C. J. Fish scite author profile

Alterations of the cardiac membranous ventricular septum were studied using macrodissection, scanning electron and light microscopy of fetal, weanling, and adult Sprague-Dawley rats. Membranous ventricular septal defects (VSDs) were observed in 2.0% of fetuses on day 21 postcoitus (pc) but not in weanling or adult rats. The most common observation was a nonpatent depression in the membranous septum with an incidence of 38.1, 10.5, 4.3% for fetuses on days 17, 19, or 21 pc, respectively, 11.8% for weanlings, and 9.1% for adults. VSDs were characterized by a split in the endocardial cushion cells in the interventricular component of the membranous septum. Nonpatent depressions were characterized by a split in the endocardial cushion cells in the atrioventricular component of the septum, and they persisted postnatally as a blind-ended diverticulum directed above the tricuspid valve. The cardiovascular teratogens, trimethadione and trypan blue, produced in fetuses nonpatent depressions and VSDs morphologically similar to untreated fetuses. Maternal diet restriction (25% of controls) lowered fetal (day 21 pc) body weight by 47% but did not affect the incidence of ventricular septal alterations, suggesting that intrauterine growth retardation is not necessarily associated with alterations in the development of the ventricular septum. We conclude that neither VSDs nor nonpatent depressions in Sprague-Dawley rats affect postnatal survival and that VSDs close spontaneously during neonatal life.

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Spontaneous and induced alterations in the cardiac membranous ventricular septum of fetal, weanling, and adult rats

Solomon

Wier

Fish

et al. 1997

Teratology

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Central-peripheral delayed neuropathy caused by diisopropyl phosphorofluoridate (DFP): Segregation of peripheral nerve and spinal cord effects using biochemical, clinical, and morphological criteria

Lotti

Caroldi

Moretto

et al. 1987

Toxicology and Applied Pharmacology

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The Application of Toxicokinetic Data to Dosage Selection in Toxicology Studies

Morgan¹,

Kelvin

Kinter³

et al. 1994

Toxicol Pathol

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Appropriate dosage selection is a key element in the design of toxicology studies and, hence, is the first step in the process of evaluating the safety of a new chemical or pharmaceutical agent. This demands careful consideration of exposure to the drug or chemical under investigation in relation to the pharmacological or toxicological effects it evokes in an experimental animal. Toxicokinetic data provide this perspective, but they should not be considered exclusively of other data which reflect the specific activity, potency, or metabolism of the drug or chemical in each individual test species. It is equally inappropriate to base dosage selection in toxicology studies exclusively on functional or morphological endpoints that cause effects outside the range which can be accommodated by homeostatic mechanisms and repair processes. Finally, extrapolation of toxicokinetic data across species lines can lead to serious miscalculations with respect to both dosage selection and the process of risk assessment. In each case, decisions should be based on the integration of toxicokinetic data with other measures and endpoints of biological and toxicological effect.

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C. J. Fish

Development of tissue damage, inflammation and resolution following stroke: An immunohistochemical and quantitative planimetric study

Spontaneous and induced alterations in the cardiac membranous ventricular septum of fetal, weanling, and adult rats

Spontaneous and induced alterations in the cardiac membranous ventricular septum of fetal, weanling, and adult rats

Central-peripheral delayed neuropathy caused by diisopropyl phosphorofluoridate (DFP): Segregation of peripheral nerve and spinal cord effects using biochemical, clinical, and morphological criteria

The Application of Toxicokinetic Data to Dosage Selection in Toxicology Studies

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