Effects of repeated pesticide exposure on the peripheral and central nervous systems |
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Authors: | Sae-Yong Hong Joong-Rock Hong Jong-Oh Yang Eun-Young Lee Dushin Jeong |
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Affiliation: | 1. Department of Internal Medicine , Soonchunhyang University Choenan Hospital , Cheonan, Korea;2. Institute of Pesticide Poisoning , Soonchunhyang University Choenan Hospital, Cheonan, Korea;3. Department of Neurology , Soonchunhyang University Choenan Hospital , Cheonan, Korea |
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Abstract: | This study was designed to compare organic farmers (comparison group) and pesticide-using farmers (pesticide group) in terms of neurobehavioral performance and sensorimotor function. The subjects were recruited in October 2004 from Chungnam Province and the neighboring Jeolla Province in western South Korea. Psychological assessment was carried out using the Wechsler Adult Intelligence Scale, the Mini-Mental State Examination, and the Bender Gestalt test. Neuroselective sensory nerve conduction threshold was measured at both left and right middle fingers by using an electrodiagnostic device to determine current perception thresholds (CPTs). Three independent CPT measurements were obtained from each test site by using sinusoidal stimuli at three frequencies. CPT testing showed no difference between the two groups. No significant differences were found in the large myelinated (2000?Hz stimulation; cutaneous touch, pressure), small myelinated (250?Hz stimulation; mechanoreceptive, pressure, temperature, fast pain) and small unmyelinated (5?Hz stimulation; polymodal nociceptive, temperature, slow pain, postganglionic sympathetic) C-fibers. Furthermore, there was no difference found between the pesticide and comparison groups in psychological variables, including intelligence quotient, orientation, memory, calculation, similarities, visual sensitivity, and psychomotor speed. In conclusion, chronic pesticide exposure has no apparent effect on either the peripheral or central nervous system in Korean farmers. |
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Keywords: | Chronic pesticide exposure neurotoxicity neurobehavioral test organic farming central nervous system |
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