Variability in the human entorhinal region may confound neuropsychiatric diagnoses.

H Heinsen; E Gössmann; U Rüb; W Eisenmenger; M Bauer; G Ulmar; B Bethke; M Schüler; H P Schmitt; M Götz; Ute Lockemann; K Püschel

Variability in the human entorhinal region may confound neuropsychiatric diagnoses.

Standard

Variability in the human entorhinal region may confound neuropsychiatric diagnoses. / Heinsen, H; Gössmann, E; Rüb, U; Eisenmenger, W; Bauer, M; Ulmar, G; Bethke, B; Schüler, M; Schmitt, H P; Götz, M; Lockemann, Ute; Püschel, K.

in: Acta Anat (Basel), Jahrgang 157, Nr. 3, 3, 1996, S. 226-237.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Heinsen, H, Gössmann, E, Rüb, U, Eisenmenger, W, Bauer, M, Ulmar, G, Bethke, B, Schüler, M, Schmitt, HP, Götz, M, Lockemann, U & Püschel, K 1996, 'Variability in the human entorhinal region may confound neuropsychiatric diagnoses.', Acta Anat (Basel), Jg. 157, Nr. 3, 3, S. 226-237. <http://www.ncbi.nlm.nih.gov/pubmed/9226042?dopt=Citation>

APA

Heinsen, H., Gössmann, E., Rüb, U., Eisenmenger, W., Bauer, M., Ulmar, G., Bethke, B., Schüler, M., Schmitt, H. P., Götz, M., Lockemann, U., & Püschel, K. (1996). Variability in the human entorhinal region may confound neuropsychiatric diagnoses. Acta Anat (Basel), 157(3), 226-237. [3]. http://www.ncbi.nlm.nih.gov/pubmed/9226042?dopt=Citation

Vancouver

Heinsen H, Gössmann E, Rüb U, Eisenmenger W, Bauer M, Ulmar G et al. Variability in the human entorhinal region may confound neuropsychiatric diagnoses. Acta Anat (Basel). 1996;157(3):226-237. 3.

Bibtex

@article{1ac14cd5657649cbbc70a61808221870,

title = "Variability in the human entorhinal region may confound neuropsychiatric diagnoses.",

abstract = "The human entorhinal region consists of a number of areas; however, there is no generally accepted nomenclature for these cytoarchitectonic fields, and the designation of its constituent layers or strata is a matter of controversy. Here, we consider a hitherto neglected adjacent field, the preamygdaloid claustrocortex. Its medial subfield has a small common border with the rostromedial entorhinal region (width maximal 2 mm). Both fields are cytoarchitectonically rather similar. The rostromedial oral entorhinal field lacks ascending terminal islands. Its unusually small pre-alpha cells are arranged in a thin band or small clusters consisting of pyramidal, triangular, or polymorphic cells. The conspicuous chromophilic pre-beta cell clusters are composed of a variety of cell types, including groups of 'immature' spindle-shaped or bipolar nerve cells. Furthermore, a rare sulcus within the entorhinal region (central sulcus of the entorhinal region: observed in 4% of the 450 brains examined) is associated with an unusual lamination of the entorhinal layers in its wall and floor. Both the specific shape and arrangement of neurones in the claustrocortical-rostral entorhinal border region and the unusual lamination within the rare central entorhinal sulcus are regarded as reflecting neurodevelopmental disturbances characteristic of schizophrenic brains. In contrast, our observations in a large sample of serially sectioned brains from controls, schizophrenics, and patients suffering from neuropsychiatric diseases other than schizophrenia do not support this assumption.",

author = "H Heinsen and E G{\"o}ssmann and U R{\"u}b and W Eisenmenger and M Bauer and G Ulmar and B Bethke and M Sch{\"u}ler and Schmitt, {H P} and M G{\"o}tz and Ute Lockemann and K P{\"u}schel",

year = "1996",

language = "Deutsch",

volume = "157",

pages = "226--237",

number = "3",

}

RIS

TY - JOUR

T1 - Variability in the human entorhinal region may confound neuropsychiatric diagnoses.

AU - Heinsen, H

AU - Gössmann, E

AU - Rüb, U

AU - Eisenmenger, W

AU - Bauer, M

AU - Ulmar, G

AU - Bethke, B

AU - Schüler, M

AU - Schmitt, H P

AU - Götz, M

AU - Lockemann, Ute

AU - Püschel, K

PY - 1996

Y1 - 1996

N2 - The human entorhinal region consists of a number of areas; however, there is no generally accepted nomenclature for these cytoarchitectonic fields, and the designation of its constituent layers or strata is a matter of controversy. Here, we consider a hitherto neglected adjacent field, the preamygdaloid claustrocortex. Its medial subfield has a small common border with the rostromedial entorhinal region (width maximal 2 mm). Both fields are cytoarchitectonically rather similar. The rostromedial oral entorhinal field lacks ascending terminal islands. Its unusually small pre-alpha cells are arranged in a thin band or small clusters consisting of pyramidal, triangular, or polymorphic cells. The conspicuous chromophilic pre-beta cell clusters are composed of a variety of cell types, including groups of 'immature' spindle-shaped or bipolar nerve cells. Furthermore, a rare sulcus within the entorhinal region (central sulcus of the entorhinal region: observed in 4% of the 450 brains examined) is associated with an unusual lamination of the entorhinal layers in its wall and floor. Both the specific shape and arrangement of neurones in the claustrocortical-rostral entorhinal border region and the unusual lamination within the rare central entorhinal sulcus are regarded as reflecting neurodevelopmental disturbances characteristic of schizophrenic brains. In contrast, our observations in a large sample of serially sectioned brains from controls, schizophrenics, and patients suffering from neuropsychiatric diseases other than schizophrenia do not support this assumption.

AB - The human entorhinal region consists of a number of areas; however, there is no generally accepted nomenclature for these cytoarchitectonic fields, and the designation of its constituent layers or strata is a matter of controversy. Here, we consider a hitherto neglected adjacent field, the preamygdaloid claustrocortex. Its medial subfield has a small common border with the rostromedial entorhinal region (width maximal 2 mm). Both fields are cytoarchitectonically rather similar. The rostromedial oral entorhinal field lacks ascending terminal islands. Its unusually small pre-alpha cells are arranged in a thin band or small clusters consisting of pyramidal, triangular, or polymorphic cells. The conspicuous chromophilic pre-beta cell clusters are composed of a variety of cell types, including groups of 'immature' spindle-shaped or bipolar nerve cells. Furthermore, a rare sulcus within the entorhinal region (central sulcus of the entorhinal region: observed in 4% of the 450 brains examined) is associated with an unusual lamination of the entorhinal layers in its wall and floor. Both the specific shape and arrangement of neurones in the claustrocortical-rostral entorhinal border region and the unusual lamination within the rare central entorhinal sulcus are regarded as reflecting neurodevelopmental disturbances characteristic of schizophrenic brains. In contrast, our observations in a large sample of serially sectioned brains from controls, schizophrenics, and patients suffering from neuropsychiatric diseases other than schizophrenia do not support this assumption.

M3 - SCORING: Zeitschriftenaufsatz

VL - 157

SP - 226

EP - 237

IS - 3

M1 - 3

ER -