlear implant recipients will improve auditory perception.

35 to regenerate hair cells, the receptors for auditory perception.

36 ic cortical regions involved in higher order auditory perception.

37 asks have been the subject of new studies in auditory perception.

38 xperiments can inform classical questions in auditory perception.

39 , and entrainment seems to be beneficial for auditory perception.

40 ffering an insight into the genetic basis of auditory perception.

41 tal processing principles underlying healthy auditory perception.

42 ion, but there are few, if any, that rely on auditory perception alone.

43 s show auditory rhythmic regularity benefits auditory perception and auditory-motor coordination in c

44 These findings demonstrate that auditory perception and behavior are served by a network

45 related to music and fundamental aspects of auditory perception and cognition.

46 etations regarding the precise role of AC in auditory perception and ensuing behaviour.

47 early visual cortex is common across actual auditory perception and imagery and may be mediated by h

48 s in early childhood leads to impairments in auditory perception and language processing that can las

49 ing loss can cause prolonged difficulty with auditory perception and language processing.

50 s and planum temporale have crucial roles in auditory perception and language processing.

51 al dissociation between vocal production and auditory perception and memory.

52 are they artifacts of generic limitations on auditory perception and motor control-they reflect unive

53 veral hundred milliseconds during periods of auditory perception and overt speech production.

54 r and middle temporal gyrus) associated with auditory perception and processing, regions which were p

55 nderstanding of the organizing principles of auditory perception and provide, for the first time, cle

56 Results show that both auditory perception and vocal production are disrupted w

57 ial behavior that entails the integration of auditory perception and vocal production.

58 om other brain areas when it is generated by auditory perception and/or imagery, and this input carri

59 ibition in auditory areas predicted abnormal auditory perception (and positive symptoms) in PScz in 3

60 al lobe systems involved in episodic memory, auditory perception, and language processing, and cortic

61 anguage difficulties result from problems in auditory perception, and provide further information abo

62 ct in three unique tasks: visual perception, auditory perception, and visual memory retrieval, indica

63 re we present evidence that these aspects of auditory perception arise from the statistical structure

64 These play a crucial role in auditory perception as well as attention.

65 ormance of the perceptual system: Does human auditory perception benefit from neural phase reorganiza

66 tch and timbre are two primary dimensions of auditory perception, but how they are represented in the

67 Attention powerfully influences auditory perception, but little is understood about the

68 location of sounds is an important aspect of auditory perception, but the ways in which space is repr

69 Attention modulates auditory perception, but there are currently no simple t

70 We test these notions within auditory perception by independently manipulating top-do

71 Here we aimed to modulate auditory perception by modulating neural entrainment to

72 Auditory perception can be modulated by other sensory st

73 first demonstration that abstract aspects of auditory perception can be transferred between species w

74 In principle, auditory perception could be improved by facilitating ne

75 brain areas that are thought to give rise to auditory perception deficits such as temporal processing

76 Thus, coherent auditory perception depends on "hearing" back in time: r

77 Auditory perception depends on the coding and organizati

78 ive difference between acoustic and electric auditory perception does not seem to be due to differenc

79 tion and speech were assessed by appropriate auditory perception evaluation tools.

80 aled to macaque anatomy, for the analysis of auditory perception evoked by electrical stimulation of

81 Previous research has demonstrated that auditory perception fluctuates rhythmically after a cue.

82 esponses lasting at least hours and improved auditory perception for days to weeks.

83 ining had a positive influence on elementary auditory perception (frequency, tone duration, onset ram

84 ime and to predict individual differences in auditory perception from associated neural activity.

85 that extracts neuronal features of bistable auditory perception from largescale single-trial data wh

86 f the mechanotransduction channel underlying auditory perception has been difficult to define.

87 ile the effects of short-term predictions on auditory perception have been well-documented, how long-

88 Physiological studies of auditory perception have not yet clearly distinguished s

89 normal interactions between local and global auditory perception in ASD.

90 t stimulus regularities, can bias subsequent auditory perception in diverse ways.

91 ing frontal language production regions with auditory perception in the superior temporal gyrus, the

92 gion, an area responsible for high-frequency auditory perception, in Crmp1-deficient mice.

93 recognize abstract features of voice during auditory perception is an intricate feat of human auditi

94 ments, the brain can suppress echoes so that auditory perception is dominated by the primary or leadi

95 Auditory perception is fundamental to human development

96 Auditory perception is mediated through a finite number

97 Auditory perception is our main gateway to communication

98 he neural mechanism mediating this aspect of auditory perception is shared among primates, and perhap

99 A crucial aspect of auditory perception is the ability to use sound cues to

100 A fundamental feature of auditory perception is the constancy of sound recognitio

101 Human auditory perception is thought to be realized by a netwo

102 A necessary function of auditory perception is to generalize across the high var

103 Auditory perception is traditionally conceived as the pe

104 The latter suggests that improving auditory perception might require simultaneously targeti

105 This work suggests that improving auditory perception might require simultaneously targeti

106 ul events and streams and is fundamental for auditory perception of both music and speech.

107 Therefore, our auditory perception of location must be synthesized from

108 generate a "song" that obscures the female's auditory perception of other potential mates.

109 ritical developmental processes that support auditory perception of vocalizations more generally.

110 uracy that is similar to the accuracy of the auditory perception of whispered sounds, and in congruen

111 Auditory perception requires categorizing sound sequence

112 acy development, innovations in the areas of auditory perception, social emotional learning, motor de

113 lation of affect, motor function, visual and auditory perception, spatial orientation, memory retriev

114 ory spatial receptive fields and can capture auditory perception such that sound is localized toward

115 perceptual decision, given sufficient time, auditory perception switches back and forth between the

116 ory "streams." In this study, we adapted two auditory perception tasks, used in recent human psychoph

117 tion and response-selection processes during auditory perception tasks.

118 Pitch and timbre are two primary features of auditory perception that are generally considered indepe

119 feeding state and gene expression related to auditory perception that is mediated by endocannabinoid

120 Together, we find rhythmic echoes in auditory perception that seem more complex than those pr

121 alography (MEG) with an established index of auditory perception, the mismatch negativity response, t

122 that placed implicit, increasing demands on auditory perception through progressively more difficult

123 associated with contextual facilitation for auditory perception through temporal regularity processi

124 tudy the effect of renewed auditory input on auditory perception, vocal production, and vocal learnin

125 contrast to prediction errors in visual and auditory perception, which are associated with increased

126 We tested whether HERs reflect conscious auditory perception, which can potentially provide addit

127 ved understanding of the basic mechanisms of auditory perception will aid us in the quest to tackle t

128 carefully timed tactile cues, could improve auditory perception with potential applications in audit

129 he sensory-motor interface, flexibly linking auditory perception with sex-specific behavioral respons

130 on in acoustic inputs is a crucial aspect of auditory perception, yet very few studies have focused o