ライフサイエンスコーパス: cerebrum

1 52% (temporal cortical gray matter) and 76% (cerebrum).

2 tinct tracts between the optic lobes and the cerebrum.

3 the neuron specific marker betaTUBIII in the cerebrum.

4 at confers this sensitivity in the adult rat cerebrum.

5 ular volumes were less prominent than in the cerebrum.

6 n of activity in the brainstem, thalamus and cerebrum.

7 te matter of the spinal cord, brainstem, and cerebrum.

8 tic rats still possessed more GLUT1 than the cerebrum.

9 subventricular zones (SVZs) of the embryonic cerebrum.

10 nmental and genetic insults to the postnatal cerebrum.

11 ytes following transplantation into neonatal cerebrum.

12 hanism of action that VNS has throughout the cerebrum.

13 nd spatial organization throughout the mouse cerebrum.

14 ckness (CT) and sulcal depth (SD) across the cerebrum.

15 e protracted neurodegenerative course in the cerebrum.

16 to cause widespread neural disruption in the cerebrum.

17 and its relationship with the anatomy of the cerebrum.

18 ses jointly affecting the cerebellum and the cerebrum.

19 es optimized for both the cerebellum and the cerebrum.

20 higher levels in the cerebellum than in the cerebrum.

21 olume variation-lags far behind that for the cerebrum.

22 r spread outside the brainstem including the cerebrum.

23 t was recovered also from trachea, lung, and cerebrum.

24 D67, which is significantly less than in the cerebrum.

25 te matter abnormalities involving the entire cerebrum.

26 ases in cortical thickness in EPT across the cerebrum.

27 utionary mechanisms culminating in the human cerebrum.

28 s observed throughout the frontal cortex and cerebrum.

29 as markedly decreased in Alzheimer's disease cerebrum.

30 ning the telencephalon, the precursor to the cerebrum.

31 eries from 112 regions comprising the entire cerebrum.

32 the cortices of the mammalian cerebellum and cerebrum.

33 al pressure into the deep gray matter of the cerebrum.

34 ferent ecological niches, such as Danionella cerebrum,(13)(,)(14)(,)(15) remain largely unexplored.

35 to the epicardium (71%), endocardium (93%), cerebrum (183%), brain stem (177%), renal cortex (53%),

36 found between Sz and reduced volumes of the cerebrum (-.22 [-.30/-.14]) and white matter (-.17 [-.25

37 Slices of cerebrum, 300-500 microm thick, were made from P3 newbor

38 A new study has demonstrated that Danionella cerebrum - a miniature teleost fish - is capable of mult

39 que propulsion mechanism by which Danionella cerebrum, a miniature cyprinid fish of only 12 mm length

40 Here, we map the development of mouse cerebrum across the developmental time-course, from embr

41 oxLDL may be present in parenchymal cells of cerebrum after infarction and that oxLDL may influence t

42 bnormal myelin compaction in spinal cord and cerebrum, an ultrastructural defect that we propose to b

43 sed as an approximately 3.3-kb transcript in cerebrum and as an approximately 4.4-kb transcript in th

44 ed round foci of hyperdensity throughout the cerebrum and brainstem thought to be foci of M. chimaera

45 in a serially sectioned C57BL/6 mouse brain (cerebrum and brainstem).

46 f the intranuclear inclusions throughout the cerebrum and brainstem, being most numerous in the hippo

47 disorders: evolutionary-driven expansion of cerebrum and cerebellar size; imbalance in the excitator

48 essing cells were randomly localized in Rett cerebrum and cerebellum and showed normal MeCP2 expressi

49 h different sensory and motor systems in the cerebrum and cerebellum can be seasonally re-shaped in b

50 THGr measures demonstrated diaschisis in the cerebrum and cerebellum of patients with glioma.

51 THGr measures demonstrated diaschisis in the cerebrum and cerebellum of patients with glioma.

52 ctionally related brain regions (brain stem, cerebrum and cerebellum) are also metabolically similar.

53 ase of BACE1 post-transcriptionally, both in cerebrum and cerebellum, and caused axonal-targeting def

54 plicated in the expansion and folding of the cerebrum and cerebellum, respectively.

55 overactivations of the motor system in both cerebrum and cerebellum, with right cerebral dominance.

56 in the evolution of cortical folding of the cerebrum and cerebellum.

57 rmally unaffected brain regions, such as the cerebrum and cerebellum.

58 astic medulloblastomas and can occur in both cerebrum and cerebellum.

59 r analyses confirm the distinctiveness of D. cerebrum and D. translucida and suggest that the two spe

60 is, correlates with rapid enlargement of the cerebrum and development of convolutions, which occur co

61 arily in developing limbic structures of the cerebrum and diencephalon, and in the medulla of the bra

62 tivation were observed in the contralesional cerebrum and ipsilesional cerebellum (P = .009).

63 ted (grey and white matter) volumes of total cerebrum and lobar regions.

64 d, with expression significantly high in the cerebrum and low in the cerebellum.

65 redistribution was highest along the dorsal cerebrum and lowest in the midbrain/pons and along the v

66 MeCP2(hi) neurons highest in layer IV of the cerebrum and MeCP2(lo )neurons highest in the granular l

67 CNS, reaching carrier levels in much of the cerebrum and normal levels in the cerebellum, spinal cor

68 Lesions that involved the cerebrum and posterior fossa accounted for 11.7% (218 of

69 Cortical thickness across the cerebrum and presence of DSM-IV-defined ADHD at follow-u

70 nts demonstrated white matter disease in the cerebrum and spinal cord.

71 d hypomyelination in multiple regions of the cerebrum and spinal cord.

72 ice are associated with a stable increase in cerebrum and spleen tryptophan metabolites, with a conco

73 ediators, TXNIP, and oxidative damage in the cerebrum and spleen, including inflammatory cytokine pro

74 urred among largely principal neurons in the cerebrum and subcortical structures.

75 la has unique morphology and location in the cerebrum and that these key differences emerge during fe

76 e in the development and organisation of the cerebrum and the cerebellum.

77 mammalian species and manually segmented the cerebrum and the cerebellum.

78 Volumes of the total cerebrum and the hippocampus were measured.

79 in the parietal and occipital regions of the cerebrum and the suprapyramidal region of the medulla.

80 Volumes of the cerebrum and total and regional GM were obtained by usin

81 uced maxilla) and brain shape (hyperinflated cerebrum and ventrally shifted optic lobes).

82 The cerebrums and ventricles were isolated and then parcella

83 (SCPN), which send projections away from the cerebrum, and callosal projection neurons (CPN), which s

84 n carbonyl derivatives in the liver, kidney, cerebrum, and cerebellum, respectively.

85 lls in the lung, in pyramidal neurons in the cerebrum, and in Purkinje cells in the cerebellum.

86 mage was observed in the outer layers of the cerebrum, and numerous condensed neuronal nuclei were pr

87 l precursors in the cerebellum, hippocampus, cerebrum, and olfactory bulb, where migration establishe

88 n groups were broadly present throughout the cerebrum, and one of the most substantial differences-be

89 of GLUT1 and GLUT3 expression in the retina, cerebrum, and their respective microvessels by Western b

90 ntitative measurements were obtained for the cerebrum, anterior frontal region, lateral ventricles, t

91 The cerebrum appeared most severely affected, but the gross

92 nal tumors, which are often localized in the cerebrum, are both characterized by a neoplastic glial c

93 development of the miniature fish Danionella cerebrum as a model organism offers one potential soluti

94 -soluble and insoluble Abeta by ELISA in the cerebrum, as compared with TLR4 wild-type mouse models.

95 Post-mortem material from the cerebrum, brainstem and spinal cord of 55 multiple scler

96 Quantitative CBF fell 6-8% in the cerebrum, brainstem, and cerebellum.

97 ed concentrations of these substances in the cerebrum, brainstem, and spinal cord.

98 eased markedly in the anterior and posterior cerebrum but increased in the brainstem of GAP43-/- mice

99 se paralysis or significant infection of the cerebrum but showed marked involvement of the cerebellum

100 cells of cerebellum and in neuronal cells of cerebrum, but at very high levels in testis.

101 tion in every gross anatomical region of the cerebrum by identifying every possible combination of ad

102 Volumetric measures of the cerebrum, caudate nucleus, putamen, globus pallidus, amy

103 tally with a markedly enlarged and malformed cerebrum caused by reduced apoptosis during brain develo

104 cingulate and neocortex, and white matter of cerebrum, cerebellum, and corpus callosum).

105 om various regions of rat brain, namely, the cerebrum, cerebellum, and medulla.

106 The entire brain was segmented into cerebrum, cerebellum, brainstem and ventricles.

107 ated with severe, mutifocal apoptosis in the cerebrum, cerebellum, brainstem, spinal cord, and retina

108 and prospective age-related changes of total cerebrum, cerebellum, gray and white matter for the 4 ma

109 e report the transcriptomes of seven organs (cerebrum, cerebellum, heart, kidney, liver, ovary and te

110 s (AAV) vector effectively transduced in the cerebrum, cerebellum, heart, liver and sciatic nerves.

111 differences were observed for intracranial, cerebrum, cerebellum, or lateral ventricle volume or for

112 with message detected in mouse adult spleen, cerebrum, cerebellum/medulla, and thymus.

113 pression of GAT-1 and GAT-3 in the adult rat cerebrum changes after needle lesion and colchicine infu

114 sis before death, and viral infection of the cerebrum, characterized by inflammation and necrosis.

115 The human cerebrum consists of a precise and stereotyped arrangeme

116 ding in putative homologous regions, with D. cerebrum containing more monocular neurons.

117 FC), as well as postcentral gyrus and global cerebrum control regions.

118 an age, 50 years +/- 14; seven men) had full cerebrum coverage in the images without motion artifacts

119 D. dracula, to most complex conditions in D. cerebrum, D. mirifica and D. translucida.

120 While locomotion-associated neurons in D. cerebrum display more prolonged activity than zebrafish,

121 CE lesions were detected in the cerebrum (eight of 13; 62%), optic nerves (14 of 19; 74%

122 ite difference simulations, we found that D. cerebrum employ a unique sound production mechanism that

123 g during visual stimulation revealed that D. cerebrum follow optic flow by swimming continuously, pun

124 ecrease in relative perfusion throughout the cerebrum following sonication.

125 Olfactory bulb, brainstem, and cerebrum from patients with COVID-19 showed induction of

126 We measured volumes of total cerebrum, frontal lobes, caudate nucleus, globus pallidu

127 is required in order to prevent a bilateral cerebrum giving rise to simultaneous and potentially com

128 and the following hierarchy of mRNA levels: cerebrum > kidney > spleen congruent with lung congruent

129 optical vibrometry, we further show that D. cerebrum has the sensory structures to implement this me

130 ase and cytochrome oxidase activities in the cerebrum, hypothalamus, and hippocampus.

131 zebrafish and its close relative Danionella cerebrum illustrates the co-adaptation of motor repertoi

132 he caudate, thalamus, cerebellar vermis, and cerebrum in 20 first-episode psychosis patients and 18 h

133 damage to the DHA-containing compartments in cerebrum in AD patients than controls, and suggest that

134 ortex and temporal and parietal lobes of the cerebrum in both groups.

135 we examined the development of the parietal cerebrum in macaque monkey and found that, indeed, the o

136 not other GABAergic markers, throughout the cerebrum in PGC-1alpha +/- and -/- mice.

137 The cerebellum, like the cerebrum, includes a nuclear structure and an overlying

138 points toward a relevant role of cerebellum-cerebrum interaction in a sophisticated cognitive task r

139 The primate cerebrum is characterized by a large expansion of cortic

140 These results suggest that the cerebrum is involved in adaptation of the timing, but no

141 enesis around embryonic day (E) 90, when the cerebrum is still lissencephalic, the oSVZ enlarges and

142 Volumetric measurements of the cerebrum, lateral ventricles, third ventricle, and hippo

143 To this end, cerebrum, liver, and muscle gene expression were measure

144 ulatory relationships between genes in fetal cerebrum, liver, and muscle tissues to shed light on the

145 In both the cerebellum and cerebrum, lysosome deficiency is an early pathogenic eve

146 In cerebrum, metabolic correlations markedly weaken between

147 arousal regulation, the process by which the cerebrum mobilizes resources.

148 tem (i.e., cerebrum, plasma cholinesterases; cerebrum muscarinic, nicotinic receptors).

149 a, but represents an undescribed species, D. cerebrum n.

150 cerebral and cerebellar cortex of adults and cerebrum of fetuses.

151 atory gene expression was upregulated in the cerebrum of infected animals by day 14 post-infection (p

152 njected transcranially to the frontoparietal cerebrum of mice.

153 Abeta peptide and plaque accumulation in the cerebrum of patients with AD.

154 as distribution (by immunohistology), in the cerebrum of rats with CRF 6 wk after 5/6 nephrectomy.

155 MP70 immunoreactivity were suppressed in the cerebrum of SARS-CoV-2 infected animals (p < 0.05).

156 f tissue in the posterior, but not anterior, cerebrum of the BTBR mouse.

157 Here we show that in the cerebrums of mice expressing human familial mutant prese

158 l volumes for both prefrontal and the entire cerebrum on each specimen (n = 46).

159 models in the transparent teleost Danionella cerebrum, one of the smallest vertebrates(9,10).

160 ulted in no reduction in GLUT1 expression in cerebrum or its microvessels.

161 ion was found for each of morphine or M6G in cerebrums or epencephalons of acute morphine tolerance m

162 However, how these two "scales" of cerebrum organization are linked remains an open questio

163 The Drosophila cerebrum originates from about 100 neuroblasts per hemis

164 The mammalian cerebrum performs high-level sensory perception, motor c

165 ive status, or the cholinergic system (i.e., cerebrum, plasma cholinesterases; cerebrum muscarinic, n

166 dered a subcortical disease of the posterior cerebrum, posterior reversible encephalopathy syndrome h

167 se three sensorimotor terminals (cerebellum, cerebrum, putamen) contain different somatotopic layouts

168 1], thalamus [r = 0.84; P = .001], and whole cerebrum [r = 0.92; P < .001]).

169 development, particularly in relation to the cerebrum, remains poorly understood.

170 lt decerebrate mouse model (a mouse with the cerebrum removed) enables the study of sensory-motor int

171 e evolutionary and developmental dynamics of cerebrum shape after the origin of Avialae.

172 D. cerebrum shares these structures with more than 15% of l

173 Proteomics analysis of the cerebrum showed that although insulin deficiency led to

174 id brain volumes, adjusted for age and total cerebrum size.

175 an induction of ODC activity in newborn rat cerebrum slices.

176 D. cerebrum sustain significantly longer directed swims acr

177 ide locomotion of zebrafish.(16) Although D. cerebrum swim at higher average speeds, they lack the di

178 concepts can be found in vertebrates with a cerebrum that anatomically differs starkly from our prim

179 e neurocognitive function (NCF) of radiating cerebrum that appeared radiographically normal relative

180 or the miniature transparent fish Danionella cerebrum that enables in vivo brain-wide imaging during

181 ortical lobar hypo (hyper)-metabolism in the cerebrum that were 2 SDx from the mean were recorded as

182 The auditory center in the cerebrum, the auditory cortex, consists of multiple inte

183 aining peak thickness throughout most of the cerebrum: the median age by which 50% of the cortical po

184 acids were detected and visualized from rat cerebrum tissue using a MALDI MSI instrument operating i

185 eotide excision repair capacity in the mouse cerebrum to gain some insight into the optimal circadian

186 By linking the Visible Man cerebrum to the Talairach stereotaxic coordinate space,

187 we directly compare larval zebrafish and D. cerebrum to uncover the neural mechanisms underlying the

188 nce ranged from 0.96 +/- 0.01 (brainstem and cerebrum) to 0.74 +/- 0.06 (internal capsule).

189 The enhanced cerebrum TXNIP expression is associated with increased h

190 D. cerebrum use this remarkable mechanism for acoustic comm

191 The cerebrum was subdivided into cerebral cortex, cerebral w

192 y (a measure of WM integrity) throughout the cerebrum was the strongest predictor of grip strength in

193 For coated vesicles from bovine cerebrum, we examined the binding properties of [3H]musc

194 al tumours of the adult and paediatric human cerebrum, we find that tumour cells have an expression s

195 g behavior of the micro glassfish Danionella cerebrum, we found that social development progresses se

196 Borders of the amygdala, hippocampus, and cerebrum were defined, and their volumes were measured i

197 Cerebrums were removed 6h after trauma.

198 s pallidus, but not of the thalamus or total cerebrum, were significantly greater in the group of chi

199 ected in the choroid plexus, cerebellum, and cerebrum, where the percent engraftment between animals

200 of complexity of cortical growth across the cerebrum, which align closely with established architect

201 en considered of secondary importance to the cerebrum, which has typically been acknowledged as the m