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1 (relative sparing of the hippocampus and/or occipital lobe).
2 ons measured (temporal, frontal, and parieto-occipital lobes).
3 ith fibres of the lateral pathway within the occipital lobe.
4 llow damage to primary visual cortex, in the occipital lobe.
5 r colour in more dorsolateral regions of the occipital lobe.
6 intracranial electrodes placed on the human occipital lobe.
7 ure and can be traced posteriorly around the occipital lobe.
8 opographically organized visual areas of the occipital lobe.
9 rface coil to measure a 14-cm3 volume in the occipital lobe.
10 gamma peak frequency and amplitude from the occipital lobe.
11 in extrastriate visual cortex of the ventral occipital lobe.
12 emporal lobe, posterior parietal cortex, and occipital lobe.
13 m away from the most posterior aspect of the occipital lobe.
14 its for simple targets are restricted to the occipital lobe.
15 bserved in the parietal lobe followed by the occipital lobe.
16 of foveal and peripheral signals within the occipital lobe.
17 rsistent white matter changes in the parieto-occipital lobes.
18 w density in the white matter of the parieto-occipital lobes.
19 elieved to require integrity of the parietal-occipital lobes.
20 ith age but it decreased in the parietal and occipital lobes.
21 ory periphery in the parietal, temporal, and occipital lobes.
22 olandic operculum, and superior and inferior occipital lobes.
23 d right and left superior and right inferior occipital lobes.
24 d, localized to portions of the temporal and occipital lobes.
25 emotor regions, and also in the parietal and occipital lobes.
26 prefrontal, the right parietal and the left occipital lobes.
27 ntion would be disproportionately greater in occipital lobes.
28 nd parietal lobes but not in the frontal and occipital lobes.
29 ickening was demonstrated in the frontal and occipital lobes.
30 specially the frontal, lateral temporal, and occipital lobes.
31 us and regions of the temporal, parietal and occipital lobes.
32 across the subcortex, frontal, parietal and occipital lobes.
33 ical white matter of the frontal and parieto-occipital lobes.
34 urons were stained in frontal, parietal, and occipital lobes.
35 ost commonly affected region was the parieto-occipital lobes (100%), however, other atypical regions
36 nimals selectively activated the left medial occipital lobe--a region involved in the earliest stages
37 iated with reduced gray matter volume in the occipital lobe and left cerebellar lobule VIIb, which is
38 spheric communication between regions of the occipital lobe and of the superior parietal lobules.
39 pathways, including the lingual gyrus in the occipital lobe and the inferior parietal lobe, which had
41 matter from frontal, parietal, temporal, and occipital lobes and cerebellum as well as basal ganglia.
43 nts showed activation in the fusiform gyrus, occipital lobe, and inferior frontal cortex relative to
44 nterior-posterior stretch in the frontal and occipital lobes, and superior-inferior stretch in right
47 gyrus, lateral and medial temporal lobe, and occipital lobe as well as caudate and putamen nuclei, af
48 adoxical ability of some human subjects with occipital lobe brain damage to discriminate unseen stimu
49 ller gray matter volumes in the temporal and occipital lobes, but no difference between groups was fo
52 least two characteristics localizing to the occipital lobe (clinical symptoms, interictal focus, ict
53 reased in the precuneus and the parietal and occipital lobes compared with subjects with subjective c
55 The lateral temporal, frontal, parietal, and occipital lobe cortices appeared normal for age 66 years
58 gyri than sulci and in frontal compared with occipital lobes, decreasing consistently throughout the
59 seizure control, outcome after resection of occipital lobe developmental abnormalities is less unifo
60 anscranial magnetic stimulation of the human occipital lobe disrupts the normal perception of objects
61 od flow increases were observed in the right occipital lobe during the memory task relative to the co
63 s had unilateral frontal lobe epilepsy, five occipital lobe epilepsy (OLE), six parietal lobe epileps
64 main pathological substrates of uncontrolled occipital lobe epilepsy are gliomas and developmental ab
65 n was present, intact cortex in the lesioned occipital lobe exhibited conventional retinotopic organi
66 fiber tracking (FT) were used to measure the occipital lobe fiber tracts connecting the two hemispher
68 lear magnetic resonance spectroscopy, serial occipital lobe GABA and homocarnosine concentrations wer
69 icipants with WS showed reduced thalamic and occipital lobe gray matter volumes and reduced gray matt
70 bodies (DLB) have both been associated with occipital lobe hypometabolism on (18)F-FDG PET, whereas
71 calized to the temporal lobe in 9 and to the occipital lobe in 1; seizure onset was poorly localized.
73 eactivity was significantly decreased in the occipital lobe in both presymptomatic (mean BOLD change
74 shown in the cortex of the left parietal and occipital lobe in the first patient and symmetrically in
76 ost prominent in the frontal, cingulate, and occipital lobes in all high-risk individuals compared wi
78 P levels were found in frontal, parietal and occipital lobes in MCI and late AD compared to controls
79 ease in F(4)-NPs was present in parietal and occipital lobes in MCI compared to controls and a signif
80 ional thinning of the parietal, temporal and occipital lobes in the VLBW group, whereas regional thic
81 he cuneus, lingual and fusiform gyri, middle occipital lobe, inferior parietal lobule, and also cingu
83 (total and frontal, parietal, temporal, and occipital lobes), lateral ventricular cerebrospinal flui
84 ippocampus and right middle temporal gyrus), occipital lobe (left lingual gyrus), anterior cingulate,
85 st RT group than in the slow RT group in the occipital lobes, left sensorimotor cortices, and supplem
87 erns of hypometabolism involving the lateral occipital lobe, lingual gyrus, cuneus, precuneus, poster
88 erns of hypometabolism involving the lateral occipital lobe, lingual gyrus, cuneus, precuneus, poster
91 ionship to etiology, pathological substrate, occipital lobe location, surgical approach, and electroc
92 from those where the line sloped upwards in occipital lobe (lvPPA-high), representing unusually high
93 bjects in which the line sloped downwards in occipital lobe (lvPPA-low), representing low uptake, wer
94 y decreased cortical grey matter rCBF in the occipital lobe (mean difference -11.1 mL/100 g per min,
95 lective involvement of parietal, frontal and occipital lobes might explain some of the clinical and n
98 icant grey matter atrophy bilaterally in the occipital lobe of PDD patients compared with Parkinson's
100 g of the retinal nerve fibre layer following occipital lobe/optic radiation damage due to stroke.
101 showed greater hypometabolism in the medial occipital lobe, orbitofrontal cortex, anterior temporal
102 y differ with respect to location within the occipital lobe (overall medial [50%] or lateral [38%]);
103 nt activation decreases in the left anterior occipital lobe (P=.016), right posterior temporal lobe (
104 n bilateral, frontal, parietal, temporal and occipital lobes (P < 0.001), while FTD patients had a th
105 the posterior P2 component over the parieto-occipital lobe peaked significantly earlier for the uniq
109 the thalamus and decreased rCBF in the left occipital lobe, right cerebellum, and temporal cortex bi
110 ns of interest in anterior temporal lobe and occipital lobe sections corresponding closely to those u
112 tients who underwent surgery for intractable occipital lobe seizures were retrospectively evaluated.
113 sterior parietal cortex or the right ventral occipital lobe selectively induced a significant shift t
114 c variances in the central sulcus region and occipital lobe suggest potential difficulties in control
115 logy of the rolandic cortex) and the ICOE-G (occipital lobe symptomatology), while the autonomic clin
118 ose hypometabolism (P < 0.001) involving the occipital lobes, temporal lobes, limbic system, cerebell
119 ose hypometabolism (P < 0.001) involving the occipital lobes, temporal lobes, limbic system, cerebell
120 hat have shown that following lesions of the occipital lobe, the retinal nerve fibre layer thickness
121 campus and parahippocampal gyrus, and in the occipital lobe, the right frontal lobe and the left pari
123 ately 8% in the frontal lobes and 12% in the occipital lobes-these regions also showed significant vo
124 dema of the white matter of the parietal and occipital lobes; this syndrome is potentially reversible
126 aseline and during visual stimulation in the occipital lobe using (31)P magnetic resonance spectrosco
128 g transcranial magnetic stimulation over the occipital lobe, we showed a clear impairment in the accu
130 rences in the brains were small, even in the occipital lobe where only a small region of the primary
131 cts were most prominent for the parietal and occipital lobe, which showed divergent effects as early
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