Characteristics of Moderate and Severe Subcortex Aphasia and It's Language Training / 中国康复理论与实践

@#Objective To screen the factors that affect severity of language disorder in subcortex aphasia, and analyze its characteristics and therapeutic effect. Methods 10 moderate degree and 12 severe degree subcortex aphasics were evaluated with Chinese Rehabilitation Research Center Aphasia Examination (CRRCAE) and the Boston Diagnostic Aphasia Examination (BDAE) before and 4 weeks after language training. The factors affecting severity of subcortex aphasia and characteristics were analyzed before training, and effect of language training was examined before and after training. Results Severity of subcortex aphasia was related to age and the complication of apraxia of speech. There was a relatively high level in listening comprehension, reading, repeating and reading aloud abilities. After training, all kinds of language abilities improved significantly in moderate degree subcortex aphasics. Whereas, comprehension and verbal communication capabilities increased obviously, but written communication abilities advanced rarely in severe degree subcortex aphasics. Conclusion Age and the complication of aphasia of speech may be important factors influencing severity of language disorder in subcortex aphasia. There are specific clinical features in subcortex aphasia. Almost all language abilities can be improved by language training, but therapeutic effect is differrent between moderate degree and severe degree subcortex aphasics.

Subcortical Deformities in Schizophrenic Patients and Unaffected Siblings / 신경정신의학

OBJECTIVES: Abnormalities in various subcortical regions have been reported in previous structural neuroimaging studies for schizophrenia. To understand the subcortical abnormalities as a whole, all subcortical regions should be explored in each subject unlike most previous studies. Here, we explored major subcortical structures using volume measurement and shape analysis for schizophrenic patients (SZ), their unaffected siblings (Sib) and healthy controls without affected sibling (HC). METHODS: Structural magnetic resonance images were acquired from 24 SZ, 24 Sib and 19 HC. Both segmentation and shape analysis for subcortical structures was performed using FMRIB Integrated Registration and Segmentation Tool integrated within the FSL software. The group comparison of subcortical volumes was performed with multivariate analysis of variance (MANOVA). RESULTS: In SZ group, shape deformities were observed in the left nucleus caudates, left thalamus, left putamen and bilateral pallidus were increased compared with HC group. In Sib group, shape deformities were observed in the left pallidus, left putamen and left putamen was decreased compared with HC group. In Sib group, left nucleus accumbens was increased compared with SZ group. CONCLUSION: The result of this study using volume measurement and shape analysis suggest that subcortical structural abnormalities in cortico-striato-pallido-thalamic and reward circuits are related with both the pathology of schizophrenia and genetic predisposition.

Application of Intraoperative Ultrasonography for Guiding Microneurosurgical Resection of Small Subcortical Lesions

OBJECTIVE: We wanted to evaluate the clinical value of intraoperative ultrasonography for real-time guidance when performing microneurosurgical resection of small subcortical lesions. MATERIALS AND METHODS: Fifty-two patients with small subcortical lesions were involved in this study. The pathological diagnoses were cavernous hemangioma in 25 cases, cerebral glioma in eight cases, abscess in eight cases, small inflammatory lesion in five cases, brain parasite infection in four cases and the presence of an intracranial foreign body in two cases. An ultrasonic probe was sterilized and lightly placed on the surface of the brain during the operation. The location, extent, characteristics and adjacent tissue of the lesion were observed by high frequency ultrasonography during the operation. RESULTS: All the lesions were located in the cortex and their mean size was 1.3 +/- 0.2 cm. Intraoperative ultrasonography accurately located all the small subcortical lesions, and so the neurosurgeon could provide appropriate treatment. Different lesion pathologies presented with different ultrasonic appearances. Cavernous hemangioma exhibited irregular shapes with distinct margins and it was mildly hyperechoic or hyperechoic. The majority of the cerebral gliomas displayed irregular shapes with indistinct margins, and they often showed cystic and solid mixed echoes. Postoperative imaging identified that the lesions had completely disappeared, and the original symptoms of all the patients were significantly alleviated. CONCLUSION: Intraoperative ultrasonography can help accurately locate small subcortical lesions and it is helpful for selecting the proper approach and guiding thorough resection of these lesions.

Functional Neuroanatomy of Memory / 수면정신생리

Longterm memory is encoded in the neuronal connectivities of the brain. The most successful models of human memory in their operations are models of distributed and self-organized associative memory, which are founded in the principle of simultaneous convergence in network formation. Memory is not perceived as the qualities inherent in physical objects or events, but as a set of relations previously established in a neural net by simultaneousy occuring experiences. When it is easy to find correlations with existing neural network structures, memory is automatically encoded in cerebral cortex. However, in the emergence of informations which are complicated to classify and correlated with existing networks, and conflictual with other networks, those informations are sent to the subcortex including hippocampus. Memory is stored in the from of templates distributed actoss several different cortical regions. The hippocampus provides the from of templates distributed across several different cortical regions. The hippocampus provides detailed maps for the conjoint binding and calling up of widely distributed informations. Knowledge about the distribution of correlated networks can transform the existing networks into new one. Then, hippocampus consolidats new formed network. Amygdala may enable the emotions to influence the information processing and memory as well as providing the visceral informations to them. Cortico-striatal-pallido-thalamo-cortical loop also play an important role in memory function with analysis of language and concept. In case of difficulty in processing in spite of parallel process of informations, frontal lobe organizes theses complicated informations of network analysis through temporal processing. With understanding of brain mechanism of memory and information processing, the brain mechanism of mental phenomena including psychopathology can be better explained in terms of neurobiology and meuropsychology.