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1 ons between RF and cilia projecting into the central canal.
2 GCs and at the periclinal cell walls of the central canal.
3 ile cilia ensure the proper formation of the central canal.
4 ouped into single columns bilaterally to the central canal.
5 ar to the Ecc cells described for the rodent central canal.
6 cells that presumably remain in the macaque central canal.
7 d motile cilia along the ventral wall of the central canal.
8 g more prominent in the stenosed adult human central canal.
9 ed in close vicinity of brain ventricles and central canal.
10 ial cells in a ventrolateral position at the central canal.
11 migrate medially to cluster adjacent to the central canal.
12 k (E18.5) were SPN found to cluster near the central canal.
13 ce were located in both the IML and near the central canal.
14 dominantly in the dorsal horn and around the central canal.
15 to a thick layer of ependyma surrounding the central canal.
16 edially to locations between the IML and the central canal.
17 -migration on radial glial fibers toward the central canal.
18 dorsolateral funiculus, and adjacent to the central canal.
19 II, as well as in ependymal cells around the central canal.
20 of the dorsal horn and in the region of the central canal.
21 hin the deep dorsal horn and surrounding the central canal.
22 horn, the dorsal commissure, and around the central canal.
23 s in the intermediate laminae and around the central canal.
24 y in lamina III and the area surrounding the central canal.
25 d ventrolateral ventral horn, and around the central canal.
26 thetic nucleus (SPN) and lamina X around the central canal.
27 dispersed into the dorsal horn or around the central canal.
28 the intermediate cord, especially around the central canal.
29 of the SC, and by ependymal cells lining the central canal.
30 ive k values of 0.98, 0.98, and 0.96 for the central canal; 0.92, 0.95, and 0.92 for lateral recesses
31 no longer exert the mechanical forces on the central canals, allowing them to be pushed back inwards,
32 e a bulb-like ending that protrudes into the central canal and a lateral process that ramifies ventro
33 hand, have a flat ending protruding into the central canal and a laterally projecting process that ra
34 ber, a proteinaceous thread that sits in the central canal and has been implicated in the control of
35 as expressed transiently by cells lining the central canal and in a unique population of small cells
37 ologists for detection and classification of central canal and lateral recess stenosis, with slightly
38 n the lamprey spinal cord, they surround the central canal and some have processes passing the gray m
39 canal, with the rest distributed between the central canal and the intermediate lateral spinal cord r
40 rigid terminal cell wall thickenings of the central canal and the polar ventral cell wall (VW) ends.
41 spread of CSF tracers occurs within both the central canal and the spinal subarachnoid space toward t
42 I and outer II) and area X (surrounding the central canal) and by nine-fold in the sacral parasympat
43 1-expressing neurons send projections to the central canal, and selectively trigger action potentials
44 l movement of the fiber within the brain and central canal, and subcommissural organ (SCO)-spondin-GF
46 n distinct dorsoventral positions around the central canal are activated by a lesion to give rise to
47 rces driving the outward displacement of the central canal are applied by the asymmetrically swollen
48 majority of postnatal dividing cells in the central canal are Ecc cells and their proliferation is a
49 trigger translocation of CSF-cNs outside the central canal area, we took advantage of close consangui
51 decarboxylase (AADC) occur not only near the central canal, as reported by others, but also in the in
52 ns from the area surrounding the spinal cord central canal at midthoracic (T6-T9) or lumbosacral (L6-
53 at the terminal cell wall thickenings of the central canal, at the polar ends of the VW, at the later
54 les of intermediate filaments surrounded the central canal both in the monkey and in the human, being
55 mally form the epithelial layer encasing the central canal, but they undergo massive proliferation an
56 +) /Sox-10(+) cells inside the lining of the central canal (CC) during postnatal development and adul
57 the derivation of neurons and glia from the central canal (CC) lining of the spinal cord in rodents
58 population lining the lateral domains of the central canal (CC) that are coupled via gap junctions.
60 gic neurons associated with motor functions: central canal cluster and partition cells (active during
61 ositive varicosities in lamina X adjacent to central canal cluster cells in lumbar and sacral segment
62 ed in intermediate positions adjacent to the central canal, corresponding to the paracentral nucleus
63 ise as a function of distance from the inner central canal CSF pool to the outer subpial surface.
64 s for those with relapsing-remitting and the central canal CSF surface in progressive disease, possib
65 lateral spinal cord and then back toward the central canal, despite strong reelin expression in the v
74 f labeled Ecc cells were observed within the central canal in adult mice 2.5 weeks post labeling.
75 zed in bilateral columns dorsolateral to the central canal in segments L1-L5, the expected location o
76 ons were identified in close vicinity to the central canal, in the lateral spinal nucleus, in the ven
77 nases, and CrkL) are located adjacent to the central canal instead of in the intermediolateral column
78 ation as radial glial fibers back toward the central canal, instead of migrating dorsolaterally to fo
80 of cholinergic interneurons located near the central canal is identified as the source of C boutons.
82 mated detection and classification of lumbar central canal, lateral recess, and neural -foraminal ste
83 ive procedure is an option for patients with central canal LSS who have continued pain-following cons
84 es increasing options to those patients with central canal lumbar stenosis who may not be candidates
87 uggested that the ependymal cells lining the central canal of postnatal spinal cord possess certain p
91 he cell walls of the bulbous ends and of the central canal of the GCs, as well as the cell walls of t
92 that the neurons in the area adjacent to the central canal of the midthoracic or lumbosacral level of
93 al fluid-contacting (CSF-c) neurons line the central canal of the spinal cord and a subtype of CSF-c
95 gins of the CSF flow bidirectionality in the central canal of the spinal cord of 30 hpf zebrafish emb
96 rain and the ependymal layer surrounding the central canal of the spinal cord) as well as being prese
97 at long distances from the transplant in the central canal of the spinal cord, the surface of the bra
103 omplished by the lateral displacement of the central canals of the dumbbell-shaped guard cells (GCs)
104 ire ventricular system, including around the central canal, of rodents, but little is known about the
106 oscopy and immunohistochemistry and identify central canal proliferating cells with Ki67 and newly ge
108 r internal testing, DL model and radiologist central canal recall were greater than 99%, with reduced
109 minal nucleus, dorsal horn, ventral horn and central canal region were also immunoreactive for the Kv
112 bute to our understanding of the spinal cord central canal structure and reveal the targets for endoc
114 ular thread positioned in the midline of the central canal that aggregates thanks to the beating of n
115 ymal zone, the epithelial cell lining of the central canal that is also an adult stem cell niche.
116 ntralateral interneurons at the level of the central canal, the number and distribution of phrenic-as
119 ors expressed in ependymocytes that line the central canal, triggered Ca(2+) signals to induce polyme
122 migrated dorsomedially to cluster around the central canal, with the rest distributed between the cen
123 ocytes were first found at E40, close to the central canal, with their spread in a tangential manner