Impaired neuromotor functions in hospital laboratory workers exposed to low levels of organic solvents
Autor: | Guillaume Herpin, J M Mur, Alexandre Vouriot, Alain Barot, Denis Zmirou-Navier, Philippe P. Perrin, Gérome C. Gauchard, Bernard Hannhart |
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Rok vydání: | 2008 |
Předmět: |
medicine.medical_specialty
Sensory system Audiology Toxicology Smooth pursuit Developmental psychology Occupational Exposure Surveys and Questionnaires medicine Humans Motor Neuron Disease Postural Balance Balance (ability) Vestibular system General Neuroscience Posturography Neurotoxicity Motor control Middle Aged medicine.disease Laboratories Hospital Gaze Occupational Diseases Solvents Female Psychology Psychomotor Performance |
Zdroj: | Neurotoxicity research. 13(3-4) |
ISSN: | 1029-8428 |
Popis: | Solvents are ubiquitous in industrial societies in a wide range of processes, and long-term exposure to these organic compounds may impair neuromotor functions such as equilibrium function. However, there is limited knowledge of effects on posture and gaze control after organic solvent exposures below workplace threshold limit values. The aim of this study was to evaluate the consequences of low-level co-exposure to organic solvents on balance and gaze control in hospital laboratory workers. Twelve hospital laboratory female subjects mainly exposed to toluene and ethanol, with median exposure duration of 24 years, and 12 non-exposed female controls were submitted to posturography and oculomotricity testings including sensory organization and motor control tests and saccade and smooth pursuit tests. Although current measured exposure values to toluene and ethanol were much below workplace threshold limit values (current median exposure levels of 32.5 mg/cubic meter and 39.9 mg/cubic meter, respectively), exposed workers displayed a weaker balance and a less precise gaze control. They presented, on the one hand, a reduced ability to resolve sensorial conflict situations compared to controls, particularly when situations were managed by the vestibular information, and, on the other hand, longer saccadic reaction time. Organic solvents might have an impact on vestibular pathways involved in postural control and exert a depressant central pathway effect implicated in the management of oculomotor response. Evaluating balance control in sensory conflicting situations and saccadic reaction time is proposed as a way to reveal subclinical neurotoxicological effects due to low-level exposure to organic solvents. |
Databáze: | OpenAIRE |
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