Cornelis L. Voûte scite author profile

A method was experimentally tested which allows simultaneous morphological and bioelectrical studies of a tissue that performs active sodium transport, i.e., the isolated, surviving frog skin. In a four cell lucite chamber with four separate electric potential and current circuits, skin specimens for morphological observation (light and electron microscopy) were fixed in situ in well-defined functional states. The rate of active sodium transport through the epithelium of Rana temporaria skin was modified by changing the strength of the electric current passed through the specimens. A marked, reversible swelling of the outermost layer of the stratum granulosum was observed during short circuiting of the skin compared to the homogeneous appearance of the epithelium under open circuit conditions. Doubling the ingoing current led to an additional small increase of the swelling or the appearance of islets of cell necrosis in the same layer. There were signs of a slight shrinkage of the underlying cell layers. The observations are discussed in the light of previous bioelectrical and morphological observations.

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The mitochondria-rich cell of frog skin as hormone-sensitive “shunt-path”

Voûte

Meier

1978

J. Membrain Biol.

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Structure and Function of the Epidermis

Lindemann¹,

Voûte²

1976

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An electron microscopic study of the skin of the frog (Rana pipiens)

Voûte

1963

Journal of Ultrastructure Research

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Quantitative relation between hydrostatic pressure gradient, extracellular volume and active sodium transport in the epithelium of the frog skin (R. temporaria)

Voûte

Ussing

1970

Experimental Cell Research

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