ライフサイエンスコーパス: fascicle

1 0 mm (central fascicle), and 2.3 mm (lateral fascicle).

2 en in mechanically stretched rat tail tendon fascicle.

3 ecialization in the last Schwann cell of the fascicle.

4 action potentials in all other axons in the fascicle.

5 ary and cross over to the contralateral axon fascicle.

6 nterior fascicle, but not the left posterior fascicle.

7 and aligning of collagen fibrils within the fascicle.

8 teriole/venule pairs, and 0.2 IL vessels per fascicle.

9 higher-ordered structures such as fibers and fascicles.

10 bably ensheathing glia, surrounded the nerve fascicles.

11 eparate the left from the right ventral cord fascicles.

12 perform final targeting in loosely organized fascicles.

13 y maintain axon position within defined axon fascicles.

14 velopment of commissural and connective axon fascicles.

15 ensheathing cells (OECs), surround OSN axon fascicles.

16 d into the ventral pallium in large aberrant fascicles.

17 sed ability to segregate into nerve-specific fascicles.

18 segregates primary fascicles into secondary fascicles.

19 of the alveus surrounding L1-expressing axon fascicles.

20 units were recorded from teased dorsal root fascicles.

21 ion measurements and estimating white matter fascicles.

22 al collateral ligament, and abnormal lateral fascicles.

23 although it was no longer restricted to axon fascicles.

24 od for in vivo mapping of human white-matter fascicles.

25 tricular outflow tracts and left ventricular fascicles.

26 ch then become connected by the longitudinal fascicles.

27 ayers of glial cells as well as long neurite fascicles.

28 o induce dynamic stretch exclusively of axon fascicles.

29 ess of the plantar fascia was 0.6 mm (medial fascicle), 4.0 mm (central fascicle), and 2.3 mm (latera

30 of the contralesional superior longitudinal fascicle adjacent to primary sensorimotor and posterior

31 ing the pericorneal nerve ring grew as tight fascicles, advancing straight toward the corneal stroma.

32 found preferentially in the myofibers within fascicles affected by perifascicular atrophy, particular

33 The percentage of fascicles affected was recorded.

34 The percentage of affected nerve fascicles after IRE was 50%-100%.

35 and maintain their correct positions in axon fascicles after termination of axon outgrowth.

36 atic nerve induces pigmentation around nerve fascicles, among muscle bundles, and in the hypodermis.

37 ject to the olfactory bulb in densely packed fascicles, an arrangement conducive to axo-axonal intera

38 s is necessary for the establishment of each fascicle and (3) pioneer neurons function synergisticall

39 had higher axial diffusivity in the temporal fascicle and frontally located white matter tracts (forc

40 These fluid shifts between fascicle and interstitial compartments have proved extre

41 and initial lymphatic (IL) vessels within a fascicle and its perimysial space using data for the rat

42 st discrepancies between post denervation SO fascicle and MTU length changes occurred.

43 Hindlimb kinematics, SO fascicle and muscle-tendon unit (MTU) length, and EMG ac

44 minutes, they extend lamellipodia beyond the fascicle and resume migration toward the dorsal nerve co

45 the photoreceptor outer segments, and in the fascicles and arachnoid of the optic nerve.

46 etween connectome nodes, edges, white matter fascicles and diffusion data.

47 axons and cell bodies in place within axonal fascicles and ganglia.

48 Fascicles and lineage tracts also demarcate seven column

49 Collagen encases individual fascicles and segregates primary fascicles into secondar

50 nine subcortical regions, including several fascicles and several subcortical nuclei.

51 orylated neurofilament (NF) in aberrant axon fascicles and the relocation of tau and MAP2B from cell

52 attachment and insertion surfaces of muscle fascicles and therefore surround a substantial portion o

53 iculation of follower neurons along specific fascicles and to prevent axons from crossing the midline

54 as 0.6 mm (medial fascicle), 4.0 mm (central fascicle), and 2.3 mm (lateral fascicle).

55 ns broadly target regions of the OB in tight fascicles, and inner (ONLi), where axons perform final t

56 se can originate from the papillary muscles, fascicles, and mitral annulus.

57 Fascicles, and not myofibers, are in parallel array in t

58 segments, where they were often collected in fascicles, and progressively decreased in number in more

59 axons exit the epithelium singly or in small fascicles, and their growth cones are simple and bullet-

60 Myofibers within the fascicles are coiled or spiraled about each other; and s

61 These bands of fascicles are divided along the midline in a "zone of re

62 These fascicles are formed during the larval period, when the

63 each of five specialized longitudinal muscle fascicles are monitored by at least two stretch receptor

64 rticular, we have previously noted that axon fascicles are oriented parallel to isofrequency laminae

65 which establish the first longitudinal axon fascicles, are insensitive to glial depletion whereas th

66 framework based on a space-filling hexagonal fascicle array to provide predictions of the displacemen

67 physical properties, we treat a white matter fascicle as an array of identical thick-walled cylindric

68 association with specific SATs and neuropil fascicles, as described in the accompanying paper.

69 nnectome, a large collection of white-matter fascicles, as output.

70 cross the midline and select a longitudinal fascicle at specific dorsal-ventral (D-V) positions.

71 or colliculus, the other emerging as a small fascicle at the anterior pole of the inferior colliculus

72 ) in olfactory epithelium or olfactory nerve fascicles at any time after inoculation.

73 n, prior to the first appearance of OSN axon fascicles at E11.

74 Finally, L1 was found on oriented axon fascicles at P0, but became sparsely distributed through

75 h motoneurons fasciculate into pool-specific fascicles at the limb base and then selectively grow to

76 ther, the results suggest that oriented axon fascicles bearing MAG and L1 may contribute to the devel

77 ted to regenerating/atrophic areas of muscle fascicles, blood vessels, and infiltrating lymphocytes.

78 Tendon is composed of fascicles bound together by the interfascicular matrix (

79 change in length and pennation angle of the fascicles but post-conditioning this was not the case su

80 es the right bundle branch and left anterior fascicle, but not the left posterior fascicle.

81 ory nerve by cells that delineate large axon fascicles, but are negative for OEC markers.

82 ing development differs between white-matter fascicles, but in each fascicle the rate of development

83 Axons travel to their targets in bundles or fascicles, but the molecules regulating fasciculation re

84 Most GL fascicles bypassed the pulley without insertion.

85 ts, called lamina cells, within a concentric fascicle called a cartridge.

86 on of the ipsilesional superior longitudinal fascicle connecting premotor and posterior parietal visu

87 Because some of the fascicles contained connections with posterior cortical

88 (2) NA efferent fascicles contained more large fibers (presumably B-type

89 sheathing cells (glia that surround the axon fascicles) contained distinctive linear arrays of partic

90 characterized by myocardium aggregated into fascicles containing approximately 8 myofibers.

91 produce a change of only approximately 2% in fascicle cross-sectional area.

92 By E13 many PrV axons form fascicles crossing the midline and follow a rostral cour

93 he adult brain compartments and the relevant fascicles defining compartmental boundaries.

94 Tracing of every fiber in a human MR OL fascicle demonstrated terminations on pulley tendons wit

95 e reorganization, finally entering the AL in fascicles destined for subsets of glomeruli.

96 th the cingulate gyrus; (3) frontal 'aslant' fascicle, directly connecting the SMA with the pars oper

97 sm, where the glial organisation changes and fascicles disappear, the periodicity of the undulations

98 the descending PFC fibers in the rat form WM fascicles embedded within the striatum.

99 stically validated these tracts using Linear Fascicle Evaluation (LiFE) and virtual lesions.

100 Linear fascicle evaluation (LiFE) takes any connectome as input

101 In addition, a specific CNS fascicle fails to form correctly in these embryos.

102 We have analyzed the SATs and fascicles formed by lineages during larval, pupal, and a

103 In 39 fascicles from 10 subjects, we found that the sensations

104 experiments, INMS was performed in 16 nerve fascicles from an adjacent non-injured nerve or uninjure

105 Muscle fascicles from CB1 knockout embryos contain more muscle

106 On the other hand, the CM fascicles from the two sides cross midline on dorsal sur

107 adially across the basilar membrane in small fascicles, gave off small branches that innervated short

108 To do so we separate the processes of fascicle generation and evaluation.

109 nd heparanase-2 were immunodetected in nerve fascicles growing between muscle bundles within the huma

110 When they contact axons of the lateral nerve fascicles, growth cones stall and spread out along the f

111 Abnormal-appearing meniscal fascicles had a PPV of 8% for lateral meniscocapsular se

112 inal periphery, minor blood vessels and axon fascicles have no special relationship to each other.

113 s are conveyed via the inferior longitudinal fascicle (ILF) to the parietal lobe (areas POa and IPd),

114 been observations of string-like microtubule fascicles in the axon initial segment (AIS) and hexagona

115 eripheral sensory neurons that form specific fascicles in the central nervous system.

116 unlike marsupials, in the tree shrew, optic fascicles in the chiasm are often separated by thick col

117 ainstem and measurement of the density of OC fascicles in the cochlea.

118 ract at the pyramidal decussation, gather in fascicles in the dorsolateral gray matter below the spin

119 lymorphic layer before organizing into fiber fascicles in the hilar pyramidal region.

120 The authors traced representative fascicles in the human medial rectus (MR) and inferior r

121 nd cortical projection zones of white matter fascicles in the living human brain.

122 ular collagen, which is also present between fascicles in the mammalian optic nerve.

123 P12, MAG staining was restricted largely to fascicles in the medial limb, and these were oriented pa

124 stand the relationship between OECs and axon fascicles in the ONL of the adult mouse, we used confoca

125 n the development of optimally wired neurite fascicles in the peripheral visual system of Drosophila.

126 forceps minor, the anterior corpus callosum, fascicles in the temporal lobe, and the tracts within an

127 Phox2b-tdTomato labels nerve fascicles in the tongue of the developing embryo and dem

128 microscopic evaluation of the density of OCB fascicles in the tunnel of Corti, and selected cases wer

129 Nerve fascicles innervating the preparation showed significant

130 ayer of the olfactory bulb in which the axon fascicles interweave and rearrange extensively.

131 individual fascicles and segregates primary fascicles into secondary fascicles.

132 ets in ina-1 mutants, bundling of axons into fascicles is defective, defining a previously unrecogniz

133 The segregation into fasciclin II-positive fascicles is dependent on the presence of the glial cell

134 growing neurites into appropriate bundles or fascicles is important for the development of correct sy

135 that EphA7+ striatofugal axons form distinct fascicles leaving the striatum.

136 agnetic resonance imaging), vastus lateralis fascicle length (L(f)) and pennation angle (), patellar

137 s through direct recordings of gastrocnemius fascicle length (using sonomicrometry), muscle-tendon fo

138 Passive torque, muscle fascicle length and pennation angle were also measured.

139 Little is known about fascicle length changes in paralyzed muscles during loco

140 O and its active synergists might affect its fascicle length changes.

141 .3 +/- 2.2% of a reference length) and least fascicle lengthening (1.5 +/- 0.8%) after denervation we

142 Unexpectedly, SO fascicle lengthening and shortening during stance in all

143 ating running ability seems to be estimating fascicle lengths, not body dimensions.

144 More distally, these fascicles made divergent pathfinding decisions to course

145 r (MFB) give rise to the medial longitudinal fascicle (mlf) and the posterior commissure (pc).

146 lear pathway through the medial longitudinal fascicle (MLF) and the vestibular neurons through the as

147 reakthroughs along the posterior or anterior fascicles: narrow QRS versus LBBB, 5+/-2 versus 1+/-1; P

148 es of the nucleus of the medial longitudinal fascicle (nMLF), in addition to the ventral dendrites of

149 Maximum separation of axon fascicles occurs immediately above the blood vessel and

150 te of transection in the medial longitudinal fascicle of adult cats.

151 sters of processes were assumed to be from a fascicle of amacrine cells, most of which probably belon

152 ulse ingrowing retinal axons, resulting in a fascicle of axons that are completely segregated from op

153 ee sonomicrometry crystals implanted along a fascicle of the semimembranosus muscle in the American t

154 that partitioned or only partially encircled fascicles of axons, sometimes spanning the entire cultur

155 distinctive mesenchymal neoplasm composed of fascicles of bland myofibroblasts admixed with a promine

156 ptor units of canine testis consist of small fascicles of branching axons ending as clusters within t

157 ue biopsy demonstrated fatty replacement and fascicles of degenerative muscle.

158 o investigate to what extent, if any, muscle fascicles of denervated feline soleus (SO) change length

159 s), different fiber types were identified in fascicles of muscle in the adult tail.

160 Associated fascicles of needle leaves with deciduous sheaths and bu

161 n the GCL having been passively displaced by fascicles of optic axons and an expanding retinal vascul

162 thologic characterization includes sheets or fascicles of plump, spindled and epithelioid, rhabdomyob

163 were labeled in the vestibular nerve and in fascicles of the descending vestibular nucleus, as well

164 Some of the LM fascicles of the esophagus leave the esophagus to enter

165 adult brain and associate them with SATs and fascicles of the larval brain.

166 y injuries and resultant swelling within the fascicles of the muscle tissue.

167 hickness of the medial, central, and lateral fascicles of the plantar fascia were assessed independen

168 The muscle fascicles of the right crus of diaphragm which form the

169 ir correct positioning in the left and right fascicles of the VNC.

170 Fascicles of TM-fasciclin II+ axons target certain glome

171 NGF-LIR or PGP 9.5-LIR is increased in nerve fascicles on the operated compared with the unoperated s

172 Three weeks after nerve transection, nerve fascicles on the operated side of the tongue exhibit BDN

173 The CM fascicles on the ventral surface of LES are arranged in

174 blation close to main interatrial conduction fascicles (P=0.035).

175 Collagen septation of primary and secondary fascicles presents natural barriers within the tissues a

176 ed groups of nerve fibres, within individual fascicles proximal to the nerve transection, with small

177 le regions sorted into separate but adjacent fascicles proximally in the limb, long before they reach

178 In human and monkey, OL fascicles remained distinct from each other and from the

179 Narrow junctions of parallel fascicles separate the AVN from the PAVB and DAVB.

180 The greatest SO fascicle shortening (17.3 +/- 2.2% of a reference length

181 hing to a running gait at 2.0 m.s(-1) caused fascicle shortening at the time of peak force production

182 o greater peak force (p < 0.001) and reduced fascicle shortening speed (p < 0.001).

183 Fascicle-shortening velocity at the time of peak muscle

184 he results highlighted key differences in MG fascicle-shortening velocity with both locomotor speed a

185 Numerical solutions of models of axon fascicles show that significant ephaptic interactions oc

186 dorsal portion of the superior longitudinal fascicle (SLF) to dorsal area 6, area 9, and the supplem

187 different white matter regions or different fascicles, subjects, and acquisition parameters.

188 fibre composite, consisting of collagen-rich fascicles surrounded by a softer interfascicular matrix

189 lly related tracts congregate into the brain fascicles that can be followed from the larva throughout

190 here they delineated loosely aggregated axon fascicles that entered the glomeruli obliquely.

191 Once within the isthmus, axons form large fascicles that extend to a dorsal exit point.

192 ptic nerve head in chronotopically organized fascicles that form bands across the intraocular optic n

193 SATs develop into the long fascicles that interconnect the different compartments o

194 cells by lessening the adhesion between the fascicles that make up the migration route, expediting t

195 Radial bundles are comprised of dense SGN fascicles that project through otic mesenchyme to form s

196 between white-matter fascicles, but in each fascicle the rate of development and decline are mirror-

197 in the lateral diencephalon to form a fourth fascicle, the marginal optic tract.

198 ar configuration and the regions between the fascicles, the extrafascicular matrix.

199 uropile component is formed by numerous axon fascicles, the trajectory of which follows an invariant

200 ctopic perineurial fibroblasts form aberrant fascicles throughout the endoneurium of the mutant sciat

201 in monkeys with transection of the uncinate fascicle, thus determining the anatomical specificity of

202 plementary motor area; and via the cingulate fascicle to area 24.

203 growth cones stall and spread out along the fascicle to form anvil-shaped structures.

204 ital regions project via the occipitofrontal fascicle to the frontal lobe (dorsal area 6, and areas 8

205 Distal to the transition zone, smooth muscle fascicles underwent a morphogenetic process whereby they

206 harges were recorded from teased dorsal root fascicles using an in vitro recording set-up.

207 MG fascicle velocity may be a key factor that limits the sp

208 The apoE staining in the nerve fascicles was less intense, but was uniformly distribute

209 inal spatial orientation of individual nerve fascicles was tracked in three dimensions to identify ch

210 Most OL fascicles were inserted into the pulley through short te

211 These fiber fascicles were much more prominent rostrally than caudal

212 omes that contain both short- and long-range fascicles, whereas single-parameter connectomes are bias

213 il, SATs assemble into larger fiber bundles (fascicles) which interconnect different neuropil compart

214 d the neuronal lineages contributing to each fascicle, which allowed us to compare compartments of th

215 ediate the growth of electrically conductive fascicles with normal microanatomy.

216 m an adjacent non-injured nerve or uninjured fascicle within a partially injured nerve.

217 sertions and anatomic relationships of fiber fascicles within rectus EOMs to clarify the relationship

218 Longitudinal axon fascicles within the Drosophila embryonic CNS provide co

219 in the internal capsule and as two distinct fascicles within the intermediate zone of the cerebral c