ライフサイエンスコーパス: prosody

1 mes) to long-duration cues (e.g., syllables, prosody).

2 tions based upon vocal inflection (affective prosody).

3 ctor contributing to right lateralization of prosody.

4 usly associated with perception of emotional prosody.

5 brain showed particular sensitivity to happy prosody.

6 o words spoken with neutral, happy, or angry prosody.

7 nd the generation/comprehension of emotional prosody.

8 Whether or not prosody--a reportedly right-hemispheric faculty--involve

9 pitch, which is an important cue for speech prosody and for tonal languages such as Mandarin Chinese

10 sive overlap in neural resources involved in prosody and music processing, music perception seems to

11 itry disambiguate uncertainties in affective prosody and propositional linguistic content of language

12 be due to misaligned processing of emotional prosody and semantics.

13 rative online processing of fear and disgust prosody and semantics.

14 ctive aspects, including phonology, grammar, prosody and semantics.

15 there is not clear brain lateralization for prosody and there may be bilateral representation for th

16 ech; through the voice in the form of speech prosody and through the face in the form of facial expre

17 y on tasks involving expression of affective prosody, and on tests of linguistic prosody, compared wi

18 e pSTS, a region known for processing speech prosody, and the orbitofrontal cortex and amygdala, brai

19 that when participants prepare for emotional prosody, bilateral ventral striatum is specifically acti

20 also impaired in comprehension of affective prosody, but many patients with impairments in prosodic

21 tream decreased participants' performance in prosody categorization, arguing for a motor involvement

22 ffective prosody, and on tests of linguistic prosody, compared with controls.

23 Our vocal tone--the prosody--contributes a lot to the meaning of speech beyo

24 ralization of cortical regions mobilized for prosody control could point to efficient processing of s

25 sis is that sensitivity to emotion in speech prosody derives from the capacity to process music.

26 ctive from sensorimotor aspects of emotional prosody generation.

27 or the neural processing stages of emotional prosody has suggested that auditory emotion is perceived

28 We examined sensitivity to emotion in speech prosody in a sample of individuals with congenital amusi

29 re (RH) appears to be dominant for affective prosody in adults, while the left hemisphere (LH) mediat

30 The interactive time course of emotional prosody in the context of emotional semantics was invest

31 reported difficulty understanding emotional prosody in their daily lives, suggesting some awareness

32 Speech prosody is essential for verbal communication.

33 an integrative overview, arguing that speech prosody is subserved by the same anatomical and neuroche

34 Prosody is that quality of speech that imparts meaning b

35 Functional connectivity studies on prosody leave no doubt about the existence of such strea

36 icipants judged emotions in emotional speech prosody, nonverbal vocalizations (e.g., crying), and (si

37 dal neuroimaging and brain stimulation, that prosody perception takes dual routes along dorsal and ve

38 rization, arguing for a motor involvement in prosody perception.

39 to cognitive and motor aspects of emotional prosody preparation and production and is more strongly

40 while a second model proposes that emotional prosody relies heavily on basal ganglia.

41 ases involved in the generation of affective prosody remain unclear and debated.

42 Hearing emotional prosody resulted in increased responses in a voice-sensi

43 regarding how the brain perceives emotional prosody, the neural bases involved in the generation of

44 n and expression of affective and linguistic prosody were tested in subjects with documented unilater

45 sia have some deficits recognizing emotional prosody, whereas those with the semantic variant show mo

46 ns production and comprehension of emotional prosody, while a second model proposes that emotional pr

47 than matched controls at decoding emotional prosody, with decoding rates for some emotions up to 20%