Bjarne Möller‐Madsen scite author profile

Human detrusor strips were obtained from patients undergoing reimplantation of ureters because of reflux, transvesical prostatectomy, or cysto-urethrectomy en bloc because of bladder malignancy. The strips were electrically stimulated. A frequency-dependent contractant response was obtained that was potentiated by physostigmine and abolished by tetrodotoxin. The maximum response approximately equaled that of acetylcholine in a maximum concentration. In most bladder preparations from patients without known functional bladder disturbances, atropine (0.01 to 0.1 microM) had a marked inhibitory effect, and at concentrations exceeding 1 microM the blockade was complete. In strips obtained from patients undergoing transvesical prostatectomy, and who also had a cystometrically verified unstable bladder, there was a varying degree of atropine resistance, with some preparations showing a 50 per cent resistance to atropine. Prazosin, phentolamine, yohimbine, guanethidine, clonidine, and noradrenaline had no consistent effects on the electrically induced bladder contraction. Nifedipine and nimodipine caused a maximum of 65 per cent inhibition of the response. Addition of nimodipine to atropine-resistant strips when maximum atropine inhibition had been reached abolished the contractions. Omitting calcium from the bath solution rapidly abolished the electrically induced contraction. It is suggested that in the normal human bladder the contraction induced by electrical stimulation is mainly atropine sensitive. However, in the functionally disturbed bladder, part of the bladder contraction is atropine resistant, a finding that may have clinical implications.

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Silver amplification of mercury sulfide and selenide: a histochemical method for light and electron microscopic localization of mercury in tissue.

Danscher¹,

Möller‐Madsen²

1985

J Histochem Cytochem.

191

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A method for light and electron microscopic demonstration of mercury sulfides and mercury selenides in mammalian tissue is presented. Silver ions adhering to the surface of submicroscopic traces of mercury sulfides or selenides in the tissue are reduced to metallic silver by hydroquinone. Physical development thereupon renders deposits of mercury sulfides or mercury selenide visible as spheres of solid silver. Examples of localization of mercury in the central nervous system and various organs from animals exposed to mercury chloride or methyl mercury chloride with or without additional sodium selenide treatment are presented. Selenium treatment results in a considerable increase in the amount of mercury that can be made visible by silver amplification. After mercury chloride treatment, most of the mercury is localized in lysosomes and is only rarely seen in secretory granules. After simultaneous selenium treatment, mercury is also found in nuclei of proximal tubule cells in the kidney and in macrophages. The "sulfide-osmium" method for ultrastructural localization of mercury suggested by Silberberg, Lawrence, and Leider (Arch Environ Health 19:7, 1969) and the light microscopic method using a photographic emulsion suggested by Umeda, Saito, and Saito (Jpn J Exp Med 39:17, 1969) have been experimentally analyzed and commented on.

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Bjarne Möller‐Madsen

Atropine Resistance of Transmurally Stimulated Isolated Human Bladder Muscle

Silver amplification of mercury sulfide and selenide: a histochemical method for light and electron microscopic localization of mercury in tissue.

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