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1 nal nerve and from the lingual branch of the hypoglossal nerve.
2 either the medial or lateral branches of the hypoglossal nerve.
3 ioral data obtained after transection of the hypoglossal nerve.
4 fibers from the third spinal nerve into the hypoglossal nerve.
5 ranial nerve nuclei, including the vagus and hypoglossal nerve.
6 e later emerging HMP, neural crest cells and hypoglossal nerve.
7 transecting either the strap muscles or the hypoglossal nerves.
10 tivation, increased the respiratory rate and hypoglossal nerve activity, induced c-fos expression in
11 analysis of MVBs in the normal postnatal rat hypoglossal nerve and under a variety of experimental co
12 but not exclusively, via stimulation of the hypoglossal nerves and also increases upstream resistanc
13 cular septal defect, abnormal development of hypoglossal nerves, and defective remodeling of the aort
14 nd N-methyl-D-aspartate excitatory output of hypoglossal nerves, and that reduced excitatory responsi
15 insufficiency, as evidenced by a loss of the hypoglossal nerve (cranial nerve XII) in embryos from th
16 o the magnitude of motor output; respiratory hypoglossal nerve discharge decreased and its frequency
17 ats underwent unilateral transections of the hypoglossal nerve, followed by intramedullary grafts of
19 hesize that the presence of afferents in the hypoglossal nerve is a derived characteristic of anurans
20 from stimulation of the medial branch of the hypoglossal nerve is predominantly due to ventral displa
22 f transecting the cervical strap muscles and hypoglossal nerves on airflow dynamics during hypercapni
23 apparent correlation between the size of the hypoglossal nerve, or the number of axons it contains, a
24 2A antagonist, MDL-100907, dropped intrinsic hypoglossal nerve respiratory activity by 61 +/- 6% (p <
26 weeks of intermittent hypoxia showed reduced hypoglossal nerve responsiveness (logEC50) for serotonin
27 at hypoglossal canal size is correlated with hypoglossal nerve size, which in turn is related to tong
29 h obstructive sleep apnea (OSA) treated with hypoglossal nerve stimulation (HGNS) therapy are incompl
30 als are needed to characterize the effect of hypoglossal nerve stimulation (HGNS) therapy on cardiova
31 and incompletely understood, particularly in hypoglossal nerve stimulation (HGNS), an increasingly po
33 s lacking from randomized clinical trials of hypoglossal nerve stimulation in obstructive sleep apnea
36 nses compared favorably with those of distal hypoglossal nerve stimulation trials, although clinicall
37 hodamine 101 uptake after the trigeminal and hypoglossal nerves stimulation labeled the bilateral hyp
38 ral and central endings of the branch of the hypoglossal nerve that supplies the syrinx, the tracheos
41 rupted vocal behavior, whereas lesion of the hypoglossal nerve to the tongue exerted no obvious disru
44 y neurons from the tongue that ascend in the hypoglossal nerve were identified and described in the l
45 iratory-related rhythmic motor activity from hypoglossal nerve (XIIn) and patch-clamped preBotC inspi
46 iratory-related rhythmic motor output in the hypoglossal nerve (XIIn) to 84 % (without IBMX) and to 7