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The pia mater at the site of the entry of blood vessels into the central nervous system (1982)

Krahn, V.

Springer

Anatomy and embryology 164 (1982), S. 257-263

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ISSN: 1432-0568

Keywords: Subarachnoid space ; Meninges ; Pia mater ; Meningeal blood vessels

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The entry of blood vessels into the central nervous system (CNS) has been studied at the surface of the brain stem and the spinal cord of two cats and two rabbits. The study was carried out by scanning electron microscopy (SEM). The results obtained by SEM concerning the layers of the pia mater corresponded to those obtained by other authors who used transmission electron microscopy. Between the basal lamina of the superficial glial membrane of the CNS and the cells lining the subarachnoid space, a pial connective tissue space could be clearly recognized. The blood vessles crossing the subarachnoid space were also covered by leptomeningeal lining cells. At the site of entry of these blood vessels into the pia mater their cellular coverings were reflected onto the pial surface. At this point, some vessels were partly surrounded by a small depression of the surface of the pia mater. Having crossed the pial connective tissue space the vessel enters a funnel-shaped channel that leads into the CNS. Within this channel, the vessel is surrounded by pial connective tissue. The outer wall of the channel consists of the basal lamina of the superficial glial membrane. The outer surface of the vessel is also covered by a homogeneous membrane, interpreted as being the basal lamina of the tunica media or, if the tunica media was absent, that of the tunica intima. Only in two instances could it be noted that an entering vessel was surrounded by deep recesses of the surface of the pia mater. In one of these cases, not too deep in the recess to prevent examination by SEM, it could be seen that the cellular coverings of the outer wall of the vessel were reflected onto the layer of the pial lining cells. This observation would indicate that also the deeper perivascular depressions of the pial surface probably do not conform to the classic concept of the “Piatrichter” (funnel-shaped perivascular depression of the subarachnoid space communicating with the perivascular space of intracerebral vessels). This mode of entry of blood vessels, commonly described in text-books, could not be substantiated by this study.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00318509

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Characterization of glycoconjugate expression during development of Meckel's cartilage in the rat (1995)

Zschäbitz, A. ; Weiser, H. ; Stofft, E. ; [et al.]

Springer

Anatomy and embryology 191 (1995), S. 47-59

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ISSN: 1432-0568

Keywords: Bone ; Lectins ; Mandible ; Meckel's cartilage ; Rat embryo

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The staining patterns of 24 biotinylated lectins were analyzed in serial sections of the mandible of 13- to 21-day-old rat embryos by means of the avidinbiotin-peroxidase method. A ubiquitous distribution of binding sites was demonstrated after incubation with Con A (Canavalia ensiformis), DSL (Datura stramonium; except bone matrix), and WGA (Triticum vulgare). ECL (Erythrina cristagalli), GSL I (Griffonia simplicifolia), SJA (Saphora japonica), VVL (Vicia villosa), DBA (Dolichus biflorus), UEA I (Ulex europeus), and LTA (Lotus tetragonobolus) were constantly negative. In early stages of development, GSL II (Griffonia simplicifolia II) was a selective marker of prechondral blastema. In contrast, PNA (Arachis hypogaea) did not stain condensing mesenchyme. During chondrogenesis of Meckels's cartilage a general decrease of lectin binding was observed. Mature cartilage matrix was constantly negative. Chondrocytes were marked by the lectins PSA (Pisum sativum), WGA, PHA-E, and PHA-L (Phaseolus vulgaris E and L). A strong GSL II binding was restricted to the mesial-superior region of the perichondrium. In later stages, several lectins revealed significant differences between preskeletal (“central”) areas and the remaining (“peripheral”) mesenchyme. A clear binding reaction was noted in central regions by applying LEA (Lycopersicon esculentum) and STL (Solanum tuberosum), while the peripheral tissue was only faintly stained. Developing bone was specifically marked by succinylated WGA (sWGA). The lectins LCA (Lens culinarus) and RCA (Ricinus communis) bound to fibers and extracellular matrix of the connective tissue. Jacalin (Artocarpus integrifolia) and SBA (Glycine max) binding sites were found in macrophages. Affinity of VAA (Viscum album) increased parallel with maturation of endothelial cells. Specific lectin-binding patterns revealed no correlation with the distribution of glycosaminoglycans. The results demonstrate a general reduction of oligosaccharide structures during development of Meckel's cartilage. From our observations we conclude that intralaminar glucose and/or mannose sequences as well as terminal sialic acid molecules are ubiquitously distributed, while terminal α-fucose was constantly negative. Lectin-binding patterns of macrophages may reflect the presence of specifically linked terminal galactose. Our findings indicate that oligosaccharides terminating in N-acetylglucosamine are bone-specific. The significance of the restricted staining of the perichondrium by GSL II remains to be elucidated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00215297

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Leukodiapedesis and leukocyte migration in the leptomeninges and in the subarachnoid space (1981)

Krahn, V.

Springer

Journal of neurology 226 (1981), S. 43-52

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ISSN: 1432-1459

Keywords: Meninges ; Meningitis ; Leukocytes ; Diapedesis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Nach subarachnoidaler Ferritin-Injektion wurde an Katzen die Entstehung der Liquorpleozytose und die Infiltration des leptomeningealen Gewebes beobachtet. Die weitlumigen, dünnwandigen venösen Gefäße der Pia mater stellen die wichtigsten Quellen der Granulozyten im leptomeningealen Bereich dar. Die Granulozyten verlassen den pialen Bindegewebsraum, indem sie zwischen den Lining-cells der Pia mater hindurch in den Subarachnoidalraum gelangen. Venen, die den Subarachnoidalraum durchqueren, weisen ebenfalls Leukodiapedesevorgänge auf. Zwischen den Lining-cells der perivasculären Scheide treten dabei offenbar Lücken auf. Den Granulozyten stehen zwei Möglichkeiten zur Verfügung, um die gefäßlose Arachnoidea von der vaskularisierten Pia mater aus zu erreichen: Entweder wandern sie aktiv über das leptomeningeale. Balkenwerk oder sie gelangen passiv mit der Liquorzirkulation dorthin. Hinweise auf Leukozytenaustritte aus den Duragefäßen sind vergleichsweise selten und würden die mitunter hochgradige Infiltration der Arachnoidea wohl nicht bewirken können.

Notes: Summary Pleocytosis in cerebrospinal fluid and infiltration of the leptomeningeal tissue have been studied after injection of ferritin into the subarachnoid space (SAS) of cats. The most important source of granulocytes in the leptomeninges are the relatively large veins of the pia mater, which have very thin walls. Passing between the lining cells of the pia mater the granulocytes leave the connective tissue space of the pia mater and reach the SAS. Leukodiapedesis has also been observed in veins crossing the SAS. During this process, gaps between the lining cells of the perivascular leptomeningeal sheath may develop. There are two possible ways for the granulocytes to pass from the vascular pia mater to the avascular arachnoidea: either they migrate actively on the surface of the leptomeningeal trabeculae or they reach the arachnoidea passively by the circulation of the cerebrospinal fluid. Leukodiapedesis in the vessels of the dura mater occurs relatively seldom and would not be able to cause the occasionally massive infiltration of the arachnoidea.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00313317

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Phagocytosis of erythrocytes in the subarachnoid space at spinal nerve exits (1982)

Krahn, V.

Springer

Cell & tissue research 221 (1982), S. 687-691

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ISSN: 1432-0878

Keywords: Subarachnoid space ; Spinal nerve exits ; Macrophages

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary After intracisternal injection of heparinised autologous blood in cats, spinal nerve exits (SNE) of the subarachnoid space (SAS) were examined by scanning and transmission electron microscopy. Phagocytes, erythrocytes and erythrophages (= macrophages which had phagocytosed red blood cells) were found at SNE. Some lining cells of the SAS had retracted from the adjacent cells and had rounded up. Cells which formed an integral part of the subarachnoid lining cells also had phagocytosed erythrocytes. Debris of an exhausted erythrophage was phagocytosed by other macrophages. Finally the observation has been made that erythrophages are capable of leaving the SAS actively by migrating through the layer of lining cells, thus getting into the leptomeningeal connective tissue space.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00215711

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