Pierre deMontigny scite author profile

Nodulisporic acid A (1) is a structurally complex fungal metabolite that exhibits systemic efficacy against fleas via modulation of an invertebrate specific glutamate-gated ion channel. In order to identify a nodulisporamide suitable for monthly oral dosing in dogs, a library of 335 nodulisporamides was examined in an artificial flea feeding system for intrinsic systemic potency as well as in a mouse/bedbug assay for systemic efficacy and safety. A cohort of 66 nodulisporamides were selected for evaluation in a dog/flea model; pharmacokinetic analysis correlated plasma levels with flea efficacy. These efforts resulted in the identification of the development candidate N-tert-butyl nodulisporamide (3) as a potent and efficacious once monthly oral agent for the control of fleas and ticks on dogs and cats which was directly compared to the topical agents fipronil and imidacloprid, with favorable results obtained. Multidose studies over 3 months confirmed the in vivo ectoparasiticidal efficacy and established that 3 lacked overt mammalian toxicity. Tissue distribution studies in mice using [(14)C]-labeled 3 indicate that adipose beds serve as ligand depots, contributing to the long terminal half-lives of these compounds.

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Synthesis of Nodulisporic Acid 2‘ ‘-Oxazoles and 2‘ ‘-Thiazoles

Berger

Shoop

Pivnichny

et al. 2001

Org. Lett.

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High-performance liquid chromatographic assay for the determination of a semisynthetic avermectin analog (eprinomectin) in bovine milk at parts per billion levels—method development and validation

Pollmeier¹,

Maier²,

Moriarty

et al. 2002

Journal of Chromatography B

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Evolution of a specific fluorogenic derivatization of ivermectin for bioanalytical applications. A review

Fink

deMontigny²,

Shim³

1996

Analyst

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The evolution of the fluorogenic derivatization of ivermectin is traced through a series of continual modifications that have resulted in improvements in speed and sensitivity. Since the original development of this selective analytical technique, the reaction time has been shortened from 24 h at 100 degrees C to < 30 s at room temperature and, through modifications of the derivatization reagent and catalyst, the sensitivity has also been increased 50-fold to 20 pg of analyte with no significant decrease in precision. A procedure is reported, based on the use of fluorescence derivatization, which eliminates the use of solid-phase columns for sample preparation and fluorophore isolation, and is faster and less cumbersome than previous methods. The method was evaluated with cattle and canine plasma samples over the concentration range 1.0-40 ng ml-1 of ivermectin. It has an accuracy of 1.9% (mean relative error) over this concentration range and a precision of 5.6% (RSD) at the 1 ng ml-1 ivermectin concentration level in a 1 ml plasma sample.

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