ライフサイエンスコーパス: facial muscle

1 l changes caused by the movement of specific facial muscles.

2 ognition of actions associated with specific facial muscles.

3 g co-activation of specific jaw, tongue, and facial muscles.

4 innervate primarily the contralateral lower facial muscles.

5 se of facial asymmetry exclusively involving facial muscles.

6 st twitch muscles as well as extraocular and facial muscles.

7 By combining different facial muscle actions, called action units, humans can p

8 Covert facial mimicry involves subtle facial muscle activation in observers when they perceive

9 ther covert facial mimicry involves distinct facial muscle activation patterns across muscles per emo

10 to provide evidence for distinct patterns of facial muscle activation when viewing individual emotion

11 limited in number, volitional movements (eg, facial muscle activity, head movements, shoulder shrugs)

12 only 33,000 y, domestication transformed the facial muscle anatomy of dogs specifically for facial co

13 es to motoneurones innervating the different facial muscles and presynaptic synchronization of input

14 , some hypaxial precursors of the body, some facial muscles and the central nervous system.

15 ctopic ANF promoter activity in the kidneys, facial muscles, and aortic arch artery-associated muscle

16 We show that specific facial muscles are missing in mice lacking both MyoR and

17 f repeated movements of the torso, head, and facial muscles as outlined by the US Occupational Safety

18 ansmission should focus on proximal limb and facial muscles, as well as clinically weak muscles.

19 tify facial expression by coding patterns of facial muscle contraction and relaxation.

20 as stepping, turning, raising of the head or facial muscle contraction in the absence of treadmill mo

21 uded distinctive eye movements and selective facial muscle contractions, constituting correctly answe

22 Recovered facial muscles demonstrated an abundance of cholinergic

23 Facial muscles drive whisker movements, which are import

24 this gap by contrasting the coordination of facial muscles during different types of rhythmic orofac

25 It is concluded that co-contraction of facial muscles during some facial expressions are accomp

26 lts indicated no selective activation of the facial muscles for the expressions in 4-month-old infant

27 ies including velo-pharyngeal insufficiency, facial muscle hypotonia and feeding difficulties, in par

28 pontaneous functional recovery of denervated facial muscles in male rodents.

29 eparate control that can be exhibited by the facial muscles involved.

30 pressions are indeed created by moving one's facial muscles, it is logical to assume that our visual

31 Because most facial muscles lack proprioceptor endings, the sensory b

32 atterns of weakness or incoordination of the facial muscles, lips, tongue, palate, pharyngeal constri

33 us research by including a greater number of facial muscle measures and emotional expressions.

34 is protective effect of BoNT in cosmetic use/facial muscles, migraine/facial and head muscles, spasms

35 NAs of these peptides were injected into the facial muscle of adult rats prior to facial nerve avulsi

36 ne (Adv.RSV-beta-gal) were injected into the facial muscles of neonatal rats the vectors were retrogr

37 ic drive is not present between all possible facial muscle pairs and suggests a functional role for t

38 transcription factors expressed in specific facial muscle precursors.

39 rsations about symptoms, eye problems (21%), facial muscle problems (18%), and fatigue (18%) were mos

40 e lower face muscles, in the other condition facial muscles remained relaxed.

41 Cardiorespiratory, skin conductance, and facial muscle responses were measured from participants

42 They also support the idea that mammalian facial muscles reverted to an ancestral 'nearest-neighbo

43 This was followed by enlargement of the facial muscles that modulate echolocation calls, which i

44 exceptions are some extraocular muscles and facial muscles that normally attach to osteological stru

45 ective states by measuring the activation of facial muscles traditionally associated with positive (l

46 Furthermore, the autonomically reinnervated facial muscles underwent a muscle fiber change to a pure

47 glionic parasympathetic fibers travel to the facial muscles via the sensory infraorbital nerve.

48 The results show that bulbar and facial muscle weakness and wasting are associated with s

49 ming the test, particularly in patients with facial muscle weakness or bulbar dysfunction.

50 ded simultaneously from ipsilateral pairs of facial muscles while subjects made three different commo