Effects of prenatal exposure to deltamethrin on forced swimming behavior, motor activity, and striatal dopamine levels in male and female rats

The effects of prenatal exposure of rat pups to 0.08 mg/kg deltamethrin (DTM) on physical, reflex and behavioral developmental parameters, on forced swimming and open-field behaviors, and on striatal monoamine levels at 60 days of age were observed. Maternal and offspring body weight, physical and reflex development were unaffected by the exposure to the pesticide. At 21 days of age, open-field locomotion frequency and immobility duration of male and female offspring were not different between control and exposed animals. However, male rearing frequency was increased in experimental animals. A decreased immobility latency to float and in general activity after the swimming test in male offspring was observed at adult age; no interference was detected in the float duration during the swimming test. In addition, these animals presented higher striatal 3,4-dihydroxyphenylacetic acid (DOPAC) levels without modification in dopamine (DA) levels and an increased DOPAC/DA ratio. These data indicate a higher activity of the dopaminergic system in these animals. Noradrenaline (NA) levels were increased, while MHPG levels were not detectable in the system studied. Serotonin (5-HT) and 5-hydroxyindolacetic acid (5-HIAA) levels, as well as the homovanillic acid (HVA)/DA ratio, were not modified by the exposure to the pesticide. No changes were observed in swimming and open-field behaviors nor were there any changes in striatal monoamines or their metabolites in the female experimental group. In relation to the pesticide formula, the present data showing that prenatal exposure to DTM alters latency to float and the activity of striatal dopaminergic system might reflect a persistent effect of the pesticide on animal motor activity, mainly in males. On the other hand, the decrease in general activity observed in experimental male rats suggests higher levels of emotionality induced by previous exposure to the swimming behavior test in relation to control animals. Data gathered in the present study may be important for the assessment of the safety of pyrethroid insecticides.     

Postnatal behavior in hatano high- and low-avoidance rats following prenatal exposure to low-dose methylazoxymethanol

The hypothesis that genetic factors influence behavioral effects was tested in rats exposed prenatally to methylazoxymethanol (MAM). We examined whether baseline behavior is an important factor influencing behavioral effects, and whether a behaviorally selected strain was useful for study of neurobehavioral teratology. Pregnant high- and low-avoidance animals (HAAs and LAAs) of the Hatano strain, selectively bred for high and low shuttlebox avoidance responses, respectively, were given an IP injection of a low dose of MAM (15 mg/kg) on day 14 of gestation. The offspring of these animals were subjected to behavioral tests for locomotor activity (running-wheel and open-field tests) and learning ability (Biel maze and shuttlebox avoidance tests). There were no significant effects of MAM on running-wheel activity or shuttlebox avoidance learning, whereas the number of errors in the Biel maze was increased in the MAM offspring of both strains. Interestingly, open-field activity of the MAM offspring was markedly decreased in LAAs but not in HAAs. Therefore, an additional experiment was performed to determine plasma levels of ACTH and corticosterone following open-field exposure. When compared to control offspring of the respective strains, plasma levels of ACTH and corticosterone were not altered by prenatal MAM treatment in LAAs. Instead, the MAM offspring in HAAs exhibited decreased ACTH levels in absence of behavioral alterations. These results demonstrated that prenatal exposure to low doses of MAM may alter postnatal behavior and endocrine response of the offspring, although to a differing degree in HAAs and LAAs. Our observations suggested that behaviorally selected strains are sensitive to neurobehavioral teratogens such as MAM.     

Behavioral effects of prenatal methoxy-ethyl-mercury chloride exposure in rat pups

A number of neurotoxic drugs, when administered prenatally, induce neurobehavioral impairments and cause delay of the development of central nervous functions, without morphological malformations. Experiments were undertaken to clarify the behavioral teratogenicity of the fungicide methoxy-ethyl-mercury chloride (MEMC). CFY rat dams were treated with different doses of MEMC during 7th-15th days of gestation (2.0, 0.62 and 0.02 mg/kg daily), perorally. Development of gait, motor coordination, behavior patterns in an open field test, swimming, and conditioned avoidance learning were tested at different ages of rat pups. MEMC did not cause any mortality of dams, but there was a mild ataxia at the 2.0 mg/kg treatment. While birthweight, number of offspring, ear-eye opening and gait were normal, unexpectedly high mortality occurred perinatally. After weaning, open field behavior was nearly normal, there was a mild decrease of rearing, grooming and ambulation and an initial preference for the periphery of the open field decreased. Ambulation increased significantly in 90-day-old pups. Motor coordination on a rotorod decreased in 23- and 36-day-old pups, but increased in 90-day-old pups at the 2.0 mg/kg dose. There was no difference among groups in amphetamine sensitivity tested in a swim stress test. During avoidance conditioning, pups treated with the two higher doses performed poorly when compared to controls and the latency of the positive conditioned response was lengthened significantly. Our results show a dose-dependent behavioral teratogenicity of this organomercurial fungicide. The so called no effect level--as far as the neurobehavioral impairments due to prenatal exposure are concerned--is 0.02 mg/kg daily.     

Long-lasting neurotoxicity of prenatal benzene acute exposure in rats

Benzene is a common element of environmental pollution. Although this substance is not recognized as a teratogenic agent, it is not known whether prenatal exposure to benzene may induce neurobehavioral changes in the progeny. Benzene 0.1mg/kg was injected subcutaneously (s.c.) acutely at day 15 of gestation into pregnant female rats of the Sprague-Dawley strain and neurotoxicity of the substance was studied in pups and male adult animals of the same progeny. No change was found in total number of neonates, body weight and eye opening time between benzene-exposed animals and controls. No malformations were observed. At birth, neonatal reflexes (cliff aversion, forelimb placing, bar holding, forelimb grasping, startle) were scored in benzene-exposed pups and their percent appearance was found to be anticipated (more benzene-exposed pups exhibited reflexes each day) in comparison to that of control animals. Also, the completion (maximum appearance, i.e. 100% of the brood was found to exhibit each reflex) of neonatal reflexes in benzene-exposed animals preceded that of controls. Starting 2 months after birth, cognitive and motor performance was assessed only in male animals of the prenatally benzene-exposed progeny. The overall evaluation of motor activity in benzene-exposed animals in the open-field test revealed reduced ambulation in these rats as compared to control animals. Acquisition of active avoidance responses in the shuttle-box test, as assessed by the number of conditioned avoidance responses and the percent of learners, was impaired in benzene-exposed rats as compared to control animals. Prenatal exposure to benzene was also followed by reduced retention latency in a step-through passive avoidance task in two retention tests. These results suggest that acute exposure to benzene during gestational organogenesis may cause long-lasting changes in motor behavior and cognitive processes. This may be relevant for the assessment of benzene toxic profile for the progeny of pregnant subjects, although teratogenic effects are not observed.     

Concurrent exposure to aluminum and stress during pregnancy in rats: Effects on postnatal development and behavior of the offspring

The present study was conducted to assess the potential combined influence of maternal restraint stress and aluminum (Al) exposure on postnatal development and behavior in the offspring of exposed rats. Female rats were concurrently exposed to 0 (control group), 50 or 100 mg/kg/day of Al administered as Al nitrate nonahydrate in drinking water with citric acid (355 or 710 mg/kg/day) for a period of 15 days prior to mating with untreated males. Aluminum exposure was maintained throughout the gestational, lactational and post-weaning periods. On days 6-20 of gestation, one-half of the pregnant animals in each group were restrained for 2 h/day. Food consumption and maternal body weight were decreased in the groups exposed to restraint only or combined with the highest Al dose. All of the animals were allowed to deliver and wean their offspring. The pups were evaluated for physical development and neuromotor maturation. Moreover, open-field activity, passive avoidance, and spatial learning in a water maze were also determined on postnatal days 30, 35 and 60, respectively. Body weight of pups treated with 100 mg/kg/day of Al was decreased relative to controls from postnatal day 12 through 21, sexual maturation was delayed in Al treated females and in males exposed to 100 mg/kg/day. Forelimb grip strength was reduced in males exposed to 100 mg/Al/kg/day and in females exposed to this Al dose plus prenatal restraint. Learning in a passive avoidance task indicated facilitated performance for Al treated rats at 100 mg/kg/day combined with prenatal restraint as evidenced by longer avoidance latencies, while learning in a water maze task showed a shorter latency to find the platform on acquisition day 2 for Al treated rats. However, no effects of Al on water maze performance were detected during the retention probe trial in which the only effect noted was an increase in the platform quadrant swim time for the prenatal restraint group. In general terms, the results of the present study did not show a notable influence of maternal restraint on the Al-induced postnatal developmental and behavioral effects in the offspring of prenatally Al-exposed rats.     

Prenatal Exposure of Rats to Diphenhydramine: Effects on Physical Development, Open Field, and Gonadal Hormone Levels in Adults

Diphenhydramine (DPH), a classical H₁ receptor antagonist, has been used in pregnancy for the treatment of allergies, nausea, and vomiting. It has been reported that 10–20% of pregnant women take antihistamine-containing preparations at some point during pregnancy. The present study analyzed the influence of prenatal exposure to DPH of rats on: 1) maternal behavior and milk production of dams; 2) physical and reflexologic development of offspring; and 3) long-term effects on open field behaviors and gonadal hormone levels in offspring. Female pregnant rats were injected SC, daily, with 20 mg/kg DPH or saline from embryonic day (E) 0 to 21. After delivery, maternal behavior was assessed and offspring physical and reflexologic development was examined. Open field activity of male and female rats was measured at 21 and 75 days of age and plasma hormone levels were evaluated in both sexes at 120 days of age. Neither maternal behavior nor milk production was affected by DPH treatement. Treated offspring showed an accelerated pinna unfolding, eye opening, and a delay of testes descent and vaginal opening. Both righting reflex and negative geotaxis development were accelerated, but prenatal exposure to DPH did not modify offspring locomotor activity. When tested as adults, a lack of sexual dimorphism in the open field activity of males and females was observed. No differences were observed between gonadal hormone levels of control and experimental groups of either sex. The findings suggest that prenatal DPH exposure influences physical and reflex development of rat pups.     

Neurobehavioral toxicity study of dibutyl phthalate on rats following in utero and lactational exposure

To investigate the neurobehavioral effects of dibutyl phthalate (DBP), an important endocrine disruptor known for reproductive toxicity, on rodent offspring following in utero and lactational exposure, pregnant Wistar rats were treated with DBP (0, 0.037, 0.111, 0.333 and 1% in the diet) from gestation day (GD) 6 to postnatal day (PND) 28, and selected developmental and neurobehavioral parameters of the offspring were measured. There were no significant effects of DBP on body weight gain of the dams during GD 6–20 or on the pups' ages of pinna detachment, incisor eruption or eye opening. Exposure to 1% DBP prolonged gestation period, decreased body weight in both male and female pups, depressed surface righting (PND 7) in male pups, shortened forepaw grip time (PND 10), enhanced spatial learning and reference memory (PND 35) in male pups. Exposure to 0.037% DBP also shortened forepaw grip time (PND 10), but inhibited spatial learning and reference memory in male pups. Sex × treatment effects were found in forepaw grip time (PND 10), spatial learning and reference memory, and the male pups appeared to be more susceptible than the females. However, all levels of DBP exposure did not significantly alter surface righting (PND 4), air righting (PND 16), negative geotaxis (PND 4 or 7), cliff avoidance (PND 7) or open field behavior (PND 28) in either sex. Overall, the dose level of DBP in the present study produced a few adverse effects on the neurobehavioral parameters, and it may alter cognitive abilities of the male rodent. Copyright © 2009 John Wiley & Sons, Ltd.     

Prenatal Exposure of Rats to Diphenhydramine: Effects of Physical Development, Open Field, and Gonadal Hormone Levels in Adults

Diphenhydramine (DPH), a classical H₁ receptor antagonist, has been used in pregnancy for the treatment of allergies, nausea, and vomiting. It has been reported that 10-20% of pregnant women take antihistamine-containing preparations at some point during pregnancy. The present study analyzed the influence of prenatal exposure to DPH of rats on: 1) maternal behavior and milk production of dams; 2) physical and reflexologic development of offspring; and 3) long-term effects on open field behaviors and gonadal hormone levels in offspring. Female pregnant rats were injected SC, daily, with 20 mg/kg DPH or saline from embryonic day (E) 0 to 21. After delivery, maternal behavior was assessed and offspring physical and reflexologic development was examined. Open field activity of male and female rats was measured at 21 and 75 days of age and plasma hormone levels were evaluated in both sexes at 120 days of age. Neither maternal behavior nor milk production was affected by DPH treatment. Treated offspring showed an accelerated pinna unfolding, eye opening, and a delay of testes descent and vaginal opening. Both righting reflex and negative geotaxis development were accelerated, but prenatal exposure to DPH did not modify offspring locomotor activity. When tested as adults, a lack of sexual dimorphism in the open field activity of males and females was observed. No differences were observed between gonadal hormone levels of control and experimental groups of either sex. The findings suggest that prenatal DPH exposure influences physical and reflex development of rat pups.     

Effects of prenatal exposure to toluene on postnatal development and behavior in rats.

Development and neurobehavioral effects of prenatal exposure to toluene (CAS 108-88-3) were studied after exposing pregnant rats (Mol:WIST) to 1800 ppm of the solvent for 6 h daily on days 7-20 of gestation. Body weights of exposed offspring were lower until day 10 after parturition. Neurobehavioral evaluation of the pups revealed no effects on motor function (rotarod), activity level (open field), acoustic startle, and prepulse inhibition. Measurements of hearing function using auditory brain stem response revealed small effects in male-exposed offspring. Performance in a Morris water maze during initial learning gave some indications of impaired cognitive functions, which was confirmed during further testing, especially in reversal and new learning. Effects on cognitive functions seemed most marked in female offspring.     

Effect of alcohol intake on some disturbances induced by chronic exposure to carbon disulphide in rats. I. Behavioural alterations

Female white Wistar rats were exposed to CS2 vapour (0.8 mg CS2/1 air) 11 months and to 10% ethanol as the only drinking liquid for the last 3 months of exposure. Spontaneous exploratory motor activity (SEMA), open-field behaviour, passive avoidance performance and the avoidance acquisition were tested. Ethanol did not change the exploratory motor activity and behaviour of CS2-exposed rats in the open-field and passive avoidance tests but it affected their performance in the conditioned avoidance test. The analysis of data suggests that ethanol may adversely affect memory and learning ability in CS2-exposed rats.     

Behavioral and neurochemical effects of prenatal methylenedioxymethamphetamine (MDMA) exposure in rats.

MDMA is a hallucinogenic drug that is used by the general public as a recreational drug of abuse. The neurobehavioral consequences of prenatal MDMA exposure are unknown. Groups of pregnant rats were gavaged with 0, 2.5, or 10 mg/kg MDMA during gestation on alternate gestational days 6-18. Gestational duration, litter size, neonatal birth weights and physical appearance at birth were unaffected by MDMA treatments. Pregnancy weight gain was significantly reduced by MDMA treatment. Progeny growth, maturational parameters (eye opening and incisor eruption times), surface righting reflex, swimming performance, forelimb grip strength, milk-induced behaviors, passive avoidance behavior, figure-8 maze activity over 48 hours, the density of brain serotonin (5-HT) uptake sites, and brain 5-HT and 5-hydroxyindoleacetic acid (5-HIAA) levels were unaffected by MDMA treatments. Olfactory discrimination on postnatal days (PND) 9-11 was enhanced in both male and female MDMA-treated progeny, while negative geotaxis (PND 7-10) was delayed in female pups. In contrast to progeny, MDMA caused dose-dependent decreases in 5-HT and 5-HIAA levels in discrete brain areas of the dam. It is concluded that prenatal exposure to MDMA at the levels used here produces only subtle behavioral alterations in developing rats. The dam is more at risk for MDMA-induced 5-HT depletion than is the conceptus.     

Developmental and behavioral consequences of prenatal fluoxetine

BACKGROUND: Fluoxetine, a selective serotonin reuptake inhibitor, is the most commonly prescribed antidepressant drug for pregnant women. Studies regarding the teratogenic effect of fluoxetine on human and animal models are mainly concerned with structural malformation (congenital anomalies). Aim: Hence, the present study was planned to evaluate the postnatal behavioral effects of fluoxetine on albino rats. METHODS: Three groups of female rats received either distilled water or doses of fluoxetine 8 and 12 mg/kg orally from the 6th to the 20th day of pregnancy. Weaning of the pups was done on the 21st day followed by a battery of behavioral tests to assess for any behavioral effect. The tests included negative geotaxis, open field exploration, rota-rod test, elevated plus maze and passive avoidance test. RESULTS: In the present study there was no change in the gestational length of pregnancy, no premature birth or miscarriage during pregnancy. A high dose of in utero fluoxetine resulted in a decrease in birth weight of the offspring and also reduced weight gain during the preweaning period. No major congenital abnormalities were observed in the offspring exposed to fluoxetine. Prenatal fluoxetine exposure at high dose caused an initial transient delay in motor development and this poor motor activity was transient and not permanent. However, prenatal exposure to fluoxetine at a higher dose showed a favorable effect on learning and memory in water maze and passive avoidance tests. CONCLUSIONS: From the present study, it may be concluded that prenatal fluoxetine causes a transient delay in motor development but does not adversely affect the postnatal behavioral consequences.     

Effects of Ipomoea carnea aqueous fraction intake by dams during pregnancy on the physical and neurobehavioral development of rat offspring

The effects of daily prenatal exposure to 0.0, 0.7, 3.0 and 15.0 mg/kg of the aqueous extract (AQE) of Ipomoea carnea dried leaves on gestational days 5-21 were studied in rat pups and adult offspring. The physical and reflex developmental parameters, open-field, plus-maze, social interaction, forced swimming, catalepsy and stereotyped behaviors, as well as striatal, cortical and hypothalamic monoamine levels (at 140 days of age) were measured. Maternal and offspring body weights were unaffected by exposure to the different doses of the AQE. High postnatal mortality, smaller size at Day 1 of life, reversible hyperflexion of the carpal joints and delay in the opening of both ears and in negative geotaxis were observed in the offspring exposed to the higher dose of AQE. At 60 and 90 days of age, open-field locomotion frequency was quite different between 0.0 and animals treated with 0.7 and 3.0 mg/kg AQE. No changes were observed in the plus-maze, social interaction, forced swimming, catalepsy, stereotyped behavior and central nervous system monoamines concentrations. Dams treated with the higher AQE dose showed severe cytoplasmic vacuolation in liver, kidney, pancreas and thyroid tissues, in contrast to the mild vacuolation observed in the other experimental groups. No alterations were observed in the histopathological study of the offspring of all experimental groups at 140 days of age. During adulthood, behavior was not modified in offspring exposed to the higher dose of AQE as well as no changes occurred in central nervous system neurotransmitters. The present data show that the offspring development alterations were not severe enough to produce behavioral and central monoamine level changes.     

Aluminum, restraint stress and aging: behavioral effects in rats after 1 and 2 years of aluminum exposure

Both aluminum (Al) and aging have been associated with neurobehavioral changes in mammals. In this study, the long-lasting neurobehavioral effects of prenatal restraint stress and oral Al exposure from conception to sacrifice were assessed in adult (1 year) and old (2 years) rats. Pregnant females were orally exposed to 0, 50, and 100 mg Al/kg/day. Each Al-exposed group was divided into two subgroups. One of this was subjected to restraint stress (2h/day on gestation days 6-20). The offspring of the treated females were maintained with the same Al treatment until sacrifice at 1 or 2 years of age. Activity in an open-field and learning in a water maze were evaluated. Although no significant differences were observed in motor activity, a biphasic effect of Al on learning could be observed. Thus, exposure to 100 mg Al/kg decreased performance of the task in both adult and old rats when compared to animals exposed to 50 mg Al/kg. An age-related effect on water maze performance, as well as an accumulation of Al in brain of rats exposed to 100 mg Al/kg at 2 years of age was found. Interestingly, while prenatal restraint stress did not modify behavioral parameters, Al accumulation was prevented by prenatal restraint.     

Developmental and neurobehavioral effects of perinatal exposure to polychlorinated biphenyls in mice

Because behavioral deficits associated with gestational exposure to polychlorinated biphenyls (PCBs) have been a concern, we studied the developmental and neurobehavioral effects of perinatal exposure to Aroclor 1254 (A1254), a commercial mixture of PCBs, in mice. The PCB mixture (A1254; 0, 6, 18, and 54 mg/kg body weight) was administered to pregnant mice (C57BL/6Cr) every 3 days by gavage from gestational day (GD) 6 to postnatal day (PND) 20. Compared with the control, treatment with A1254 did not alter the maternal body weight during the gestation and lactation periods. The body weight of the offspring did not differ among treatments. To assess the effects on offspring following such exposure, physical and neurobehavioral development (i.e., pinna detachment, hair growth, eye opening, incisor eruption, grasp reflex, righting reflex, walking, negative geotaxis, and cliff avoidance) was observed before weaning. At PND 7, poor adult-like responses in negative geotaxis were observed in all exposed groups. When the offspring were at 8-week old, the PCB-treated (18 mg/kg body weight) mice showed a decreased walking speed in the open-field test, and a prolonged time to reach the platform in the water maze test. Spontaneous locomotion activity was not affected by PCB exposure at 9 weeks . These results showed that perinatal exposure to PCBs produces several behavioral alterations in mice. Although dose-dependent changes were not observed, the neurobehavioral effects such as a decreased walking speed in the open-field test and a prolonged time to reach the platform in the water maze test remained in adulthood after the seeming recovery from the transient delay in development before weaning.     

Preliminary indications that functional effects of fetal caffeine exposure can be expressed in a second generation

Caffeine, added to the drinking water of males used for impregnation and gestant BALB/c mice such that their daily caffeine intake was 60 mg/kg, modified the passive avoidance behavior of the offspring when tested as adults. Caffeine-treated and control mice of the F1 generation were then cross-mated. The F2 generation was not exposed to caffeine but, when tested as adults, there were significant differences in passive avoidance latencies among the F2 mice. These data are a preliminary indication that effects resulting from fetal caffeine exposure in the F1 mice can be expressed in a second generation. Some cross-fostered groups of mice were tested in both the F1 and F2 generations as an initial control for postnatal maternal effects. F1 caffeine-treated mice also carried significantly smaller litters, implying that prenatal caffeine exposure could have affected the reproductive ability of these mice. It is tentatively concluded that a changed uterine environment, possibly interacting with an effect on the germ line, may be reflected in neurobehavioral effects in the second generation.     

Interactive effects of prenatal alcohol and cocaine exposures on postnatal mortality, development and behavior in the Long-Evans rat

Polydrug abuse has increased substantially in recent years amongst obstetric patients. One of the most common drug combinations is alcohol and cocaine. To better understand the adverse consequences of this drug combination on pregnancy and the offspring, alcohol (2 g/kg, b.i.d.) and cocaine HCl (30 mg/kg, b.i.d.) were administered individually and in combination to separate groups of pregnant Long-Evans rats from gestation days 7-20. The pregnant dams were evaluated for maternal weight gain, food and water consumption, mortality, and gestational length. The offspring were evaluated for physical maturation, mortality, and behavior. The drug combination was found to have greater effects regarding decreased birth weight, increased postnatal mortality, and delayed physical maturation than either drug alone. Drug treatments also influenced activity monitor behavior in that prenatal cocaine exposure was associated with hypoactivity while the alcohol and the alcohol-plus-cocaine treatments were associated with hyperactivity in periweanling pups. Drug treatments had no significant effects on passive or active avoidance behaviors. These results suggest that combining alcohol and cocaine increases the risk to the offspring.     

Evaluation of prenatal aldrin intoxication in rats

The aim of the present study was to evaluate the impact of prenatal exposure to low doses of aldrin on physical and behavioral developments of rats (1–21 days old). To detect the possible persistent adversities produced by this exposure, the animals were also tested when adults (90 days old). Plasma determinations of both aldrin and its metabolite dieldrin and histopathological evaluations of brain slices were also performed in adult animals. Pregnant female rats were subcutaneously (s. c.) treated with aldrin (1.0 mg/kg) or with its vehicle (0.9% NaCl solution plus Tween-80) from day 1 of pregnancy until delivery. Results show that prenatal aldrin administration was able to decrease the median effective time (TE₅₀) for incisor teeth eruption and to increase the TE₅₀ for testes descent; other parameters indicative of physical development were not modified. Aldrin and dieldrin were not found in plasma of the adult rats; no differences were observed between control and experimental rats in the cellular and structural organization of the cerebral cortex neurones. Prenatal aldrin administration produced no impairment of adult animal's behavior in an avoidance learning test; nevertheless, the locomotor frequency of the experimental rats was higher than that of controls at 21 and 90 days old. When adults, these experimental rats had their performance in a hole-board apparatus (total number and duration of headdips) also higher than that of the control ones. It was concluded that prenatal aldrin exposure induced not only developmental changes in the rat pups but also persistent behavioral alterations in adulthood, when the pesticide was not present in these animals.     

Prenatal exposure to tobacco extract containing nicotinic alkaloids produces morphological and behavioral changes in newborn rats

Tobacco exposure is not only a health concern for adults but has also been shown to exert deleterious effects on the health of the fetus, newborn, child, and adolescent. Decreased cognitive function, lower Intellectual Quotient (IQ) and deficits in learning and memory in children have been associated with maternal smoking during pregnancy.In this study, we have studied the effect of a tobacco plant extract on the growth and development in the rat. The extract contained relative proportions of alkaloids, including nicotine, purified by chemical separation. Pregnant rats received oral doses of either control (NaCl) or tobacco extract during the entire gestational period. Offspring length and body weight were measured. Each day, the offspring were observed for the following physical parameters: hair growth, incisor eruption and eye opening. The day of appearance of these developments was recorded. Before weaning, the offspring were examined to test their cliff avoidance response (6 postnatal day (PN)), surface righting reflex (05, 07, 13 postnatal day), swimming development (10, 12 postnatal day), negative geotaxis response (7,9,13 and 17 postnatal day) and jumping down choice cage (15, 17 postnatal day).Administration of tobacco extract to dams during the entire gestation period affects behavior and development in pups. The observed effects were a delay in opening eyes, incisor eruption and hair appearance, behavioral developments and an alteration in the rate of success behavior. However, in the jumping down choice cage test there was no difference compared to control animals.The results suggest that tobacco extract has a significant effect on the development of behavioral patterns, orientation and motor coordination and function. They also suggest significant growth retardation and teratogenic effects.     

Embryotoxic and long-term effects of cadmium exposure during embryogenesis in rats

The present study was performed to evaluate the long-term behavioral effect in offspring of a subteratogenic Cd dose administered by the oral route to Wistar rat during organogenesis. First, the teratogenic Cd dose was determined by treating pregnant rats with 20 mg/kg Cd from Day 6 to Day 14 of pregnancy and by visceral and skeletal analysis of their fetuses. In a second experiment, pregnant rats treated with this Cd dose were allowed to give birth and nurture their offspring. The physical and behavioral parameters of the offspring were analyzed in infancy and during adulthood. Results showed that Cd treatment during organogenesis (1) was not able to induce maternal toxicity; (2) induced external malformations; (3) increased significantly fetus anomalies and malformations, with reduced metacarpus ossification, cleft palate and right or left renal cavitation being observed in these animals; (4) did not modify pup body weight or weight gain during the lactation period; (5) improved testis descent and delayed the vaginal opening of pups; (6) did not modify ear unfolding, incisor eruption, eye opening, negative geotaxis or palmar grasp; (7) did not modify the open-field parameters and the stereotyped behavior of male or female pups; and (8) modified male sexual behavior and (9) reduced female sexual behavior. We conclude that prenatal exposure to a teratogenic Cd dose induced in the survivor animals several deleterious effects in their development as well as in adult behaviors, mainly in the sexual sphere.