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. 2010 Jul 19:5:21.
doi: 10.1186/1745-6673-5-21.

Nerve conduction in relation to vibration exposure - a non-positive cohort study

Helena Sandén  1 Andreas JonssonB Gunnar WallinLage BurströmRonnie LundströmTohr NilssonMats Hagberg
Affiliations

Nerve conduction in relation to vibration exposure - a non-positive cohort study

Helena Sandén et al. J Occup Med Toxicol. .

Abstract

Background: Peripheral neuropathy is one of the principal clinical disorders in workers with hand-arm vibration syndrome. Electrophysiological studies aimed at defining the nature of the injury have provided conflicting results. One reason for this lack of consistency might be the sparsity of published longitudinal etiological studies with both good assessment of exposure and a well-defined measure of disease. Against this background we measured conduction velocities in the hand after having assessed vibration exposure over 21 years in a cohort of manual workers.

Methods: The study group consisted of 155 male office and manual workers at an engineering plant that manufactured pulp and paper machinery. The study has a longitudinal design regarding exposure assessment and a cross-sectional design regarding the outcome of nerve conduction. Hand-arm vibration dose was calculated as the product of self-reported occupational exposure, collected by questionnaire and interviews, and the measured or estimated hand-arm vibration exposure in 1987, 1992, 1997, 2002, and 2008. Distal motor latencies in median and ulnar nerves and sensory nerve conduction over the carpal tunnel and the finger-palm segments in the median nerve were measured in 2008. Before the nerve conduction measurement, the subjects were systemically warmed by a bicycle ergometer test.

Results: There were no differences in distal latencies between subjects exposed to hand-arm vibration and unexposed subjects, neither in the sensory conduction latencies of the median nerve, nor in the motor conduction latencies of the median and ulnar nerves. Seven subjects (9%) in the exposed group and three subjects (12%) in the unexposed group had both pathological sensory nerve conduction at the wrist and symptoms suggestive of carpal tunnel syndrome.

Conclusion: Nerve conduction measurements of peripheral hand nerves revealed no exposure-response association between hand-arm vibration exposure and distal neuropathy of the large myelinated fibers in a cohort of male office and manual workers.

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Figures

Figures 1
Figures 1
a-e: Nerve conduction and skin temperature in different classes of vibration exposure. Median values (-) are presented within the interquartile box. The difference between the quartiles is the interquartile range (Q3-Q1). The whiskers extend to the farthest point that is still within 1.5 interquartile ranges from the quartiles. Grand mean is presented with a line.
Figure 2
Figure 2
Power curve, median nerve, distal motor latency, right hand.
Figure 3
Figure 3
Power curve, median nerve, sensory latency, palm-wrist, right hand.
See this image and copyright information in PMC

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