Toxicological assessment of heavy straight run naphtha in a repeated dose/reproductive toxicity screening test.

Gasoline blending stocks (naphthas) are comprised of normal, iso- and cycloparaffins and aromatic hydrocarbons with carbon numbers ranging from C4 to C12. Heavy straight run naphtha (HSRN, CAS number 64741-41-9) was selected for toxicity screening because substances of this type contain relatively high levels (28%) of cycloparaffins by comparison to other naphtha streams and the data complement toxicity information on other gasoline blending streams. Rats were exposed by inhalation to wholly vaporized material at levels of approximately 100, 500, or 3000 parts per million (ppm) daily to screen the potential for systemic toxicity, neurotoxicity, reproductive toxicity, and developmental effects to postnatal day 4. All animals survived the treatment period. Principal effects of repeated exposure included increased liver weights in males and females, increased kidney weights in males, and histological changes in the thyroid, secondary to liver enzyme induction. These changes were not considered to be toxicologically meaningful and are not relevant to humans. There were no treatment-related effects in functional observation tests or motor activity; no significant reductions in fertility or changes in other reproductive parameters; and no evidence of developmental toxicity in offspring. The overall no observed adverse effect concentration was 3000 ppm (approximately 13, 600 mg/m(3)). In conclusion the HSRN effects on liver and kidney are consistent with the results of other studies of volatile fractions or other naphthas or formulated gasoline, and there were no HSRN effects on neurological developmental or reproductive parameters.

Subchronic feeding study of grain from herbicide-tolerant maize DP-Ø9814Ø-6 in Sprague-Dawley rats.

This 13-week feeding study conducted in Sprague-Dawley rats evaluated the potential health effects from long-term consumption of a rodent diet formulated with grain from genetically modified (GM), herbicide-tolerant maize DP-Ø9814Ø-6 (98140; trade name Optimum GAT (Optimum GAT is a registered trademark of Pioneer Hi-Bred)). Metabolic inactivation of the herbicidal active ingredient glyphosate was conferred by genomic integration and expression of a gene-shuffled acetylase coding sequence, gat4621, from Bacillus licheniformis; tolerance to acetolactate synthase (ALS) inhibiting herbicides was conferred by overexpression of a modified allele (zm-hra) of the endogenous maize ALS enzyme that is resilient to inactivation. Milled maize grain from untreated (98140) and herbicide-treated (98140+Gly/SU) plants, the conventional non-transgenic, near-isogenic control (091), and three commercial non-transgenic reference hybrids (33J56, 33P66, and 33R77) was substituted at concentrations of 35-38% w/w into a common rodent chow formula (PMI) Nutrition International, LLC Certified Rodent LabDiet 5002) and fed to rats (12/sex/group) for at least 91 consecutive days. Compared with rats fed diets containing grain from the conventional near-isogenic control maize, no adverse effects were observed in rats fed diets containing grain from 98140 or 98140+Gly/SU maize with respect to standard nutritional performance metrics and OECD 408-compliant toxicological response variables [OECD, 1998. Section 4 (Part 408), Health Effects: Repeated Dose 90-Day Oral Toxicity Study in Rodents, Guideline for the Testing of Chemicals. Organisation of Economic Co-operation and Development, Paris, France]. These results support the comparative safety and nutritional value of maize grain from genetically modified Optimum GAT and conventional, non-transgenic hybrid field corn.

Subchronic feeding study of high oleic acid soybeans (Event DP-3Ø5423-1) in Sprague-Dawley rats.

DP-3Ø5423-1 (305423) is a genetically-modified (GM) soybean that was produced by biolistic insertion of a gm-fad2-1 gene fragment and the gm-hra gene into the germline of soybean seeds. The gm-fad2-1 gene fragment cosuppresses expression of the endogenous FAD2-1 gene encoding the seed-specific omega-6 fatty acid desaturase resulting in higher concentrations of oleic acid (18:1) relative to linoleic acid (18:2). The gm-hra gene encoding a modified acetolactate synthase (ALS) enzyme was used as a selectable marker. In the current study, processed fractions (meal, hulls, and oil) from 305423 soybeans, non-GM soybeans with a similar genetic background (near isoline control) and three commercially-available non-GM varieties were used to formulate diets that were nutritionally comparable to PMI Certified Rodent LabDiet 5002. Diets were fed to young adult Crl:CD(SD) rats (12/sex/group) for approximately 90 days. Compared with rats fed the non-GM control diet, no biologically relevant differences were observed in rats fed the 305423 diet with respect to body weight/gain, food consumption/efficiency, mortality, clinical signs of toxicity, or ophthalmological observations. No test diet-related effects were observed on neurobehavioral assessments, organ weights, or clinical or anatomic pathology. These results demonstrated that 305423 soybeans are as safe and wholesome as non-GM soybeans.

Subchronic, reproductive, and developmental toxicity of a fluorotelomer-based urethane polymeric product.

A commercial fluorotelomer-based urethane polymeric dispersion, consisting of polymer, surfactant, and water, was evaluated in subchronic, reproduction, and developmental toxicity studies. The dispersion was administered daily by gavage to rats at dosages of 0, 50, 250, or 1000 mg polymer/kg/day or with 70 mg/kg/day of the sulfonate surfactant. Dose levels of 0, 50, 250, or 1000 mg polymer/kg/day were also used for the reproductive and developmental studies. Nasal olfactory epithelial degeneration and necrosis occurred in all dose groups in the 90-day study. Nasal adhesions were observed only in rats administered surfactant alone. Liver-enzyme alterations at 250 and 1000 mg/kg were considered to be potentially adverse effects. The subchronic no-observed-adverse-effects level (NOAEL) was 50 mg/kg. For the reproduction study, rats were dosed for 10 weeks prior to cohabitation and throughout mating, gestation, and lactation. There were no effects on reproductive function in males or females at any dosage. Thyroid weight was decreased in the 250 and 1000 mg/kg day F(1) groups unaccompanied by microscopic effects. In the developmental toxicity study, female rats were dosed from gestation days 6-20; there was no test-substance-related embryolethality, nor was there any dose-related increase in either fetal malformations. Fetal weight was minimally decreased at 1000 mg/kg/day in the presence of slight maternal toxicity; the NOAEL for developmental parameters was 250 mg/kg/day. The polymeric product was not a specific developmental or reproductive toxin.

Subchronic feeding study of herbicide-tolerant soybean DP-356Ø43-5 in Sprague-Dawley rats.

Optimum GAT1 soybean is a genetically modified (GM) soybean containing event DP-356Ø43-5 (356043) that was produced by integration of the coding sequences of the GAT4601 and GM-HRA proteins. In planta expression of these proteins confers tolerance to glyphosate and sulfonylurea/imidazolinone herbicides, respectively. This paper reports the results from a subchronic rat feeding study conducted with 356043 soybeans. Dehulled/defatted toasted meal and toasted ground hulls were prepared from soybeans from untreated plants (356043), herbicide-treated plants (356043+Gly/SU), non-transgenic isoline control (091), and three commercial non-transgenic reference varieties (93B86, 93B15, and 93M40). Individual diets conforming to standard certified rodent chow formulation (Purina Rodent LabDiet) 5002) were prepared with 20% meal (w/w) and 1.5% hulls (w/w). Diets were fed to young adult Sprague-Dawley rats (12/sex/group) for at least 93 days. Compared with rats fed the isoline control or conventional reference diets, no biologically-relevant, adverse effects were observed in rats fed diets containing 356043 or 356043+Gly/SU soybean with respect to body weight/gain, food consumption/efficiency, clinical signs, mortality, ophthalmology, neurobehavioral assessments (sensory response, grip strength, motor activity), clinical pathology (hematology, coagulation, serum chemistry, urinalysis), organ weights, and gross and microscopic pathology. The results from this study indicate that 356043 soybeans are as safe and nutritious as conventional non-GM soybeans.

90-day oral gavage toxicity study of 8-2 fluorotelomer alcohol in rats.

8-2 fluorotelomer alcohol is a fluorinated chemical intermediate used to manufacture specialty polymers and surfactants. The potential subchronic toxicity and the reversibility of the effects of this chemical were evaluated following approximately 90 days of oral gavage dosing to Crl:CD(SD)IGS BR rats. A complete toxicological profile, including neurobehavioral assessments and hepatic beta-oxidation, were conducted at selected intervals and a group of rats was included for a 90-day postdosing recovery period. Dose levels tested were 0 (control), 1, 5, 25, and 125 mg/kg. No test-substance-related mortality occurred at any dose level. Rats at 125 mg/kg developed striated teeth, such that these animals were switched to ground chow at 77 days. No treatment-related alterations in body weight, food consumption, neurobehavioral parameters, or hematology/clinical chemistry were found. Hepatic beta-oxidation was increased in males at 125 mg/kg and in females at 25 and 125 mg/kg. In both males and females, plasma fluorine levels were increased at 125 mg/kg and urinary fluorine was elevated at > or =5 mg/kg. Degeneration/disorganization of enamel organ ameloblast cells was observed at 125 mg/kg in males, but not females. Liver weight increases accompanied by focal hepatic necrosis were observed at both 25 and 125 mg/kg, and chronic progressive nephrotoxicity occurred in female rats at 125 mg/kg. With the exception of hepatocellular necrosis in males at 125 mg/kg and the increased incidence and severity of chronic progressive nephropathy in females at 125 mg/kg, all other changes showed evidence of reversibility. The no-observed-adverse-effect level was 5 mg/kg.

Subchronic feeding study of DAS-59122-7 maize grain in Sprague-Dawley rats.

59122 is a transgenic maize line containing event DAS-59122-7 that expresses the corn rootworm (CRW) specific pesticidal Cry34Ab1 and Cry35Ab1 proteins from Bacillus thuringiensis (Bt) Berliner strain PS149B1 and the phosphinothricin-N-acetyltransferase (PAT) protein from Streptomyces viridochromogenes for tolerance to the herbicidal ingredient glufosinate-ammonium. For the current study, 59122 maize grain, non-transgenic near-isogenic maize grain (091), and a commercially available non-transgenic reference maize grain (33R77) were grown under conditions simulating commercial farming practices. Adult Sprague-Dawley rats (12/sex/group) were fed diets formulated with 35% maize grain from either 59122, 091, or 33R77, or one of two separate lots of commercially available rodent chow prepared with commercially available corn (35%) in accordance with the standards of Purina Mills Labdiet 5002 for approximately 90 days. All diets possessed similar nutritional and contaminant profiles. The transgenic proteins were detected only in diets prepared with 59122 maize grain and were stable over the course of the study. Compared to control groups, no adverse diet-related differences were observed in rats fed diets formulated with 59122 maize grain with respect to body weight/gain, food consumption/efficiency, clinical signs of toxicity, mortality, ophthalmology, neurobehavioral (FOB and motor activity) assessments, clinical pathology (hematology, clinical chemistry, coagulation, and urinalysis), and pathology (organ weights and gross and microscopic pathology). Results from this study indicate that 59122 maize grain is nutritionally equivalent to and as safe as conventional maize grain.

Evaluation of effects from repeated inhalation exposure of F344 rats to high concentrations of propylene.

Chronic exposure to propylene does not result in any increased incidence of tumors, yet does increase N7-hydroxypropylguanine (N7-HPGua) adducts in tissue DNA. To investigate any potential for genotoxicity (mutagenicity or clastogenicity), male F344 rats were exposed via inhalation to up to 10,000 ppm propylene for 1, 3, or 20 days (6 h/day, 5 days/week). The endpoints examined included gene (Hprt, splenocytes) and chromosomal (bone marrow micronucleus [MN]) mutations, hemoglobin (hydroxypropylvaline, HPVal) adducts in systemic blood, and DNA adducts (N7-HPGua) in several tissues. Similarly exposed female and male F344 rats, implanted with bromodeoxyuridine (BrdU) minipumps, were evaluated for nasal effects (irritation via histopathology and cell proliferation via BrdU). Internal dose measures provided clear evidence for propylene exposure, with HPVal increased for all exposures; N7-HPGua was increased in all tissues from rats exposed for more than 1 day (except lymphocytes). Saturation of propylene conversion to propylene oxide was apparent from the adduct dose-response curves. There were no biologically significant genotoxic effects demonstrated at any exposure level, with no increase in Hprt mutant frequency or in bone marrow MN formation. In addition, no histopathological changes were noted in rodent nasal tissues nor any induction of cell proliferation in nasal tissues. These results demonstrate that repeated exposure of rats to high concentrations of propylene (< or = 10,000 ppm) does not produce evidence of local nasal cavity toxicity or evidence of systemic genotoxicity to hematopoietic tissue, despite the formation of N7-HPGua adducts. In addition, these data indicate that formation of N7-HPGua does not correlate with any measure of genotoxic effect, neither mutagenic nor clastogenic.

Subchronic inhalation exposure to acetone vapor and scheduled controlled operant performance in male rats.

Groups of adult male rats (10/group) were used to assess whether subchronic inhalation exposure to 0, 1000, 2000, or 4000 ppm of acetone vapor altered schedule-controlled operant performance. Rats were exposed to acetone vapor for 6 h/day, 5 days/wk, for a 13-wk period. Extensive training prior to the exposure series established a stable baseline of lever-pressing on a multiple fixed-ratio-fixed-interval (FR 20-FI 120 s) schedule of food presentation. Operant sessions occurred prior to each daily exposure to avoid confounding the detection of enduring behavioral effects with transient acute effects. FI response rate, FI index of curvature, and FR running rate of response were not affected during or after the 13-wk exposure series. FR post-reinforcement pause duration for the control group increased during the course of the study more than that of the 2000 ppm and 4000 ppm groups, which changed only slightly relative to pretreatment baseline. Based on the performance of historical controls that had FR pause durations similar to those of acetone-treated groups, the differences in FR pause duration were probably due to drift of the concurrent control group and were not related to acetone treatment. Prolonged exposure to up to 4000 ppm acetone vapor does not appear to have enduring effects on nervous system functions that mediate the performance of a complex, learned task.

Reproductive and repeated dose toxicity of cyclododecatriene (CDDT) in rats following oral (gavage) treatment.

Cyclododecatriene (CDDT, CAS No. 4904-61-4) was administered daily by oral gavage to groups of Crl:CD (SD)IGS BR rats at dose levels of 0 (control), 30, 100, or 300 mg/kg/day. Female rats were dosed for four weeks premating, through mating, gestation, and lactation (a total of 55 to 63 days of treatment). Male rats were treated for 55 days (four weeks premating and through mating). Premating, body weights, food consumption, and clinical signs were recorded. Hematology, clinical chemistry, and urine analyses were conducted at the end of the premating period. A neurobehavioral test battery was conducted prior to and after four weeks of treatment. After the premating period, females were paired with males from the same groups for 1-2 weeks. Litters were delivered, pups were evaluated for structural integrity, and pup body weights were recorded on days 0 and 4 postpartum. Lactating females and their offspring were sacrificed on postpartum day 4. Selected organs were weighed and the tissues were examined microscopically from the lactating females. Offspring were examined for clinical abnormalities. A test substance-related reduction in body weight gain occurred in male rats administered 300 mg/kg/day. Decreased body weight gain in the 300 mg/kg/day males was accompanied by increased food consumption and decreased food efficiency. Females administered 100 or 300 mg/kg/day had test substance-related, significantly decreased body weight and body weight gain during gestation, that was accompanied by a significant increase in food consumption (300 mg/kg/day group only), and significantly decreased food efficiency. There were no test-substance related effects on clinical observations in males or females during the premating phase, or in females during gestation or lactation. Neurobehavioral parameters and motor activity were unaffected by CDDT-treatment. During this study, statistically significant treatment-related changes were observed in several clinical pathology parameters. The decreases in red cell mass (RBC, HGB, HCT) were minimal and, due to the magnitude, were not expected to result in biological effects. Similarly, minimally increased potassium and mildly decreased triglycerides were not of a magnitude to be biologically significant. Finally, changes in serum enzymes (AST, ALT, ALP), urea nitrogen, and serum protein occurred in directions that are not associated with toxicity. The changes in urine volume, urine concentration, and urea nitrogen may be the result of elevated glomerular filtration rate and altered tubular fluid flow, in the absence of any histopathological change. No effects on reproduction in parental males or females were produced by CDDT. Body weights of pups in the 300 mg/kg group were significantly decreased on postpartum days 0 and 4. There were no test-substance related effects on clinical observations, number of pups born, and the number of pups born alive, or the number of pups surviving through lactation day 4. The no-observed-adverse-effect level (NOAEL) for CDDT was 30 mg/kg/day based on decreased body weight and body weight gain, increased food consumption, and decreased food efficiency in females administered 100 or 300 mg/kg/day. The NOEL in pups was 100 mg/kg/day, based on decreased body weights of pups in the 300 mg/kg/day group during lactation.