S Molon-Noblot scite author profile

Abstract. Gluteus medius muscle was sampled from 53 Cob Normand horses for histologic evaluation. Twenty horses (38%) exhibited amylase-resistant material in myocytes consistent with polysaccharide storage myopathy. Diameter of affected type II fibers was increased (67.7 6 21.4 mm) compared with normal ones (57.3 6 19.7 mm). Two groups were distinguished by quantitative study. The first group (n 5 14; 26%) was characterized by a low percentage of fibers (m 5 0.98%) containing aggregates occurring singly or in perifascicular clusters without myopathic changes. The second group (n 5 6; 11%) was characterized by a high percentage (m 5 18.1%) of fibers containing aggregates scattered in biopsy with chronic myopathic changes. Rebiopsy of 4 horses showed an increase with time in the number of aggregate-containing fibers for horses of the first group only. In 1 necropsied horse, aggregates were observed in a wide range of muscles including smooth muscles. Ultrastructurally, granular material was found interspersed among arrays of filamentous material.

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The Morphology of Juxtaglomerular Cell Hyperplasia and Hypertrophy in Normotensive Rats and Monkeys Given an Angiotensin II Receptor Antagonist

Owen

Molon-Noblot

Hubert

et al. 1994

Toxicol Pathol

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A NEW EX VIVO METHOD FOR THE STUDY OF NASAL DROPS ON CILIARY FUNCTION

Levrier¹,

Molon-Noblot²,

Duval³

et al. 1989

Fundamemntal Clinical Pharma

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Any pharmaceutical nasal preparation should respect the physiological function of the mucociliary transport system and should undergo testing to this effect. An experimental protocol has been developed using the guinea pig in order to assess the effects of commercial nasal drop preparations on mucociliary function. The method presented here consists of applying in vivo the test solution on the nasal respiratory epithelium. After a specified contact time and following rapid sacrifice of the animal, the mucosa is removed; the beating frequency of the cilia is then recorded ex vivo by micro-photo-oscillography. The method is sensitive to compounds known to diminish mucociliary function as sodium mercurothiolate inhibits ciliary movement of the nasal epithelium ex vivo. This inhibition of ciliary movement is long-lasting, although reversible. This method can be used to test the action of intranasally administered pharmaceutical preparations on mucociliary function. Commercially available solutions of the nasal vasoconstrictors tymazoline, fenoxazoline or oxymetazoline do not alter ciliary movement ex vivo at dose levels equal to or greater than those clinically utilized. ATP significantly enhances nasal ciliary frequency in instances where a low basal rate occurred. Thus, this method can be used for the testing of the maintenance of nasal ciliary function in the presence of compounds and preparations which will be applied into the nostrils. The advantages over previous techniques include a closer approach to the therapeutic utilization and the maintained physiological conditions of the mucosa during drug administration.

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Exacerbation of Spontaneous Rat Corneal Opacities in a Polymorphonuclear Elastase Inhibitor Toxicity Study

Gillet

Burlet

Molon-Noblot

et al. 1995

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S Molon-Noblot

The Morphology of Juxtaglomerular Cell Hyperplasia and Hypertrophy in Normotensive Rats and Monkeys Given an Angiotensin II Receptor Antagonist

Polysaccharide Storage Myopathy in Cob Normand Draft Horses

The Morphology of Juxtaglomerular Cell Hyperplasia and Hypertrophy in Normotensive Rats and Monkeys Given an Angiotensin II Receptor Antagonist

A NEW EX VIVO METHOD FOR THE STUDY OF NASAL DROPS ON CILIARY FUNCTION

Exacerbation of Spontaneous Rat Corneal Opacities in a Polymorphonuclear Elastase Inhibitor Toxicity Study

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