Regional heterogeneity and age-related change in sub-regions of internal capsule evaluated by diffusion tensor imaging.

The internal capsule (IC) includes various fiber tracts supporting sensory, motor and cognitive abilities. Diffusion tensor imaging (DTI) is useful for the diagnosis of brain diseases related to IC. However, there is some risk of misdiagnosis when measuring diffusion parameters throughout the whole IC without knowledge of age-related changes, as the thin structure and branching in multiple directions must be expected to produce sub-regional differences.

Altered brain activation by a false recognition task in young abstinent patients with alcohol dependence.

Background: Heavy alcohol intake induces both structural and functional changes in the central nervous system. Recent research developments converged on the idea that even in patients with alcohol dependence without apparent structural brain changes, some cognitive impairment exists, and associated functional change could be visualized by neuroimaging techniques. However, these data were from old (more than 50 years) patients using working memory and response inhibition tasks.

Laterality and aging of thalamic subregions measured by diffusion tensor imaging.

Thalamic nuclei are comprised of fibers connecting associated cortical regions, and abnormalities of the thalamus are correlated with abnormalities in cognition and behavior. Some previous studies showed the laterality of the whole thalamus and the regional differences among thalamic nuclei. This led us to assess regional characteristics in five major subregions of both sides of the thalamus using diffusion-tensor imaging.

Age-related degeneration of corpus callosum measured with diffusion tensor imaging.

The corpus callosum is the major commissure connecting the cerebral hemispheres, and there is evidence of its change with aging. The sub-regions of the corpus callosum (genu, rostral body, anterior midbody, posterior midbody, isthmus, splenium) respectively comprise fibers connecting heteromodal- and unimodal-associated cortical regions, and it is known that abnormalities of the corpus callosum are correlated with abnormalities in cognition and behavior. Yet, little is known about changes in the tissue characteristics of its sub-regions.

Functional network in the prefrontal cortex during episodic memory retrieval.

A recent consistent finding in neuroimaging studies of human memory is that the prefrontal cortex (PFC) is activated during episodic memory retrieval. To date, however, there has been no direct evidence to explain how activity in the right and left PFC and in the anterior and posterior PFC are functionally interconnected. The goal of the present study was to obtain such evidence by event-related functional magnetic resonance imaging (MRI) and the functional connectivity method.