The effect of maternally inhaled trichloroethylene,perchloroethylene, methyl chloroform,and methylene chloride on embryonal and fetal development in mice and rats

These studies evaluated the effects of trichloroethylene, perchloroethylene (tetrachloroethylene), methyl chloroform (1,1,1-trichloroethane) and methylene chloride (dichloromethane) on mouse and rat embryonal and fetal development at a concentration two times the maximum allowable excursion limit for human industrial exposure as defined by ACGIH, 1973 (300, 300, 875, 1250 ppm, respectively). Groups of pregnant Sprague-Dawley rats and Swiss Webster mice were exposed to each solvent 7 hr daily on days 6–15 of gestation. None of these solvents caused significant maternal, embryonal or fetal toxicity and none was teratogenic in either species of animal at the concentrations studied. Elevated carboxyhemoglobin content was observed in mice and rats exposed to methylene chloride.     

The pathologic and immunologic effects of inhaled acrolein in rats

Four groups of 40 male Sprague-Dawley rats each were exposed by inhalation to target concentrations of 0, 0.1, 1.0, and 3.0 ppm of acrolein 6 h/day, 5 days/week for 3 weeks. Subsequent changes in local pulmonary immunity were determined by examining the number of antibody plaque-forming cells in the lung-associated lymph nodes following intratracheal immunization with sheep red blood cells. Separate groups of rats were evaluated for blastogenic responsiveness to phytohemagglutinin-P and Salmonella typhimurium antigen using spleen- and lung-associated lymph node cells. In vivo resistance was evaluated utilizing acrolein-exposed rats subsequently challenged with intravenous Listeria monocytogenes. Local pulmonary antibody responsiveness was not affected by acrolein exposure. Lymphocyte blastogenesis and resistance to Listeria challenge were not altered. Body weights and spleen weights were decreased in the 3 ppm-exposed group only. Microscopic examination of the nasal turbinates revealed acrolein-induced exfoliation, erosion, and necrosis of the respiratory epithelium as well as squamous metaplasia, however, lung histology was not affected. Thus at environmental concentrations, acrolein toxicity appeared to be confined to local nasal pathologic changes with no alterations in lung histology or immune function.     

The effects of inhaled acetone on place conditioning in adolescent rats

INTRODUCTION: Acetone is an ubiquitous ingredient in many household products (e.g., glue solvents, air fresheners, adhesives, nail polish, and paint) that is putatively abused; however, there is little empirical evidence to suggest that acetone alone has any abuse liability. Therefore, we systematically investigated the conditioned response to inhaled acetone in a place conditioning apparatus. METHOD: Three groups of male, Sprague-Dawley rats were exposed to acetone concentrations of 5000, 10,000 or 20,000 ppm for 1 h in a conditioned place preference apparatus alternating with air for 6 pairing sessions. A place preference test ensued in an acetone-free environment. To test the preference of acetone as a function of pairings sessions, the 10,000 ppm group received an additional 6 pairings and an additional group received 3 pairings. The control group received air in both compartments. Locomotor activity was recorded by infrared photocells during each pairing session. RESULTS: We noted a dose response relationship to acetone at levels 5000-20,000 ppm. However, there was no correlation of place preference as a function of pairing sessions at the 10,000 ppm level. Locomotor activity was markedly decreased in animals on acetone-paired days as compared to air-paired days. CONCLUSION: The acetone concentrations we tested for these experiments produced a markedly decreased locomotor activity profile that resemble CNS depressants. Furthermore, a dose response relationship was observed at these pharmacologically active concentrations, however, animals did not exhibit a positive place preference.     

The effects of maternal exposure to food additive E341 (tricalcium phosphate) on foetal development of rats

E341 (tricalcium phosphate) (TCP) is commonly used as a food additive and also as a nutritional supplement. To evaluate the possible developmental effects, female Wistar rats were treated with E341 (TCP) by oral gavage during pregnancy. There were three groups of each containing five rats. Rats in Groups I-III were fed with standard diet, oil and E341 (TCP) 175mg/kg body weight during gestation days (GD 0-20) respectively. We assessed foetal body lengths and weights and also made morphometric examination of placenta and umbilical cord. The placental weights of E341 (TCP) group (Group III) were found to be decreased statistically. According to skeletal stainings of foetuses, lengths of left ulna (28.3%), right femur (29.8%), left femur (34.9%) and diameter of the skull of y-axis were significantly decreased (12.3%) in E341 (TCP) treatment groups. There was an increase in trans-umbilical diameter in treatment group (14%). This is the first study in which developmental effects of E341 (TCP) have ever evaluated. The results suggest that prenatal development of rats during gestation is sensitive to E341 (TCP) exposure.     

Pulmonary biochemical effects of inhaled phosgene in rats

Three exposure regimens were used to study the time course of indicators of lung damage and recovery response to single or repeated exposures to phosgene (COCl2). Rats were sacrificed immediately or throughout a 38-d recovery period after inhalation of 1 ppm COCl2 for 4 h, at intervals during a 7-h exposure to 1 ppm phosgene, or at several time points throughout a 17-d exposure to 0.125 and 0.25 ppm COCl2 (4 h/d, 5 d/wk) and during a 21-d recovery period. Regimen 1 revealed significantly elevated lung wet weight, lung nonprotein sulfhydryl (NPSH) content, and glucose-6-phosphate dehydrogenase (G6PD) activity that stayed elevated for up to 14 d. A significant decrease in body weight and food intake was observed 1 d after exposure. Regimen 2 caused a slight depression in NPSH content but did not affect G6PD activity. Regimen 3 animals showed sustained elevations in lung wet weight, NPSH content, and G6PD activity after 7 d of exposure. No significant changes in these endpoints were observed for the 0.125 ppm COCl2 group. No consistent elevation in hydroxyproline content was seen at either exposure concentration. Light microscopic examination of lung tissue exposed to 0.25 ppm COCl2 for 17 d revealed moderate multifocal accumulation of mononuclear cells in the centriacinar region. In summary, exposure to COCl2 caused changes similar in most ways to those observed for other lower-respiratory-tract irritants.     

Importance of gestational hypoglycaemia for foetal malformations and skeletal development in rats

The aim was to investigate embryo-foetal effects of continuous maternal insulin-induced hypoglycaemia extending throughout gestation or until gestation day (GD)17 (typical last day of dosing during pre-clinical evaluation) providing comparator data for safety assessment of longer-acting insulin analogues in non-diabetic rats.Pregnant rats received human insulin (HI)-infusion during gestation until either GD20 or GD17 (HI-GD20; HI-GD17). On GD20, foetal abnormalities and skeletal ossification/mineralisation were evaluated.HI-infusion induced continuous hypoglycaemia. Foetal skeletal and eye malformations (e.g. bent ribs, microphthalmia) were common in both groups. Foetal size and skeletal ossification/mineralisation decreased, particularly with infusion throughout gestation.Concluding, insulin-induced hypoglycaemia during gestation in non-diabetic rats is damaging to embryo-foetal growth and skeletal development, particularly after GD17. Three days without HI-infusion after GD17 allows for some developmental catch-up. Eye development is sensitive to HI-infusion before GD17. These results should serve as a benchmark during pre-clinical safety assessment of longer-acting insulin analogues tested in rats.     

The toxicity of p-aminophenol in the Sprague-Dawley rat: effects on growth, reproduction and foetal development

p-Aminophenol (p-AP) was fed in the diet to groups of 40 male and 45 female Sprague-Dawley rats at levels of 0.07, 0.2 or 0.7% for up to 6 months. Methaemoglobin levels were determined after 6 wk. During wk 12, urine was collected from ten rats/sex/group for evaluation of mutagenicity in the Ames test. Clinical chemistry, haematology and histopathology studies were performed in subgroups after 13 and 27 wk. In addition, after 13 wk, 25 females/group were mated to untreated males in a teratology study. After 20 wk, 20 males/group were removed from the test diets and mated to untreated virgin females in a dominant lethal mutagenicity study. These males remained untreated until they were killed at 27 wk. Rats that had been maintained on the test diets throughout the study were also killed at wk 27. The high dose level of 0.7% p-AP resulted in a significant (10-15%) reduction in body-weight gain in both sexes. There was no increase in the level of methaemoglobin and, other than slight reductions in total erythrocytes and haemoglobin in female rats at 13 wk, there were no toxicologically important differences between groups in haematology or clinical chemistry values at any time during the 27 wk of treatment. Dose-related nephrosis was seen in both sexes after 13 and 27 wk and in the high-dose males that were removed from the test diet for a 7-wk recovery period. The compound was not teratogenic, but an increase in developmental variations associated with maternal toxicity was noted at the mid- and high-dose levels. In the dominant lethal study, an increase in the total number of resorptions (but not litters with resorptions) was observed in the high-dose group in the first of two matings but this observation was not confirmed in a follow-up study. Mutagenic activity was not detected in the urine of rats fed p-AP.     

Alteration in airway microvascular leakage induced by sensorineural stimulation in rats exposed to inhaled formaldehyde

Inhaled formaldehyde can rapidly produce microvascular leakage in the airway through stimulation of tachykinin NK1 receptors by tachykinins released from sensory nerves. Tachykinin NK1 receptors are known to be internalized in the cytoplasm after being stimulated, thus leading to transient attenuation of their action. We investigated time changes in airway microvascular leakage during formaldehyde inhalation for 45 min, and whether pre-inhalation of formaldehyde (5 ppm, 30 min) decreases the responses induced by subsequent inhaled formaldehyde (5 ppm, 15 min), intravenous capsaicin (75 μg/kg) and intravenous substance P (10 μg/kg) in rat airway. Evans blue dye content extravasated into the tissues was measured as an index of plasma leakage. Formaldehyde rapidly produced dye leakage in the airway, a response that ended within 15 min after the start of formaldehyde inhalation. Pre-inhalation of formaldehyde markedly decreased the responses induced by formaldehyde and capsaicin, but not substance P. However, dye leakage induced by formaldehyde was significantly enhanced by formaldehyde inhalation 20 h earlier. Our results suggest that tachyphylaxis in neurogenic airway microvascular leakage seen after formaldehyde inhalation may be due to impairment of tachykinin release from sensory nerves or decreases in tachykinins within sensory nerves. However, desensitization of tachykinin NK1 receptors was unlikely to be important in the tachyphylactic response.     

Differential effects of inhaled toluene on locomotor activity in adolescent and adult rats

Inhalant abuse is a world-wide public health concern among adolescents. Most preclinical studies have assessed inhalant effects in adult animals leaving unclear how behavioral effects differ in younger animals. We exposed adolescent (postnatal day [PN] 28) and adult (PN90) male rats to toluene using 1 of 3 exposure patterns. These patterns modeled those reported in toluene abuse in teens and varied concentration, number and length of exposures, as well as the inter-exposure interval. Animals were exposed repeatedly over 12 days to toluene concentrations of 0, 8000 or 16,000 parts per million (ppm). Locomotor activity was quantified during toluene exposures and for 30 min following completion of the final daily toluene exposure. For each exposure pattern, there were significant toluene concentration-related increases and decreases in locomotor activity compared to the 0-ppm “air” controls at both ages. These changes depended upon when activity was measured — during or following exposure. Compared to adults, adolescents displayed greater locomotor activity on the first day and generally greater increases in activity over days than adults during toluene exposure. Adults displayed greater locomotor activity than adolescents in the “recovery” period following exposure on the first and subsequent days. Age group differences were clearest following the pattern of paced, brief (5-min) repeated binge exposures. The results suggest that locomotor behavior in rats during and following inhalation of high concentrations of toluene depends on age and the pattern of exposure. The results are consistent with dose-dependent shifts in sensitivity and sensitization or tolerance to repeated toluene in the adolescent animals compared to the adult animals. Alternate interpretations are possible and our interpretation is limited by the range of very high concentrations of toluene used. The results imply that both pharmacological and psychosocial factors contribute to the teen prevalence of inhalant abuse.     

Acute electrophysiologic effects of inhaled toluene on adult male Long-Evans rats

Experiments were carried out in Long-Evans rats to verify and extend previous findings about the effects of toluene on sensory-evoked potentials (EPs) of Fischer-344 rats. Inhalation exposures to 3000 and 8000 ppm in Long-Evans rats confirmed that toluene 1) transiently enhances certain components of somatosensory, flash- and click-evoked (brainstem) potentials, 2) increases the latencies and interwave times of brainstem auditory-evoked responses, 3) depresses late components of the flash EP, 4) induces high frequency oscillations in the visual cortex, and 5) produces both facilitatory and suppressant effects on EPs, dependent on exposure concentration and time. New results indicated that toluene 1) has similar effects on Long-Evans as it does on Fischer-344 rats, 2) increases EEG theta activity, 3) has minor effects on cortical auditory and pattern-reversal EPs (PREP), but suppresses the steady-state PREP, and 4) induces oscillations in the visual cortex, irrespective of the presence of flashes.     

Interactive effects of ozone and formaldehyde on the nasal respiratory lining epithelium in rats

The combined effects on the nasal epithelium of mixtures of ozone and formaldehyde at cytotoxic and noncytotoxic concentrations were examined. Male Wistar rats were exposed by inhalation during 22 h/d for 3 consecutive days to 0.3, 1.0, or 3.0 ppm formaldehyde, or to 0.2, 0.4, or 0.8 ppm ozone, or to mixtures of 0.4 ppm ozone and 0.3, 1.0, or 3.0 ppm formaldehyde, or to 1.0 ppm formaldehyde and 0.2, 0.4, or 0.8 ppm ozone, or they were sham-exposed to clean air. The noses were examined for pathological changes at six standard cross levels by light microscopy and for epithelial cell proliferation by counting [3H-methyl]thymidine-labeled cells at cross levels II and III. Ozone at 0.4 ppm or 0.8 ppm or formaldehyde at 3 ppm enhanced cell proliferation at cross level II at all locations, except for the epithelium of the septum, which was not affected by ozone. At cross level III ozone alone did not induce cell proliferation, but formaldehyde at 0.3 and 1 ppm tended to reduce cell proliferation while at 3 ppm proliferation was slightly stimulated. The combined exposure to 0.4 ppm ozone and 0.3 ppm formaldehyde induced less cell proliferation at cross levels II and III when compared with that of 0.4 ppm ozone alone. Less cell proliferation was also seen at cross level II when animals were exposed to 0.4 or 0.8 ppm ozone in combination with 1 ppm formaldehyde than when exposed to these ozone concentrations alone. A more than additive increase in cell proliferation was found at cross level II after exposure to 0.4 ppm ozone in combination with 3 ppm formaldehyde, and at cross level III in animals exposed to 0.4 ppm ozone and 1 or 3 ppm formaldehyde. Treatment-related histopathological nasal changes, such as disarrangement, loss of cilia, and hyper/metaplasia of the epithelium were seen at 0.2, 0.4, and 0.8 ppm ozone and at 3 ppm formaldehyde. Simultaneous exposure to both materials did not noticeably affect type, degree, and size of the microscopic nasal lesions.     

Fertility and developmental neurotoxicity effects of inhaled hydrogen sulfide in Sprague-Dawley rats

In this study, we examined whether perinatal exposure by inhalation to hydrogen sulfide (H2S) had an adverse impact on pregnancy outcomes, offspring prenatal and postnatal development, or offspring behavior. Virgin male and female Sprague-Dawley rats (12 rats/sex/concentration) were exposed (0, 10, 30, or 80 ppm H2S; 6 h/day, 7 days/week) for 2 weeks prior to breeding. Exposures continued during a 2-week mating period (evidence of copulation = gestation day 0 = GD 0) and then from GD 0 through GD 19. Exposure of dams and their pups (eight rats/litter after culling) resumed between postnatal day (PND) 5 and 18. Adult male rats were exposed for 70 consecutive days. Offspring were evaluated using motor activity (PND 13, 17, 21, and 60+/-2), passive avoidance (PND 22+/-1 and 62+/-3), functional observation battery (PND 60+/-2), acoustic startle response (PND 21 and 62+/-3), and neuropathology (PND 23+/-2 and 61+/-2). There were no deaths and no adverse physical signs observed in F0 male or female rats during the study. A statistically significant decrease in feed consumption was observed in F0 male rats from the 80-ppm H2S exposure group during the first week of exposure. There were no statistically significant effects on the reproductive performance of the F0 rats as assessed by the number of females with live pups, litter size, average length of gestation, and the average number of implants per pregnant female. Exposure to H2S did not affect pup growth, development, or performance on any of the behavioral tests. The results of our study suggest that H2S is neither a reproductive toxicant nor a behavioral developmental neurotoxicant in the rat at occupationally relevant exposure concentrations (< or =10 ppm).     

Prospective study on the sexual development of male and female rats perinatally exposed to maternally administered cimetidine

Cimetidine, a widely prescribed, potent histamine H2-receptor antagonist, is unrelatedly a mild antiandrogen. Since perinatal androgens are essential for normal masculine imprinting, we wanted to determine if maternally administered cimetidine interfered with the offspring's reproductive development. Cimetidine was administered in the mothers' drinking water at several levels reflecting both human and rat therapeutic-like doses from day 17 of gestation through day 7 of lactation. Except for the highest dose of cimetidine (4.0 mg/ml drinking water) the drug had no effect on the dams' food and water consumption or body weight gain. In general, feminine sexual development as measured by pubertal onset, reproductive organ weights and adult estrous cyclicity, was unaffected by perinatal exposure to cimetidine. Similarly, early exposure to the drug had little effect on masculine sexual development. The developmental profile of serum dehydroepiandrosterone, androstenedione, testosterone and 5 alpha-dihydrotestosterone when measured at 1, 4 and 18 weeks of age, was unaffected by perinatal exposure to cimetidine. Furthermore, serum androgen concentrations and seminal vesicle weights following orchiectomy and androgen replacement were the same in control and cimetidine-exposed rats. In contrast, pituitary weights of adult males exposed to maternally administered cimetidine appeared to be insensitive to androgen regulation. However, taken in totality, our results do not support the concept that cimetidine is a reproductive teratogen.     

Pulmonary effects of inhaled limonene ozone reaction products in elderly rats

d-Limonene is an unsaturated volatile organic chemical found in cleaning products, air fresheners and soaps. It is oxidized by ozone to secondary organic aerosols consisting of aldehydes, acids, oxidants and fine and ultra fine particles. The lung irritant effects of these limonene ozone reaction products (LOP) were investigated. Female F344 rats (2- and 18-month-old) were exposed for 3 h to air or LOP formed by reacting 6 ppm d-limonene and 0.8 ppm ozone. BAL fluid, lung tissue and cells were analyzed 0 h and 20 h later. Inhalation of LOP increased TNF-alpha, cyclooxygenase-2, and superoxide dismutase in alveolar macrophages (AM) and Type II cells. Responses of older animals were attenuated when compared to younger animals. LOP also decreased p38 MAP kinase in AM from both younger and older animals. In contrast, while LOP increased p44/42 MAP kinase in AM from younger rats, expression decreased in AM and Type II cells from older animals. NF-kappaB and C/EBP activity also increased in AM from younger animals following LOP exposure but decreased or was unaffected in Type II cells. Whereas in younger animals LOP caused endothelial cell hypertrophy, perivascular and pleural edema and thickening of alveolar septal walls, in lungs from older animals, patchy accumulation of fluid within septal walls in alveolar sacs and subtle pleural edema were noted. LOP are pulmonary irritants inducing distinct inflammatory responses in younger and older animals. This may contribute to the differential sensitivity of these populations to pulmonary irritants.     

Inflammatory effects of inhaled endotoxin-contaminated metal working fluid aerosols in rats

Exposure to aerosols generated from water-soluble metal-working fluids (MWF) is associated with numerous respiratory symptoms consistent with an acute pulmonary inflammatory event. Previous studies in mice and guinea pigs have implicated endotoxin contamination of MWF as the causative agent responsible for inducing pulmonary neutrophilia and decrements in airway conductance. However, little information is known about the relationship between endotoxin-contaminated MWF exposure and changes in airway physiology. The present study, utilizing a rat model, has demonstrated that exposure to 10 mg/m3 with endotoxin (0 to 3.2 micrograms/m3) resulted in a time- and concentration-dependent migration of neutrophils in the lung tissue's interstitial spaces as well as the lavageable airways. In contrast to other airborne toxicants, where neutrophil infiltration of the lung has been associated with hyperresponsive airways, the endotoxin-induced neutrophilia observed in the present study was not associated with airway hyperresponsiveness to challenge with the muscarinic agent methacholine or with permeability damage to the lung. Bronchoalveolar lavage (BAL)-recovered neutrophils demonstrated no adverse effects as a result of endotoxin-contaminated MWF exposure. In contrast, a population of alveolar macrophages was observed to be enlarged in size and demonstrated an increased sensitivity to oxidative metabolism when challenged with phorbol myristate acetate, consistent with being at a relatively high state of activation. These results suggest that while endotoxin contamination of MWF is capable of producing an acute inflammatory event, other predisposition factors may be required to induce alterations in pulmonary physiology.