ライフサイエンスコーパス: brain anatomy

1 e predicted from parallel changes in overall brain anatomy.

2 All foetuses had normal foetal structural brain anatomy.

3 ical heterogeneity and their relationship to brain anatomy.

4 itectures that were undefined in established brain anatomy.

5 understanding of genetic influences on human brain anatomy.

6 ogy with humans in behavioral repertoire and brain anatomy.

7 ure activity projected onto patient-specific brain anatomy.

8 exploratory behaviour, stress reactivity and brain anatomy.

9 trode positions were carefully registered to brain anatomy.

10 to investigate the effect of Mn exposure on brain anatomy.

11 ntrast perspectives of gross and microscopic brain anatomy.

12 tween markers of sleep-related hypoxemia and brain anatomy.

13 onditions by measuring their effect on local brain anatomy.

14 tly create a three-dimensional sketch of the brain anatomy.

15 tructure in a condition with presumed normal brain anatomy.

16 models investigating hormonal influences on brain anatomy.

17 issue volume (MTV), a fundamental measure of brain anatomy.

18 sociated with region specific alterations in brain anatomy.

19 gions for a variety of parameters describing brain anatomy.

20 y supplied novel insights into in vivo human brain anatomy.

21 Mecp2J), we previously documented changes in brain anatomy.

22 mal with respect to their gross behavior and brain anatomy.

23 e influence of investment work experience on brain anatomy.

24 though there are no obvious changes in gross brain anatomy, adult Kv3.1/Kv3.3-deficient mice display

25 ated in comparative studies of behaviors and brain anatomy, along with studies of fossil species.

26 regard, SNS addiction is similar in terms of brain anatomy alterations to other (substance, gambling

27 We report evidence that brain anatomy and aging in people with ASD is significan

28 s challenging due to intrinsic variations of brain anatomy and artifacts resulting from different sam

29 e assessed the effect of KDM4B disruption on brain anatomy and behavior through an in vivo heterozygo

30 nd the relationship between abnormalities in brain anatomy and behaviour, is poorly understood.

31 ts, and the relationship of these changes to brain anatomy and clinical and diagnostic outcome at 2 t

32 Untreated hypertension negatively affects brain anatomy and cognitive functions, but the effects o

33 een linked to cognitive deficits and altered brain anatomy and connectivity.

34 other is rooted in individual differences in brain anatomy and connectivity.

35 Aging is associated with changes in human brain anatomy and function and cognitive decline.

36 r, has focused on coarse-grained features of brain anatomy and function because cortical topographies

37 Human brain anatomy and function display a combination of modu

38 ss, it is poorly understood how variation in brain anatomy and function jointly impacts face processi

39 related differences are emerging not only in brain anatomy and function, but also in pathogenesis, cl

40 and healthy controls, showed differences in brain anatomy and function.

41 en accompanied by complex reorganizations in brain anatomy and function.

42 uction of circuits and vasculature that link brain anatomy and function.

43 and with genes enriched for vocal tract and brain anatomy and function.

44 ical for illustrating the molecular basis of brain anatomy and functions.

45 disease, and Vibrism DB, a database of mouse brain anatomy and gene (co-)expression with sophisticate

46 and genetics have led us to obtain detailed brain anatomy and genome-wide information.

47 nxiety, providing a mechanistic link between brain anatomy and human TANDs.

48 Val66Met), is associated with alterations in brain anatomy and memory, but its relevance to clinical

49 Mice deficient in PKC beta showed normal brain anatomy and normal hippocampal synaptic transmissi

50 These animals have a normal brain anatomy and normal levels of mRNA for other nAChR

51 The ability to detect brain anatomy and pathophysiology with MRI is limited by

52 nitive tasks, their similarity to aspects of brain anatomy and physiology is imperfect.

53 Thus, we compared brain anatomy and sensorimotor gating in healthy people

54 that integrates the molecular spatial atlas, brain anatomy and the accessibility to genetic manipulat

55 the link between macroscopic differences in brain anatomy and the molecular mechanisms underpinning

56 finding entails the effect of heterogeneous brain anatomy and vasculature of a primate brain, i.e.,

57 at emerges despite individual differences in brain anatomy and visual experience.

58 focusing on psychopathology, cognition, and brain anatomy, and (2) detailing both methodological and

59 ions among latent learning parameters, whole-brain anatomy, and anxiety severity.

60 sociations between socioeconomic conditions, brain anatomy, and cognitive performance in middle to la

61 Gene expression patterns and developing brain anatomy are closely related.

62 ests that common variant influences on human brain anatomy are largely consistent between males and f

63 (PET) was used to investigate the functional brain anatomy associated with the short-term maintenance

64 ap the associations between SES and regional brain anatomy at high spatiotemporal resolution.

65 ectivity in characterizing the modularity of brain anatomy at the single-cell level.

66 odels for studying the relationships between brain anatomy, behavior, environmental signals, and gene

67 etect significant differences in the overall brain anatomy between LoF carriers and non-carriers.

68 MRI studies have shown subtle differences of brain anatomy between people with major depressive disor

69 - or Y-chromosome significantly alters human brain anatomy but has muted effects in the mouse brain.

70 not only can expand understanding of rodent brain anatomy, but also enables automatic segmentation o

71 ty disorder (ASPD) may be linked to abnormal brain anatomy, but little is known about possible impair

72 led direct SCD effects on regional mammalian brain anatomy, but we lack a formal test for cross-speci

73 pe of the tentorium cerebelli helps preserve brain anatomy by providing cerebellum protection against

74 tial evidence offering proof of concept that brain anatomy can be used to accurately distinguish adul

75 characterize the multidimensional nature of brain anatomy, capturing different phases of development

76 gnoses in our 16p11.2 cohort, the pattern of brain anatomy changes in carriers spatially overlaps wit

77 e and neurophysiologic measures, we contrast brain anatomy characteristics across Biotypes alongside

78 In an MRI-based analysis, we found that brain anatomy covaries significantly with behavioral spe

79 computational head models (CHMs) predict how brain anatomy determines electric field (EF) patterns fo

80 SIGNIFICANCE STATEMENT Different measures of brain anatomy develop differently across adolescence.

81 detail, we studied head cuticle morphology, brain anatomy, embryonic head morphogenesis, and develop

82 ides a convenient way to study and query fly brain anatomy, expression and genetic data.

83 he execution of processing pipelines, and in brain anatomy for the quality assessment of the MRI data

84 tools provide invaluable information on how brain anatomy, function and connectivity change during d

85 ciated with neurodevelopmental variations in brain anatomy, functioning, and connectivity.

86 tionary biology, but to date descriptions of brain anatomy have largely focused on a few commonly use

87 functions in the nervous system, we studied brain anatomy, histology, biochemistry, and behavior in

88 ormation from diffusion data, to investigate brain anatomy in 15 participants with DS and 15 age- and

89 We investigated the variation in brain anatomy in 16p11.2 deletion and duplication carrie

90 is of X-chromosome influences (XIs) on human brain anatomy in 32,256 individuals from the UK Biobank.

91 Neuroimaging studies of brain anatomy in autism spectrum disorder (ASD) have mos

92 me of treatment and tracking drug effects on brain anatomy in bipolar disorder.

93 stematically profile SCD effects on regional brain anatomy in both humans and mice by contrasting gro

94 ic resonance imaging (MRI) investigations of brain anatomy in children and young adults with Down syn

95 tential functional corollaries of sex-biased brain anatomy in humans.

96 atically improved the visualization of human brain anatomy in vivo.

97 pected to greatly enhance the study of human brain anatomy in vivo.

98 on MR tractography offers an overall view of brain anatomy, including the degree of connectivity betw

99 ion on the mechanisms of normal and abnormal brain anatomy, including WM composition and perturbation

100 .g., sign vs spoken), which likely influence brain anatomy independently.

101 Our results show that the developing brain anatomy is largely preserved in the reduced gene e

102 dardization procedure no expert knowledge of brain anatomy is required and global thresholding as wel

103 Human brain anatomy is strikingly diverse and highly inheritab

104 s known for the X chromosome's impact on the brain anatomy, microstructure, and functional networks.

105 We compared the brain anatomy of 20 adult male pre-mutation members of k

106 There are few studies on brain anatomy of Asperger's syndrome, and no focal anato

107 The different brain anatomy of men and women is both a classic and con

108 Here, we studied the brain anatomy of several specimens of S. hispidus using

109 , we provide a comprehensive analysis of the brain anatomy of the monarch butterfly that will ultimat

110 hat this SNP is likely to be associated with brain anatomy or function which is manifested in MRI bra

111 ranslating to clinically-relevant changes in brain anatomy or function.

112 , appearance, or behavior, nor did it affect brain anatomy or intracranial pressure (ICP).

113 ither the Pcdha9 mutation, which show normal brain anatomy, or forebrain-specific Sap130 deletion via

114 bjects with 22qDS have widespread changes in brain anatomy, particularly affecting white matter, basa

115 symptoms had greater regional alterations in brain anatomy, particularly in the left dorsolateral pre

116 In accordance with the partial rescue of brain anatomy, phosphorylation of the Cdk5 substrate mou

117 findings help identify aspects of sex-biased brain anatomy present in mice that are retained, lost, o

118 Brain anatomy provides key evidence for the relationship

119 he findings reveal age-associated changes in brain anatomy, providing information about the trajector

120 h evidence for dosage compensation in XIs on brain anatomy-reflecting larger XIs in males compared to

121 Quantitative analysis of brain anatomy revealed that the affected twin had marked

122 n neuroscience, this translates into how the brain anatomy shapes brain dynamics.

123 of tractography to gain insights into normal brain anatomy that can aid our understanding of the cons

124 igence quotient (IQ) and (ii) alterations of brain anatomy that persist at least into late adolescenc

125 new possibilities for exploring features of brain anatomy that previously were not visible to us in

126 s review summarizes current knowledge of the brain anatomy that supports food intake and energy expen

127 le knock-out mice were viable and had normal brain anatomy, they exhibited a number of behavioral def

128 be enhanced by a population atlas of canine brain anatomy to implement group analyses.

129 This study aimed to link differences in brain anatomy to specific biological pathways to pave th

130 y, we sought to investigate the evolution of brain anatomy using a single species of fish consisting

131 n between dementia symptoms and degenerative brain anatomy using F18-fluorodeoxyglucose PET and dimen

132 We studied brain anatomy using quantitative MRI, and sensorimotor g

133 Together, these results establish that brain anatomy varies significantly in dogs, likely due t

134 have been developed that, in the context of brain anatomy visualized with structural MRI, use both h

135 ndividuals with a more male-typic pattern of brain anatomy were significantly (ie, 3 times) more like

136 g-based functional description of macroscale brain anatomy which we link to AD physiology, functional

137 ectrum disorder have regional differences in brain anatomy, which correlate with specific aspects of

138 mapping to this region interact to regulate brain anatomy, with female mice exhibiting far fewer bra

139 tional traits with functional and structural brain anatomy, with node-level correspondence to functio

140 Brain, a widely recognized textbook of human brain anatomy, with the anatomy of the MNI152 template a

141 imension 1 demonstrated relatively preserved brain anatomy without WM disruptions relative to healthy