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Related Concept Videos

Spinal Cord: Cross-sectional Anatomy01:16

Spinal Cord: Cross-sectional Anatomy

The cross-sectional anatomy of the spinal cord offers a detailed view of its complex structure and function within the central nervous system. At the core of the spinal cord lies the gray matter, characterized by its butterfly or "H"-shaped appearance in cross-section. This central region is enveloped by white matter, with the overall structure divided into symmetrical halves by the dorsal median sulcus and the ventral median fissure.
Gray Matter and its Components
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Related Experiment Video

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Measuring Connectivity in the Primary Visual Pathway in Human Albinism Using Diffusion Tensor Imaging and Tractography
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Gender differences in white matter microstructure.

Richard A Kanaan1, Matthew Allin, Marco Picchioni

  • 1Department of Psychological Medicine, King's College London, Institute of Psychiatry, London, United Kingdom. richard.kanaan@kcl.ac.uk

Plos One
|June 16, 2012
PubMed
Summary
This summary is machine-generated.

Men show higher fractional anisotropy (FA) in cerebellar white matter and the superior longitudinal fasciculus, while women exhibit higher FA in the corpus callosum. These gender differences in white matter microstructure are substantial.

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Area of Science:

  • Neuroimaging
  • Human Anatomy
  • Brain Research

Background:

  • Sexual dimorphism in human brain structure is recognized.
  • Limited knowledge exists regarding gender differences in white matter microstructure.
  • Diffusion tensor imaging (DTI) is a key technique for assessing white matter integrity.

Purpose of the Study:

  • To investigate gender differences in white matter microstructure using DTI.
  • To identify specific brain regions exhibiting significant FA variations between men and women.
  • To explore the implications of these differences for clinical studies.

Main Methods:

  • Whole-brain analysis of 135 matched subjects (90 men, 45 women) using a 1.5 T scanner.
  • Diffusion Tensor Imaging (DTI) was employed to measure fractional anisotropy (FA).
  • Region of Interest (ROI) analysis confirmed findings and addressed potential partial-volume artifacts.

Main Results:

  • Men exhibited higher FA in cerebellar white matter and the left superior longitudinal fasciculus.
  • Women demonstrated higher FA in the corpus callosum, with findings confirmed by ROI analysis.
  • The magnitude of these FA differences was substantial, comparable to some pathological changes.

Conclusions:

  • Significant gender-based differences in white matter microstructure exist.
  • These differences, particularly in FA, may represent a confounding factor in clinical studies with unbalanced gender representation.
  • Observed FA variations in the corpus callosum, cerebellum, and superior longitudinal fasciculus may correlate with functional differences in brain efficiency, language lateralization, and motor development.