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1 e the diaphragmatic, intercostal, spine, and neck muscles.
2 rts of the myocardium and different head and neck muscles.
3 ed after selective peripheral denervation of neck muscles.
4  for the neck, and its activity can contract neck muscles.
5       Here, based on results suggesting that neck muscle activity provides a sensitive indicator of o
6 movement cancellation based on recordings of neck muscle activity while human subjects attempted to c
7 are actively braked by a pulse of antagonist neck muscle activity.
8                                   By linking neck muscle and heart development, our findings highligh
9         Very rarely it can affect one of the neck muscles and present as a neck tumor, it can be misd
10 t regions that repress transgene activity in neck muscles and promote differential expression among i
11 applied directly over posterior and anterior neck muscles and tendons.
12                We find that the neck length, neck muscles, and diving speed of the bird predominantly
13 th different SHF-derived parts of the heart, neck muscles are clonally distinct from these muscles an
14        The trapezius and sternocleidomastoid neck muscles are formed from progenitor cells that have
15                                              Neck muscles constitute a transition zone between somite
16 e developed a technique to measure posterior neck muscle cross-sectional area (CSA) on volumetric MR
17 ble, valid and reliable method for measuring neck muscle CSA on T1-weighted MR brain scans.
18 principal component explained 72.2% of total neck muscle CSA variance and correlated positively with
19  ICC for between scanner variation for total neck muscle CSA was high at 0.94 (CI 0.86-0.98).
20                                Head and some neck muscles do not derive from somites, but mainly form
21 d hippocampal electroencephalogram (EEG) and neck muscle electromyogram with the electrooculogram and
22  photoactivated in conscious rats while EEG, neck muscle EMG, blood pressure (BP), and breathing were
23 ery had a standardized clinical examination, neck muscle EMG, videofluoroscopic swallow and CT of the
24 ive clonal analysis shows that this group of neck muscles includes laryngeal muscles and a component
25 ng) stimulus trains was recorded in back and neck muscles, lateral longissimus and splenius before an
26 F pair of chemosensory neurons and a pair of neck muscle motor neurons, is sufficient to generate rea
27 ses on motoneurons that innervate the flexor neck muscle, rectus capitis anterior (RCA), in the adult
28                             The polysynaptic neck muscle response evoked by TMS of the prefrontal cor
29                                         This neck muscle response resembled that evoked by subsaccadi
30 ed state dependency, with TMS evoking larger neck muscle responses when the stimulated area was activ
31 nd Tbx1 mutant analysis show that nonsomitic neck muscles share a gene regulatory network with cardia
32  fibres such as the one studied here (bovine neck muscle) show a stack of three or four zigzag layers
33 with earlier studies in the cat hindlimb and neck muscles, these results suggest that the activation
34        Simultaneous measures of behavior and neck muscle tone indicated that bouts of theta occurred
35  disordered sensorimotor control of face and neck muscles via ascending and cortical descending proje
36 ectromyographic activity (EMG) from affected neck muscles were recorded before and immediately after

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