David G. May scite author profile

David G. May

3Publications

108Citation Statements Received

17Citation Statements Given

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147

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Affiliations

University of Notre Dame, Vanderbilt University, Children's Hospital of Michigan

Publications

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The contribution of N-hydroxylation and acetylation to dapsone pharmacokinetics in normal subjects

May

Porter

Uetrecht

et al. 1990

Clin Pharmacol Ther

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The relative importance of N-hydroxylation and acetylation of dapsone to the oral clearance of dapsone (100 mg) was investigated in seven healthy volunteers. Plasma dapsone and monoacetyldapsone concentrations rose rapidly with subsequent similar monoexponential elimination. The oral clearance of dapsone was low (33 +/- 14 ml/min), with a threefold variability. Four subjects were identified as fast acetylators; however, differences in acetylation did not explain the variability in oral clearance. The cumulative urinary recoveries of dapsone and its hydroxylamine were approximately 20% of the dose. The formation clearance of hydroxylamine, which exhibited a tenfold intersubject variability, was closely associated with the oral clearance of dapsone (r = 0.96). Thus, the formation of the hydroxylamine is more important than acetylation in determining dapsone's intersubject variability in oral clearance. Variation in N-hydroxylation may have clinical consequences, because the hydroxylamine is considered to be important in dapsone-mediated toxicity.

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The disposition of dapsone in cirrhosis

May

Arns

Richards

et al. 1992

Clin Pharmacol Ther

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Acetylation and N-hydroxylation of dapsone were evaluated in drug-free, non-smoking, normal subjects and subjects with cirrhosis (n = 7 for each group) after oral administration of 100 mg dapsone. Acetylation was not correlated with oral dapsone clearance or reduced in cirrhosis (0.37 +/- 0.43 versus 0.52 +/- 0.32). Fractional metabolic clearance of dapsone to its hydroxylamine was associated with dapsone oral clearance (r = 0.96, p less than 0.001, n = 14). In patients with cirrhosis, liver disease was associated with a trend to reduction in oral clearance (22%) and metabolic clearance of dapsone (48%). Protein binding was minimally reduced by cirrhosis (73% +/- 1% versus 69% +/- 3% in patients with cirrhosis (p less than 0.02). The dapsone recovery ratio was validated as a phenotypic index of the metabolic clearance of dapsone (r = 0.74, p less than 0.05). In an extended comparison of 14 patients with cirrhosis to 70 control subjects, cirrhosis was associated with reductions of 28% in dapsone recovery ratio (p less than 0.001), and 37% in acetylation ratio (p less than 0.01). Neither dapsone recovery ratio nor acetylation ratio correlated with Pugh Score, conventional liver function tests, indocyanine green clearance, or phenotypic measures of S-mephenytoin hydroxylase or debrisoquin hydroxylase activity. We conclude that cirrhosis is associated with minor changes in dapsone disposition and that dosage modification is not required. In addition, there is evidence that cirrhosis has a selective influence on activity of individual isozymes of cytochrome P450.

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Scleroderma is associated with differences in individual routes of drug metabolism: A study with dapsone, debrisoquin, and mephenytoin

May

Black

Olsen

et al. 1990

Clin Pharmacol Ther

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Exposure to certain environmental agents may induce a scleroderma-like syndrome in a small proportion of individuals. Differences in susceptibility could involve metabolic activation of a protoxin, with affected patients having a greater converting ability. This possibility was investigated in 84 patients with scleroderma and 108 control subjects with in vivo probes of specific pathways of metabolism. Scleroderma was associated with reduced hydroxylating activity for dapsone and S-mephenytoin, whereas the ability to hydroxylate debrisoquin and N-acetyl dapsone was similar in both groups. Logistic regression confirmed these associations based on the shift in frequency distribution. Individuals who were poor metabolizers for mephenytoin and only modest N-hydroxylators of dapsone had a tenfold increased risk of scleroderma (p = 0.008). Thus this combined metabolic impairment may be causally involved in the development of scleroderma or, alternatively, the disease may produce inhibition of selected metabolizing enzymes in a subset of patients.

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David G. May

The contribution of N-hydroxylation and acetylation to dapsone pharmacokinetics in normal subjects

The disposition of dapsone in cirrhosis

Scleroderma is associated with differences in individual routes of drug metabolism: A study with dapsone, debrisoquin, and mephenytoin

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