Fred C. Falkner scite author profile

After intravenous or oral administration to rats and dogs, azithromycin was rapidly distributed into the tissues, where concentrations frequently exceeded those in serum by 100-fold or more within 24 h of a single dose. Tissue concentrations were proportional to the dose following single administrations of 10 to 40 mg/kg in rats and dogs. Tissue concentrations were higher after multiple dosing and became greater as the dose was increased from 10 to 40 mg/kg. Elimination half-lives were similar in most tissues and were about 40 h in rats after seven doses of 20 mg/kg and about 90 h in dogs after five doses of 30 mg/kg. Serum concentrations declined in a multi-exponential manner, reflecting initial rapid distribution into tissues and then slow return to serum from tissues. Azithromycin had good oral bioavailability in rats and dogs (46% and 97%, respectively). Rapid uptake of azithromycin by tissues from serum and slow redistribution from tissues to serum are apparently factors governing the pharmacokinetics of azithromycin in rats and dogs. Serum concentrations do not reflect the availability of azithromycin in tissues.

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Discovery of the Hemifumarate and (α-l-Alanyloxy)methyl Ether as Prodrugs of an Antirheumatic Oxindole: Prodrugs for the Enolic OH Group

Robinson

Reiter

Barth

et al. 1996

J. Med. Chem.

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Ether, ester, and carbonate derivatives of the antirheumatic oxindole 1 were prepared and screened as potential prodrugs of 1. This effort led to the discovery of the (alpha-L-alanyloxy)-methyl ether and hemifumarate derivatives of 1 which deliver the drug efficiently into the circulation of test animals, are stable in the solid state, and possess good stability in solution at low pH as required to ensure gastric stability. Success in achieving acceptable bioavailabilities of 1 across species (rats, dogs, and monkeys) followed the inclusion of ionizable functionality within the promoiety to compensate for masking the polar enolic OH group of the free drug. However, the introduction of ionizable functionality was often associated with decreased stability, as demonstrated by the hemisuccinate, hemiadipate, hemisuberate, and alpha-amino ester derivatives of 1 which could not be isolated. A clear exception was the hemifumarate derivative of 1 which was not only isolable but actually more stable at neutral pH than the nonionizable ester analogues. The solution and solid state stability of the hemifumarate, together with its activity as a prodrug of 1, suggests that hemifumarate be considered as an alternative to hemisuccinate as a prodrug derivative for alcohols, particularly in situations where solution state stability is an issue.

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Ampiroxicam, an anti-inflammatory agent which is a prodrug of piroxicam

et al. 1993

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Ampiroxicam is a nonacidic ether carbonate prodrug of piroxicam. Our results demonstrate that, in contrast to piroxicam, ampiroxicam does not possess detectable prostaglandin synthesis inhibitory activity in vitro. Ampiroxicam, however, has similar in vivo potency to piroxicam in suppressing paw swelling in rat adjuvant arthritis. In an acute model of paw inflammation in rats, ampiroxicam is less potent than piroxicam itself: the ED50's of ampiroxicam are 9- and 3.5-fold higher than those of piroxicam following a single or multiple (5) daily oral doses, respectively. Using the phenylbenzoquinone stretching test as a method of evaluating acute analgetic activity, the ED50 for ampiroxicam is about 3-fold higher than that of piroxicam. These tests of activity share the property of being partially prostaglandin-dependent. Ampiroxicam itself is not observed in plasma after oral dosing to man, nor in the rat, dog, and monkey as reported here. Bioavailability studies show that conversion to piroxicam is about 100%, 90%, 70%, and 50% in these four species, respectively. These results indicate that ampiroxicam's anti-inflammatory activity is produced in vivo by conversion to piroxicam and support its credentials as an efficacious prodrug of piroxicam.

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Biomedical Applications of Selected Ion Monitoring

Falkner

Sweetman

Watson

1975

Applied Spectroscopy Reviews

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Fred C. Falkner

Pharmacokinetics of azithromycin in rats and dogs

Discovery of the Hemifumarate and (α-l-Alanyloxy)methyl Ether as Prodrugs of an Antirheumatic Oxindole: Prodrugs for the Enolic OH Group

Ampiroxicam, an anti-inflammatory agent which is a prodrug of piroxicam

Biomedical Applications of Selected Ion Monitoring

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