Full Access
Studies on the Metabolism and Elimination of Dopacetamides
Bengt Werdinius,
Bengt Werdinius
Department of Pharmacology, University of Göteborg, Sweden
Search for more papers by this authorBengt Werdinius,
Bengt Werdinius
Department of Pharmacology, University of Göteborg, Sweden
Search for more papers by this author
References
- Andén, N.-E., B.-E. Roos & B. Werdinius: On the occurrence of homovanillic acid in brain and cerebrospinal fluid and its determination by a fluorometric method. Life Sci. 1963, 2, 448–458.
- Axelrod, J.: The fate of adrenaline and noradrenaline. In J. R. Vane, G. E. Wolstenholme and M. O'Connor (eds.): Ciba Found. Symp. on Adrenergic Mechanisms. Churchill, London 1960, 28–39.
- Burkard, W. P., K. F. Gey & A. Pletscher: Inhibition of the hydroxylation of tryptophan and phenylalanine by α-methyl-dopa and similar compounds. Life Sci. 1964, 3, 27–33.
- Burns, J. J.: Species differences and individual variations in drug metabolism. In B. B. Brodie and E. G. Erdös (eds.): Metabolic factors controlling duration of drug action. Proc. First int. pharmacol. Meeting, Stockholm 1961. Pergamon Press, Oxford 1962, 6, 277–287.
- Carlsson, A. & H. Corrodi: 2,3-Dihydroxyphenylacetamide und verwandte Verbindungen. In den Catecholamin-Metabolismus eingreifende Substanzen 3. Mitteilung. Helv. chim. Acta 1964, 47, 1340–1349.
- Carlsson, A., H. Corrodi & B. Waldeck: α-Substituierte Dopacetamide als Hemmer der Catechol-O-methyl-transferase und der enzymatischen Hydroxylierung aromatischer Aminosäuren. In den Catecholamin-Metabolismus eingreifende Substanzen 2. Mitteilung. Helv. chim. Acta 1963, 46, 2271–2285.
- Carlsson, A., M. Lindqvist, S. Fila-Hromadko & H. Corrodi: Synthese von Catechol-O-methyl-transferase-hemmenden Verbindungen. In den Catecholaminmetabolismus eingreifende Substanzen 1. Mitteilung. Helv. chim. Acta 1962, 45, 270–276.
- Corrodi, H.: Blockade of the psychotic syndrome caused by nialamide in mice. J. Pharm. Pharmacol. 1966, 18, 197–199.
- Dutton, G. J. & C. G. Greig: Observations on the distribution of glucuronide synthesis in tissues. Biochem. J. 1957, 66, 52P–53P.
- Kägi, J., M. Burger & K. Giger: Modifikationen zur Fluoreszenzmethode von Weil- Malherbe und Bone zur Bestimmung von Adrenalin und Noradrenalin im menschlichen Blutplasma. Arch. exp. Path. Pharmak. 1957, 230, 470–478.
- Masri, M. S., A. N. Booth & F. DeEds: O-methylation in vitro of dihydroxy-and trihydroxy-phenolic compounds by liver slices. Biochim. Biophys. Acta 1962, 65, 495–500.
- Nagatsu, T., M. Levitt & S. Udenfriend: Tyrosine hydroxylase. The initial step in norepinephrine biosynthesis. J. biol. Chem. 1964, 239, 2910–2917.
- Netter, K. J.: Drugs as inhibitors of drug metabolism. In B. B. Brodie and E. G. Erdös (eds.): Metabolic factors controlling duration of drug action. Proc. First int. pharmacol. Meeting, Stockholm 1961. Pergamon Press, Oxford 1962, 6, 213–228.
- Natelson, S., J. K. Lugovoy & J. B. Pincus: A new fluorimetric method for the determination of epinephrine. Arch. Biochem. 1949, 23, 157–158.
- Remmer, H.: Drugs as activators of drug enzymes. In B. B. Brodie and E. G. Erdös (eds.): Metabolic factors controlling duration of drug action. Proc. First int. pharmacol. Meeting, Stockholm 1961. Pergamon Press, Oxford 1962, 6, 235–249.
- Robinson, D. & R. T. Williams: Do cats form glucuronides Biochem. J. 1958, 68, 23P–24P.
- Ross, S. B. & Ouml. Haljasmaa: Inhibitors of the enzymatic hydroxylation of phenylalanine and tryptophan by rat liver extract in vitro. Life Sci. 1964, 3, 579–587.
- Weil-Malherbe, H.: The fluorimetric estimation of catechol compounds by the ethylene-diamine condensation method. Pharmacol. Rev. 1959, 11, 278–288.
- Werdinius, B.: Elimination of 3,4-dihydroxyphenylacetic acid from the blood. Acta pharmacol. et toxicol. 1967, 25, 9–17.
