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  • 1
    Electronic Resource
    Electronic Resource
    Tumoural antigens on experimental and human glioblastoma (1980)
    Springer
    Acta neurochirurgica 53 (1980), S. 187-204 
    Details
    ISSN: 0942-0940
    Keywords: Glioblastoma ; immunology of gliomas
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The fact that glioblastoma multiforme possesses antigens differing from those of normal brain has been stressed in early papers from Scheimberg22,Mahaley16, Eggers7, and Brooks5. In our work the presence of specific cytoplasmic and nuclear antigens in neoplastic cells has been demonstrated. These specific antigens are present not only in experimental tumours from the rat, but-also-in human glioblastoma, and are easily demonstrated by immunodiffusion and immunofluorescence techniques. From our work differences between intracellular and membrane antigens are clear, as the latter do not react with IgG immunoglobulin. On the other hand, tumoural antigens in glioblastoma have similar antigenic qualities to those of histocompatible antigens in normal brain. Experimental and human glioblastomas have weak antigens, as demonstrated by frequent tumour recurrence following amputation and the positive cross-reaction of antibody with normal brain in experimental models. Glioblastoma multiforme may have a common antigen as its antibodies easily cross-react positively with different human tumours with similar, histological features. As tumoural membranes did not react as cytoplasm and nuclei, we cannot say that membrane antigens resemble those of intracellular contents. The fact that viral-induced tumours may have common antigens should point to aetiological possibilities in this group of tumours. Delayed cellular response is very useful during the follow-up of these patients. Positive DNCB and intradermal reactions could be elicited in those patients in whom the antigenic overload has been reduced as a consequence of a surgical procedure. On the other hand, patients with extensive and infiltrating tumoural masses exhibited weak or negative delayed cellular responses. Humoral responses from the patient's sera may not have the prognostic value of cellular responses.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF02074792
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  • 2
    Electronic Resource
    Electronic Resource
    Topographical organization of the cortical afferent connections to the cortex of the anterior ectosylvian sulcus in the cat (1985)
    Springer
    Experimental brain research 59 (1985), S. 313-324 
    Details
    ISSN: 1432-1106
    Keywords: Cortico-cortical connections ; Somatosensory cortex ; Auditory cortex ; Visual cortex ; Anterior ectosylvian sulcus
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The cortical afferents to the cortex of the anterior ectosylvian sulcus (SEsA) were studied in the cat, using the retrograde axonal transport of horseradish peroxidase technique. Following injections of the enzyme in the cortex of both banks, fundus and both ends (postero-dorsal and anteroventral) of the anterior ectosylvian sulcus, retrograde labeling was found in: the primary, secondary, and tertiary somatosensory areas (SI, SII and SIII); the motor and premotor cortices; the primary, secondary, anterior and suprasylvian fringe auditory areas; the lateral suprasylvian (LS) area, area 20 and posterior suprasylvian visual area; the insular cortex and cortex of posterior half of the sulcus sylvius; in area 36 of the perirhinal cortex; and in the medial bank of the presylvian sulcus in the prefrontal cortex. Moreover, these connections are topographically organized. Considering the topographical distribution of the cortical afferents, three sectors may be distinguished in the cortex of the SEsA. 1) The cortex of the rostral two-thirds of the dorsal bank. This sector receives cortical projections from areas SI, SII and SIII, and from the motor cortex. It also receives projections from the anterolateral subdivision of LS, and area 36. 2) The cortex of the posterior third of the dorsal bank and of the posterodorsal end. It receives cortical afferents principally from the primary, secondary and anterior auditory areas, from SI, SII and fourth somatosensory area, from the anterolateral subdivision of LS, vestibular cortex and area 36. 3) The cortex of the ventral bank and fundus. This sulcal sector receives abundant connections from visual areas (LS, 20, posterior suprasylvian, 21 and 19), principally from the lateral posterior and dorsal subdivisions of LS. It also receives abundant connections from the granular insular cortex, caudal part of the cortex of the sylvian sulcus and suprasylvian fringe. Less abundant cortical afferents were found to arise in area 36, second auditory area and prefrontal cortex. The abundant sensory input of different modalities which appears to converge in the cortex of the anterior ectosylvian sulcus, and the consistent projection from this cortex to the deep layers of the superior colliculus, make this cortical region well suited to play a role in the control of the orientation movements of the eyes and head toward different sensory stimuli.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00230911
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  • 3
    Electronic Resource
    Electronic Resource
    Topographical organization of the thalamic projections to the cortex of the anterior ectosylvian sulcus in the cat (1983)
    Springer
    Experimental brain research 49 (1983), S. 131-139 
    Details
    ISSN: 1432-1106
    Keywords: Cerebral cortex ; Anterior ectosylvian sulcus ; Ventralis medialis ; Posterior nuclear group ; Insular cortex ; Lateral posterior-pulvinar complex
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The thalamic afferents of the anterior ectosylvian sulcal region were studied in the cat using retrograde axonal transport of horseradish peroxidase. Following peroxidase injections in the cortex of both banks and fundus of the anterior ectosylvian sulcus, retrograde labeling was always very abundant in the ventromedial thalamic nucleus, whichever part of the sulcus was injected. Consistent numbers of labeled neurons were also identified in the lateral medial subdivision of the lateral posterior-pulvinar complex, suprageniculate nucleus, posterior thalamic nuclear group and magnocellular division of the medial geniculate nucleus. A smaller number of labeled neurons was found in the ventral part of the lateral posterior nucleus, and ventralis anterior, ventralis lateralis, medialis dorsalis and intralaminar nuclei. The quantity and topographical distribution of labeled neurons in these thalamic nuclei depended on the location of the injection in the banks and fundus of the sulcus.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00235548
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    Paper (German National Licenses)
    Fulltext
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