Objectives-DiVusion tensor imaging (DTI), a technique capable of examining water diVusion in diVerent tissues and the organisation of white matter tracts, was used to investigate the neuropathology of the corpus callosum in vivo in patients with schizophrenia. Methods-DiVusion tensor imaging was performed in 20 schizophrenic patients and 25 healthy controls. Two complementary measures, mean diVusivity and fractional anisotropy, which are considered to be sensitive indices of axonal integrity, were obtained from regions of interest in the genu (anterior) and splenium (posterior) of the corpus callosum. Results-Mean diVusivity was significantly increased and fractional anisotropy significantly reduced in the splenium but not the genu of the corpus callosum in the schizophrenic group compared with controls. There were no significant sex diVerences in the DTI measures for either the schizophrenic or control group. Clinical variables such as age, duration of illness, dose of antipsychotic medication, and schizophrenic symptoms did not predict the DTI changes in the schizophrenic patients. Conclusions-The presence of DTI changes in the splenium but not the genu of the corpus callosum suggests that there may be a focal disruption of commisural connectivity in schizophrenia. However, these findings do not exclude the possibility of abnormalities in other areas of the corpus callosum or other regions of white matter and further research using diVerent methods of analysis may enable us to clarify this. DiVusion tensor imaging is a valuable tool in investigating the structure of white matter in schizophrenia. (J Neurol Neurosurg Psychiatry 2000;68:242-244)
Deficits in executive function and the relationship to frontal lesion load as detected on MRI were investigated in 42 multiple sclerosis patients. A battery of neuropsychological test examining executive skills including computerized tests of planning and spatial working memory was administered to all subjects. Performance on these tests was impaired in the patient group when compared with a group of matched controls, but not all executive skills were affected to the same extent. Although a number of executive test scores correlated with the severity of frontal lesion load, it was difficult to disentangle the specific contribution of frontal lobe pathology to the impairment on executive tasks. This study highlights the difficulties in attempting to attribute specific cognitive abnormalities to focal brain pathology in the presence of widespread disease such as in multiple sclerosis.
Post-mortem and structural brain imaging studies in schizophrenia have reported macroscopic changes such as global and regional cortical volume reductions, but it has been more difficult to characterize the histopathological changes that underlie these abnormalities. Magnetization transfer imaging (MTI), a novel MRI technique, more sensitive to subtle or early neuropathological changes than conventional MRI, provides a quantitative measure of macromolecular structural integrity represented by the magnetization transfer ratio (MTR). In this study, we used MTI to examine 25 patients with schizophrenia compared with 30 age-matched controls. A voxel-based analysis of the MTR maps revealed widespread MTR reductions in the cortex unrelated to volume reduction, predominantly in the frontal and temporal regions, in the schizophrenic patients when compared with controls. MTR reductions in bilateral parieto-occipital cortex and the genu of the corpus callosum were associated with the severity of negative symptoms in the schizophrenic patients. However, MTR changes were not related to other clinical variables of age, duration of illness and current dose of antipsychotic medication. This study demonstrates that MTR abnormalities in the cortex can be detected in chronic schizophrenia that may reflect subtle neuropathological changes involving neurones or neuronal processes. Longitudinal studies are needed to determine whether these abnormalities are related to disease progression or other disease manifestations such as cognitive changes.
Diffusion tensor imaging (DTI) was used to investigate regional white matter in vivo in patients with schizophrenia. DTI is capable of providing information about the organization of white matter tracts and has only recently been used to study schizophrenia. In this study, a voxel based analysis of DTI maps in 14 patients and 19 controls did not reveal any areas of significant differences in DTI measures in white matter. The findings suggest that the structural integrity of white matter in these patients was not disrupted. These results are discussed in relation to previous studies reporting positive findings. It is concluded that further studies using DTI in larger samples, improved and standardised methods of data acquisition and analysis are needed.
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