18 research outputs found

    Comprehensive neurotoxicity assessment

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    Significant progress has been made in recent years in terms of both the conceptualization of neurotoxicity assessment strategies as well as in the development of behavioral techniques for evaluating neurotoxic exposures. A tiered approach, for example, has been advocated as an assessment strategy in which testing would proceed in a stepwise fashion from general screening using simple behavioral methods and neuropathology (tier 1) to the characterization of effects (tier 2) using more specific testing techniques. With respect to tier-1 testing, behavioral observational methods have been standardized for screening purposes, and these technically simple techniques, together with automated methods for motor activity assessment, are being increasingly incorporated into chemical and drug safety evaluations for regulatory purposes. With respect to tier-2 testing, more technically sophisticated techniques and behavioral paradigms are available for characterizing the behavioral effects of chemical exposures on motor, sensory, and cognitive processes. Paradigms involving learned and unlearned behavior, for example, have been described for quantifying a variety of clinical signs of motor impairment including paretic gait disorders, tremor, and coordination deficits. Likewise, robust noninvasive behavioral methods capable of tracking changes in visual, auditory, and somatosensory thresholds during the course of exposure are also available. With respect to cognitive testing, numerous maze and operant techniques and paradigms measuring different aspects of performance, learning, and memory have been elaborated. This paper presents an overview of behavioral techniques currently used to assess neurotoxicity in adult laboratory animals and discusses their application to hazard identification and other areas of risk assessment. Chemicals/CAS: Neurotoxin

    Assessment techniques for detecting neurobehavioral toxicity

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    Neurobehavioral effects of acute exposure to aromatic hydrocarbons

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    This article reports the results of neurobehavioral tests on representative aromatic constituents, specifically C9 to C11 species. The testing evaluated effects in several domains including clinical effects, motor activity, functional observations, and visual discrimination performance. Exposures ranging from 600 to 5000 mg/m3, depending on the molecular weights of the specific aromatic constituents, produced minor, reversible effects on the central nervous system (CNS), particularly in the domains of gait and visual discrimination. There was little evidence of effects at lower exposure levels. There was some evidence of respiratory effects at 5000 mg/m3 in 1 study, and there were also minor changes in body weight and temperature. The CNS effects became less pronounced with repeated exposures, corresponding to lower concentrations in the brain of 1 representative substance, 1,2,4-trimethyl benzene (TMB). At high exposure levels, the alkyl benzenes apparently induced their own metabolism, increasing elimination rates. © 2010 The Author(s)

    Experimental exposure to alcohol as a model for the evaluation of neurobehavioural tests

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    The performance characteristics of 4 computerized psychological tests were studied using alcohol as a model compound. Subjects received alcohol (0.5 ml/kg) or placebo in a cross-over design and performance was assessed using the Simple Reaction Time test, the Switching Attention test, the Hand/Eye Coordination test and the Color-Word Vigilance test. Analyses indicated an overall significant effect of alcohol at blood-alcohol levels of 0.03% with response speed on the Color-Word Vigilance test being the most sensitive parameter. Chemicals/CAS: alcohol, 64-17-5; Ethanol, 64-17-

    Behavioral effects of exposure to organic solvents in carpet layers

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    Carpet layers and age-matched controls were investigated both at the beginning of a working day and at the end with four subtests of a neuropsychological test battery (NES2). Exposure to toluene, cyclohexane, ethyl acetate, and heptane was measured with personal air sampling methods. One group of carpet layers used water-based adhesives (WBA) on the day the investigation took place and the other group used contact adhesives (CA) on that day. The WBA group was exposed primarily to toluene, and the CA group was exposed to other solvents as well. Initial (before work) differences in neuropsychological scores between all exposed workers and controls could be attributed to differences in education, the carpet layers being somewhat higher educated. No differences were found between the solvent-exposed and control groups that would suggest persistent effects of chronic solvent exposures. The improvement in test scores over the day was the same in both groups. However, evidence for exposure-related changes in test scores over the day were found within the exposed group

    Changes in regional brain GFAP levels and behavioral functioning following subchronic lead acetate exposure in adult rats

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    Adult male WAG/Rij/MBL rats were dosed with lead acetate at 0, 4.0, 8.0 or 12.5 mg/kg, 5 days per week for 4 weeks. Animals were assessed prior to exposure, at the end of the 4-week exposure period and after a 2-week recovery period using a functional observational battery (FOB) and motor activity assessment. Rats were sacrificed two weeks after the last test session and glial fibrillary acidic protein (GFAP) concentrations were measured in eight selected brain regions. A dose-dependent decrease in motor activity was observed immediately following the end of the exposure period with no differences observed 2 weeks after cessation of exposure. Alterations in gait, decreased fore-and hindlimb grip strength, and decreased arousal were also found. Behavioral changes were accompanied by reduced weight gain and decreased body temperature during the course of exposure. GFAP concentrations were elevated in the frontal cortex, occipital cortex, striatum and hippocampus but not in thalamus, cerebellum or brain stem. These results indicate that lead causes functional effects in the adult rat which can be detected by neurobehavioral methods. Furthermore, region-specific alterations in brain GFAP concentrations provided evidence of specificity of lead neurotoxicity in the adult brain

    Differential susceptibility of rats and guinea pigs to the ototoxic effects of ethyl benzene

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    The present study was designed to compare the ototoxic effects of volatile ethyl benzene in guinea pigs and rats. Rats showed deteriorated auditory thresholds in the mid-frequency range, based on electrocochleography, after 550-ppm ethyl benzene (8 h/day, 5 days). Outer hair cell (OHC) loss was found in the corresponding cochlear regions. In contrast, guinea pigs showed no threshold shifts and no OHC loss after exposure to much higher ethyl benzene levels (2500 ppm, 6 h/day, 5 days). Subsequently, a limited study (four rats and four guinea pigs) was performed in an attempt to understand these differences in susceptibility. Ethyl benzene concentration in blood was determined in both species after exposure to 500-ppm ethyl benzene (8 h/day, 3 days). At the end of the first day, blood of the rats contained 23.2±0.8-μg/ml ethyl benzene, whereas the concentration in guinea pig blood was 2.8±0.1 μg/ml. After 3 days, the concentration in both species decreased with respect to the first day, but the ethyl benzene concentration in rat blood was still 4.3 times higher than that in guinea pig blood. Thus, the difference in susceptibility between the species may be related to the ethyl benzene concentration in blood. © 2002 Elsevier Science Inc. All rights reserved. Chemicals/CAS: Benzene Derivatives; ethylbenzene, 100-41-

    The ototoxic effects of ethyl benzene in rats

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    Exposure to organic solvents has been shown to be ototoxic in animals and there is evidence that these solvents can induce hearing loss in humans. In this study, the effects of inhalation of the possibly ototoxic solvent ethyl benzene on the cochlear function and morphology were evaluated using three complementary techniques: (1) reflex modification audiometry (RMA), (2) electrocochleography and (3) histological examination of the cochleas. Rats were exposed to either ethyl benzene (800 ppm, 8 h/day for 5 days) or to control conditions. The RMA threshold increased significantly by about 25 dB, 1 and 4 weeks after the exposure, irrespective of the stimulus frequency tested (4-24 kHz). Electrocochleography was performed between 8 and 11 weeks after exposure to the organic solvent. The threshold for the compound action potential increased significantly by 10-30 dB at all frequencies tested (1-24 kHz). Histological examination of the cochlea showed outer hair cell (OHC) loss, especially in the upper basal and lower middle turns (corresponding to the mid-frequency region) to an extent of 65%. We conclude that exposure to 800 ppm ethyl benzene for 8 h/day during 5 days induces hearing loss in rats due to OHC loss

    Neurobehavioral effects of cyclohexane in rat and human

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    The neurobehavioral effects of inhaled cyclohexane in rats and humans are investigated to define relationships between internal doses and acute central nervous system effects. Rats are exposed for 3 consecutive days at target concentrations of 0, 1.4, 8, and 28 g/m3, 8 h/d. Measurements include standardized observational measures, spontaneous motor activity assessments, and learned visual discrimination performance. Cyclohexane concentrations in blood and brain are measured to assess internal exposure. Human volunteers are exposed for 4 hours to 86 or 860 mg/m3 in 2 test sessions. Neurobehavioral effects are measured using a computerized neurobehavioral test battery. In rats, there are slight reductions in psychomotor speed in the high-exposure group but minimal central nervous system effects. In humans, there are no significant treatment-related effects at the levels tested. © The Author(s) 2009
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