J Mørland scite author profile

J Mørland

5Publications

49Citation Statements Received

79Citation Statements Given

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Rigshospitalet

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Clinical Responses in Relation to Blood Acetaldehyde Levels

Johnsen¹,

Stowell²,

Mørland³

1992

Pharmacology & Toxicology

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A study was undertaken to examine the relationship between blood acetaldehyde levels and clinical responses in volunteers receiving the anti-alcohol drugs disulfiram and calcium cyanamide. In the first part of this study volunteers received different doses of disulfiram (125 mg and 500 + 250 mg), of calcium cyanamide (25 mg, 50 mg and 100 mg) and of ethanol (0.2 g/kg orally and 0.5 g/kg intravenously). The ensuing interactions ranged from no reaction at all to an intense hypotensive cyanamide-ethanol reaction (CER). A blood acetaldehyde concentration-effect relationship was suggested. In the second part of this study seven subjects received 50 mg of calcium cyanamide 4 hr prior to an intravenous ethanol dose of 0.2 g/kg. The maximum blood level of acetaldehyde ranged from 16 to 241 microM. Aversive interactions started to occur at acetaldehyde levels around 40-60 microM. Changes in flushing reaction and diastolic blood pressure appeared best to reflect changing blood acetaldehyde levels. As a rule, however, the expected cyanamide-ethanol and disulfiram-ethanol reactions are more clearly registered as an increase in acetaldehyde levels than as the ensuing physiological responses.

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Biotransformation and pharmacokinetics of ethylmorphine after a single oral dose.

Aasmundstad¹,

Xu²,

Johansson³

et al. 1995

Brit J Clinical Pharma

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1 The pharmacokinetics of ethylmorphine after administration of a single dose of the cough mixture Cosylan® were investigated in 10 healthy subjects. 2 The median urinary recovery of ethylmorphine and measured metabolites was 77% over 48 h. The median tmax of unchanged ethylmorphine was 45 min, and the terminal elimination t'/2 was 2 h. Ethylmorphine-6-glucuronide was found to be the major metabolite. 3 Two subjects had significantly lower urinary recovery (0,48 h) of morphine and morphine-glucuronides than the remainder. Furthermore, these two had urinary metabolic ratios (MRO) and partial metabolic clearances (CLmo) for O-deethylation of ethylmorphine tentatively classifying them phenotypically as poor metabolisers of the debrisoquine/sparteine type. 4 Genotyping for cytochrome P450 (CYP) 2D6 alleles revealed five homozygote (wt/wt) and five heterozygote subjects. Two subjects phenotypically classified as poor metabolisers were genotypically CYP2D6A/wt and CYP2D6D/wt, respectively. 5 Serum and urine samples taken more than 8 and 24 h after administration of ethylmorphine respectively, contained morphine and morphine-glucuronides, but no ethylmorphine, ethylmorphine-6-glucuronide or (serum only) norethylmorphine. Norethylmorphine could be detected after hydrolysis of urine samples in all subjects. The urinary recovery of the active metabolites morphine and morphine-6-glucuronide after administration of ethylmorphine varied by a factor of 9 between individuals. 6 The wide variation in recovery of morphine and morphine-glucuronides after oral administration of ethylmorphine could not be explained simply by a difference in CYP2D6 genotype. Constitutional variation in other enzymatic pathways involved in ethylmorphine metabolism is probably crucial. Ratios of morphine to parent drug cannot be used to distinguish the source of morphine after administration of ethylmorphine. Norethylmorphine should be included in urine assays for opiates in forensic toxicology, and no firm conclusions about the source of morphine are possible based on serum samples obtained more than 24 h after drug administration.

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Possible Formation of Ethanol in Postmortem Blood Specimens after Antemortem Treatment with Mannitol

Jones

Andersson

Sakshaug³

et al. 1991

Journal of Analytical Toxicology

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Determination of succinyldicholine in different tissue samples from guinea pigs after injection of a single intravenous dose

Malthe‐Sørenssen

Odden

Blanch

et al. 1986

Forensic Science International

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Morphine Formation after Intake of Ethylmorphine

Ripel¹,

Christophersen²,

Bjerneboe³

et al. 1992

Pharmacology & Toxicology

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J Mørland

Clinical Responses in Relation to Blood Acetaldehyde Levels

Biotransformation and pharmacokinetics of ethylmorphine after a single oral dose.

Possible Formation of Ethanol in Postmortem Blood Specimens after Antemortem Treatment with Mannitol

Determination of succinyldicholine in different tissue samples from guinea pigs after injection of a single intravenous dose

Morphine Formation after Intake of Ethylmorphine

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