Cerebral Veins: Fluorescence Histochemistry, Electron Microscopy, and in vitro Reactivity | Zendy

Lars Edvinsson | Zendy; Edward D. Högestätt | Zendy; Rolf Uddman | Zendy; L. M. Auer | Zendy

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Cerebral Veins: Fluorescence Histochemistry, Electron Microscopy, and in vitro Reactivity

Author(s) -

Lars Edvinsson,

Edward D. Högestätt,

Rolf Uddman,

L. M. Auer

Publication year - 1983

Publication title -

journal of cerebral blood flow and metabolism

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.167

H-Index - 193

eISSN - 1559-7016

pISSN - 0271-678X

DOI - 10.1038/jcbfm.1983.30

Subject(s) - choroid plexus , anatomy , pia mater , electron microscope , ultrastructure , cerebral veins , vein , in vitro , adrenergic , chemistry , plexus , vascular smooth muscle , blood vessel , pathology , smooth muscle , biology , medicine , central nervous system , endocrinology , biochemistry , physics , receptor , thrombosis , optics

Pial veins, choroid plexus veins, and the cerebri magna vein were investigated with regard to their ultrastructural organization, adrenergic nerve supply, and in vitro reactivity. The vessel walls consisted of a continuous layer of endothelial cells, large amounts of collagenous material, and occasional pericytes. Smooth muscle cells were observed only in a few specimens from the cerebri magna vein. All veins were surrounded by adrenergic nerve fibres. Potassium (124 m M) and noradrenaline (10 −5 –10 −4 M) induced small contractions (0.2–0.5 mN) of isolated veins during in vitro conditions. The magnitude of these responses was less than one-tenth of that obtained in small pial arteries.

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