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1 ommissural fibres, and parts of the superior longitudinal fasciculus).
2 6 (anterior) and approximately 1.5 (superior longitudinal fasciculus).
3 tive sparing of the fronto-parietal superior longitudinal fasciculus.
4 ity, parallel and transverse in the inferior longitudinal fasciculus.
5 lower fractional anisotropy in the inferior longitudinal fasciculus.
6 te fasciculus, extreme capsule, and inferior longitudinal fasciculus.
7 nd in the interstitial nucleus of the medial longitudinal fasciculus.
8 left arcuate fasciculus, and right inferior longitudinal fasciculus.
9 e rostral interstitial nucleus of the medial longitudinal fasciculus.
10 round the interstitial nucleus of the medial longitudinal fasciculus.
11 teral uncinate fasciculus and right inferior longitudinal fasciculus.
12 te fasciculus, cingulum bundle, and inferior longitudinal fasciculus.
13 s is distinct from the nucleus of the medial longitudinal fasciculus.
14 lesions in the first segment of the superior longitudinal fasciculus.
15 r longitudinal fasciculus, and left inferior longitudinal fasciculus.
16 callosum, corticospinal tracts and superior longitudinal fasciculus.
17 eral external capsule and the right superior longitudinal fasciculus.
18 wer radial diffusivity in the right superior longitudinal fasciculus.
19 alis, posterior corona radiata, and superior longitudinal fasciculus.
20 hat include the fiber bundle of the superior longitudinal fasciculus.
21 nal capsule, and the right temporal inferior longitudinal fasciculus.
22 ter, with a peak in the right-sided superior longitudinal fasciculus.
23 or fronto-occipital fasciculus, and inferior longitudinal fasciculus.
24 mmissure, hippocampal commissure, and medial longitudinal fasciculus.
25 n the left cortico-spinal tract and superior longitudinal fasciculus.
26 ediately below, within, and above the medial longitudinal fasciculus.
27 cingulum, optic radiations, and the superior longitudinal fasciculus.
28 prefrontal cortex, and in the left superior longitudinal fasciculus 1 connecting the middle cingulat
29 ly, microstructural features of the inferior longitudinal fasciculus (a long-range occipitoanterotemp
30 response task and integrity of the superior longitudinal fasciculus (a primary fronto-parietal conne
31 for the uncinate fasciculus and the inferior longitudinal fasciculus, a control tract that we hypothe
32 cated in the central portion of the superior longitudinal fasciculus, a long associative bundle conne
33 cause of delayed development of the inferior longitudinal fasciculus, a prominent occipitotemporal fi
34 and beyond (eg, corona radiata and inferior longitudinal fasciculus) across all individuals, regardl
35 e focus on seven fibre pathways-the superior longitudinal fasciculus and arcuate fasciculus, the unci
37 ite matter skeleton), including the inferior longitudinal fasciculus and cingulum (61 272 mm3, P < .0
38 ons of glucose x FA in left corpus callosum, longitudinal fasciculus and corona radiata were independ
39 sciculus; from the temporal lobe, the middle longitudinal fasciculus and from rostral to caudal, the
40 ween axial diffusivity of the right superior longitudinal fasciculus and heritable aspects of the def
41 ound in the midbrain's nucleus of the medial longitudinal fasciculus and in the dimorphic vocal motor
42 le, middle longitudinal fasciculus, inferior longitudinal fasciculus and inferior fronto-occipital fa
44 or three major white matter tracts: superior longitudinal fasciculus and superior and inferior fronto
45 corpus callosum, internal capsule, superior longitudinal fasciculus and superior corona radiata) com
46 ropy was significantly lower in the inferior longitudinal fasciculus and superior longitudinal fascic
48 e white matter bundles, such as the inferior longitudinal fasciculus and the inferior frontal occipit
50 ts in the cingulum and superior and inferior longitudinal fasciculus) and lower FA in the corticospin
51 n in the left cingulum, in the left superior longitudinal fasciculus, and bilaterally in the fornix a
53 and posterior corona radiata, right superior longitudinal fasciculus, and in a left cluster including
54 e/posterior thalamic radiate, right superior longitudinal fasciculus, and left inferior longitudinal
55 (i.e., anterior portion of the left inferior longitudinal fasciculus, and middle portion of the left
56 he octaval nuclei, the nucleus of the medial longitudinal fasciculus, and reticulospinal neurons (Rsp
57 fronto-occipital fasciculus (IFOF), inferior longitudinal fasciculus, and superior longitudinal fasci
58 ization in left arcuate fasciculus, inferior longitudinal fasciculus, and the parietal portion of the
59 ntal white matter, corpus callosum, superior longitudinal fasciculus, and white matter core of the te
60 the occipital-temporal region, the inferior longitudinal fasciculus; and from the cingulate gyrus, t
62 perior cingulum, temporal cingulum, superior longitudinal fasciculus, arcuate fasciculus, inferior fr
63 major left hemisphere tracts (e.g. superior longitudinal fasciculus) are also present in younger chi
64 d third (III) branches of the right superior longitudinal fasciculus, as well as in the splenium of t
65 mically the anterior portion of the superior longitudinal fasciculus (aSLF), a pathway connecting par
66 ated with lower RSI-RND in the left superior longitudinal fasciculus (beta = -0.055; 95% CI, -0.081 t
67 uctions were also found in the left superior longitudinal fasciculus (beta = -0.194, pcorrected = 0.0
68 r RSI-RNI in most tracts (eg, right inferior longitudinal fasciculus: beta = -0.042 [95% CI, -0.073 t
69 ior fronto-occipital fasciculus and superior longitudinal fasciculus between scans correlating with g
70 posterior corona radiata, bilateral superior longitudinal fasciculus, bilateral fornix (cres)/stria t
71 ally), forceps major (bilaterally), inferior longitudinal fasciculus (bilaterally), and the genu and
72 al cortex, including the middle and superior longitudinal fasciculus, but not the arcuate fasciculus.
74 ata, internal capsule, superior and inferior longitudinal fasciculus, cingulum bundle, and corpus cal
75 e inferior longitudinal fasciculus, superior longitudinal fasciculus, cingulum, and uncinate underlie
76 ith the largest effect sizes in the superior longitudinal fasciculus (Cohen's d = 0.37), posterior co
77 cipital fasciculi, and in the right inferior longitudinal fasciculus compared with control subjects (
78 matter around cingulate, including superior longitudinal fasciculus, corpus callosum, and cingulum.
79 in the anterior portion of the left inferior longitudinal fasciculus distinguished probands with pers
80 from the vestibular nucleus (VN) and medial longitudinal fasciculus during horizontal head rotation
81 with lower RSI-RND in the bilateral superior longitudinal fasciculus (eg, right hemisphere: beta = 0.
83 following white matter tracts: the superior longitudinal fasciculus, fronto-occipital fasciculus, un
84 erior thalamic radiations, and left superior longitudinal fasciculus (>2,000 voxels) were observed.
85 findings in the cerebellum and the superior longitudinal fasciculus have not previously been noted.
86 a key white matter tract (the left superior longitudinal fasciculus-I) substantiated hypotheses abou
87 ith fractional anisotropy values in superior longitudinal fasciculus II/III for subacute patients and
89 , p<.01), and lower MD in the right inferior longitudinal fasciculus (ILF) and left forceps major (>/
90 ection of association fiber tracts [inferior longitudinal fasciculus (ILF) and/or inferior fronto-occ
91 on the arcuate fasciculus (AF) and inferior longitudinal fasciculus (ILF) as fiber tracts that conne
93 le (PWMB), arcuate fasciculus (AF), inferior longitudinal fasciculus (ILF), uncinate fasciculus (UF)
99 les, but had higher AD in the right superior longitudinal fasciculus, ILF, and forceps minor (>/= 164
100 nferior longitudinal fasciculus and superior longitudinal fasciculus in all patients compared with al
102 alis, posterior corona radiata, and superior longitudinal fasciculus in remitted vs persistent PTSD p
103 extrapolate from demyelination of the medial longitudinal fasciculus in the brainstem to quantitative
104 microstructural degeneration of the superior longitudinal fasciculus in the executive control network
105 telencephalon, in the nucleus of the medial longitudinal fasciculus in the midbrain, and at the bord
106 lower fractional anisotropy) in the inferior longitudinal fasciculus in the right temporal lobe that
107 lar agnosia are co-localized to the inferior longitudinal fasciculus in the right temporal lobe.
109 left hemisphere dorsal tracts--the superior longitudinal fasciculus including its arcuate component-
110 ed phonological awareness and right superior longitudinal fasciculus (including arcuate fasciculus) w
111 uncinate fasciculus, extreme capsule, middle longitudinal fasciculus, inferior longitudinal fasciculu
112 anisotropy in the cingulum bundle, superior longitudinal fasciculus, internal capsule, and splenium
113 ber, Edinger-Westphal, nucleus of the medial longitudinal fasciculus, interstitial nucleus of Cajal,
114 gion extending anteriorly along the superior longitudinal fasciculus into the deep white matter of th
115 y (RD) in the corpus callosum (CC), superior longitudinal fasciculus (LF), corona radiata (CR), inter
116 med statistically that lesions of the medial longitudinal fasciculus (MLF) and the medial vestibular
117 reticular thalamic nucleus (RT), the medial longitudinal fasciculus (MLF) as well as in the locus co
118 pendent on pioneer neurons but on the medial longitudinal fasciculus (MLF), a bundle of axons lying v
119 urons, whose axons course through the medial longitudinal fasciculus (MLF), and neurons in the latera
120 , 0.010-0.025; P < .001), and right superior longitudinal fasciculus (n = 42; B = 0.014 [95% CI, 0.00
121 5% CI, 0.016-0.021; P < .001), left superior longitudinal fasciculus (n = 42; B = 0.018; 95% CI, 0.01
122 inantly located in the nucleus of the medial longitudinal fasciculus (NMLF) and entopeduncular nucleu
124 cending neurons of the nucleus of the medial longitudinal fasciculus (nMLF) to dissect their contribu
125 behavioral role of the nucleus of the medial longitudinal fasciculus (nMLF), a small group of reticul
126 s well as cells of the nucleus of the medial longitudinal fasciculus (nMLF), also exhibited extensive
127 to guide axons of the nucleus of the medial longitudinal fasciculus (nucMLF) by repulsion and modula
131 reased fractional anisotropy in the superior longitudinal fasciculus (P = .006), white matter around
133 d increased mean diffusivity of the superior longitudinal fasciculus, particularly the premotor compo
134 rent visual system, in particular the medial longitudinal fasciculus pathway, may be a way to measure
135 ing left and right corpus callosum, superior longitudinal fasciculus, posterior thalamic radiation, a
136 he corona radiata, corpus callosum, superior longitudinal fasciculus, posterior thalamic radiations,
137 ith non-fluent aphasia, such as the superior longitudinal fasciculus, precentral, inferior frontal, s
138 rostructural properties of the left inferior-longitudinal fasciculus predict contextual learning, whe
139 (the mammillotegmental tract and the medial longitudinal fasciculus), projected caudally from the pr
140 the corpus callosum, cingulum, and superior longitudinal fasciculus (ps < .004), even after accounti
142 tropy in the corpus callosum, right superior longitudinal fasciculus, right posterior corona radiata,
143 e rostral interstitial nucleus of the medial longitudinal fasciculus (riMLF) and substantia nigra, al
144 e rostral interstitial nucleus of the medial longitudinal fasciculus (riMLF) and the interstitial nuc
145 e rostral interstitial nucleus of the medial longitudinal fasciculus (riMLF) contains excitatory and
146 e rostral interstitial nucleus of the medial longitudinal fasciculus (riMLF) contains premotor neuron
147 d rostral interstitial nucleus of the medial longitudinal fasciculus (riMLF) synaptic endings in the
148 to as the ventral pathway); and the superior longitudinal fasciculus segmented into its frontosuprama
149 the fornix, uncinate fasciculus and inferior longitudinal fasciculus, show differential contributions
150 synaptic potentials elicited from the medial longitudinal fasciculus significantly increased in avera
151 ys, including three branches of the superior longitudinal fasciculus (SLF I-III) and the inferior fro
152 he microstructural integrity of the superior longitudinal fasciculus (SLF) and cingulum bundle (CB) p
153 integrity) was higher in the right superior longitudinal fasciculus (SLF) in WS compared with both c
155 evealed that a cluster in the right superior longitudinal fasciculus (SLF) tract had larger fractiona
156 r FA in two clusters located in the superior longitudinal fasciculus (SLF) when compared with the psy
157 whether age-related changes in the superior longitudinal fasciculus (SLF), are responsible for the d
158 and right thalamic radiation (TR), superior longitudinal fasciculus (SLF), corpus callosum (CC), and
162 anating from the parietal lobe, the superior longitudinal fasciculus subcomponents I, II and III; fro
163 white matter microstructure in the inferior longitudinal fasciculus, superior longitudinal fasciculu
164 lliculus, interstitial nucleus of the medial longitudinal fasciculus, supraoculomotor periaqueductal
166 osed of the extreme capsule and the inferior longitudinal fasciculus, that mediated auditory comprehe
167 g nuclei: the interstitial nucleus of medial longitudinal fasciculus, the pontine reticular formation
168 a and healthy controls at the right inferior longitudinal fasciculus, the right arcuate fasciculus, a
169 n the corticospinal tract, the left superior longitudinal fasciculus, the uncinate fasciculus, the fo
171 for radial diffusivity of the right superior longitudinal fasciculus to h2 = 0.46 (SE, 0.15; P = .000
172 abilistic tractography of the right inferior longitudinal fasciculus together with a data-driven mult
173 us, and the parietal portion of the superior longitudinal fasciculus using probabilistic tractography
174 glucose x FA in left corpus callosum, or in longitudinal fasciculus was associated with MCCB mazes a
177 ior fronto-occipital fasciculus and inferior longitudinal fasciculus was positively associated with i
180 n associated with WMHs in the right superior longitudinal fasciculus was significantly associated wit
181 ons resulting from damage along the superior longitudinal fasciculus were associated with both types
182 d ipsilateral pyramidal tract and the medial longitudinal fasciculus were recorded and compared with
183 uate fasciculus and fronto-parietal superior longitudinal fasciculus were tracked in five semantic de
184 jections of the third branch of the superior longitudinal fasciculus, while more rostral regions may
185 bellar white matter and in the left superior longitudinal fasciculus; women had higher FA in the corp