6 research outputs found
Regression models.
a.<p>ref.: reference group.</p>b.<p>LRT: likelihood ratio test, for testing the non-linear the association between age and dependent variables.</p
The Changes of Cerebral Morphology Related to Aging in Taiwanese Population
<div><p>A cross-sectional study with the 3-dimensional (3D) MRI reconstruction technique was conducted to investigate cerebral complexity changes related to age differences in native Taiwanese population. In our sample of 85 participants aged between 25 and 81, age was associated with gradual ventricular expansion. A nonlinear quadratic relationship between white matter volume and age was found overall in the brain. Widespread age-related reduction in white matter was detected from late adulthood onwards. However, no significant age-related changes in the cortex and whole brain volume were determined throughout adulthood. These findings provided information in describing brain structural complexity, which might in the future serve as an objective diagnostic index or as a predictive parameter for neurological diseases. Our method then may be used for cross-cultural longitudinal studies to evaluate the effect of disease, environment and aging on the brain.</p> </div
Three-dimensional reconstruction neuroimages of brain at different structures (vertical view).
<p>Three-dimensional reconstruction neuroimages of brain at different structures (vertical view).</p
The relationship between age and average ventricle volume.
<p>The volume of ventricle β=β0.013Γ age<sup>2</sup>β0.74Γ age+7.23Γ sex+31.4; male β=β1, female β=β0.</p
The relationship between age and average white matter volume.
<p>The volume of white matter β=ββ0.09Γ age<sup>2</sup>+9.85Γ age+41.76Γ sex+152.56; male β=β1, female β=β0.</p
The relationship between age and average whole brain volume.
<p>The whole brain volume β=β1008.13+146.08Γ sex; male β=β1, female β=β0.</p