Gerald F. Chernoff scite author profile

Complete gross and microscopic neuropathological examinations of 25 children who died with meningomyelocele, the Arnold-Chiari malformation, and hydrocephalus revealed a wide range and frequency of associated central nervous system malformations. The most remarkable of these anomalies were hypoplasia or aplasia of cranial nerve nuclei (20%), demonstrable obstruction of cerebrospinal fluid flow within the ventricular system (92%), cerebellar dysplasia (72%), a disorder of migration of cortical neurons (92%), fusion of the thalami (16%), agenesis of the corpus callosum (12%), and complete or partial agenesis of the olfactory tract and bulb (8%). The anomalies associated with posterior neural tube closure defects can no longer be considered secondary, but rather must be considered part of a spectrum of malformations caused by an unidentified primary insult to the central nervous system. The frequency and pattern of brain malformations associated with neural tube defects of some children with meningomyelocele suggest that such malformations may seriously affect intellectual outcome.

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Shiverer: an autosomal recessive mutant mouse with myelin deficiency

Chernoff

1981

173

118

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The fetal alcohol syndrome in mice: An animal model

Chernoff

1977

Teratology

337

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CBA and C3H female mice were maintained on liquid diets--Metrecal plus ethanol--containing 15-35% ethanol-derived calories. These diets, which resulted in alcohol blood levels of 73-398 mg/100 ml blood in nonpregnant females, were the sole sustenance for the females for at least 30 days before and throughout gestation. Females were killed on day 18 of gestation and offspring examined for skeletal and soft tissue anomalies. Prenatal death and maldevelopment increased with the level of alcohol intake. Deficient occiput ossification, neural anomalies, and low fetal weight occurred with low ethanol diets, and cardiac and eye-lid dysmorphology with higher ethanol diets. This pattern of malformations, which exhibited both a dose-response effect and strain differences in susceptibility, indicated that chronic maternal alcoholism is embryolethal and teratogenic in mice.

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Strain differences in heat‐induced neural tube defects in mice

et al. 1986

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Neural tube defects are common congenital anomalies affecting approximately 0.1% of liveborn infants. It is widely accepted that these disorders are of a multifactorial origin, having both a genetic and an environmental component to their development. In a study designed to elucidate the genetic factors involved in a mouse model of hyperthermia-induced neural tube defects, it is apparent that a hierarchy of susceptibility exists among various inbred mouse strains. Female SWV mice were extremely sensitive to a 10-minute hyperthermic treatment on day 8.5 of gestation, with 44.3% of their offspring having exencephaly. The other strains used in these studies (LM/Bc, SWR/J, C57BL/6J, and DBA/2J) all had less than 14% affected offspring. In experimental situations where the environment is held constant and the only difference between the strains is their genotype, it is assumed that the difference in response to a teratogen is genetically mediated. To test the hypothesis that several genes are involved, reciprocal crosses were made between strains of high, moderate, and low sensitivity. When this was done, the high sensitivity of the SWV strain was lost in the F1 hybrid, implying not only that multiple genes are involved, but that it is the embryo's genotype and not the maternal genotype that is the major factor in determining susceptibility to heat-induced neural tube defects.

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Intermittent pattern of neural tube closure in two strains of mice

1993

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Development of the neural tube is often described as a continuous process that begins in the cervical region of the embryo and proceeds both rostrally and caudally. Examination of neural tube closure in the cranial region of LM/Bc and SWV/Bc mice revealed an intermittent pattern with four distinct areas of closure. Closure I begins at the level of somites 1-3 and proceeds bidirectionally. Closure II is initiated at the prosencephalic-mesencephalic border and also proceeds bidirectionally. Closure III is unidirectional, beginning adjacent to the stomodeum and proceeding caudally to meet closure II. Finally, closure IV takes place over the rhombencephalon where it meets closure II to complete rostral neural tube closure. In these two strains of mice anterior neural tube closure progressed as somite number increased. However, the SWV strain required a longer gestational time to develop equal numbers of somites and therefore to complete closure. In light of the intermittent pattern of closure observed in mice, the development of the rostral nervous system in other mammals, including humans, should be reconsidered.

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