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T. Dan Bracken Richard F. Rankin Russell S. Senior J. Richard Alldredge Stanley S. Sussman 《Bioelectromagnetics》1995,16(4):216-226
The Electric and Magnetic Field Measurement Project for Utilities—the Electric Power Research Institute (EPRI) Electric and Magnetic Field Digital Exposure (EMDEX) Project (the EPRI EMDEX Project)—was a multifaceted project that entailed technology transfer, measurement protocol design, data management, and exposure assessment analyses. This paper addresses one specific objective of the project: the collection, analysis, and documentation of power-frequency magnetic field exposures for a diverse population of utility workers. Field exposure data measured by an EMDEX system were collected by volunteer utility employees at 59 sites in four countries between September, 1988, and September, 1989. Specially designed sampling procedures and data collection protocols were used to ensure uniform implementation across sites. Volunteers within 13 job classifications recorded which of eight work or three nonwork environments they occupied while wearing an EMDEX meter. Approximately 50,000 hours of magnetic field exposure records taken at 10 s intervals were obtained, about 70% of which were from work environments. Exposures and time spent in environments were analyzed by primary work environment, by occupied environment, and by job classification. Generally, for utility-specific job classifications related to the generation, transmission, and distribution of electricity, the field and exposure measurements in terms of workday mean field were higher than in more general occupations. The job classifications with the highest (median workday mean) exposure were substation operators (0.7 μT) and electricians (0.5μT). Total variance also tended to be largest for utility-specific job classifications. For these workers, the contributions of between-worker and within-worker variances to total variance were about the same. Measurements in utility-specific environments were higher than in more general environments. Estimates of time-integrated exposure indicated that utility-specific job classifications received about one-half or more of their total exposure on the job. The nonwork field and exposure distributions for workers in all job categories were comparable with median nonworkday means of about 0.09 μT. © 1995 Wiley-Liss, Inc. 相似文献
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Asbestos is a recognized carcinogen which is widely available for environmental exposure. Since all members of our society are exposed to asbestos containing environments and, indeed, have asbestos fibres in their lungs, the concern exists as to its significance in contributing to the incidence of lung cancer in such populations. The asbestos burden was compared in lung tissue from control and lung cancer patients who had resided in a non-urban environment. There were no significant differences between the asbestos burdens in both age matched groups; however, the proportions of amphiboles to chrysotile were different from those reported in previous urban based studies. This difference was suggested to be attributable to chrysotile exposure in urban air. All patients had appreciable non-asbestos fibres within their lungs. The results indicate that when comparing any dust burden in lungs, it is necessary to have data from regional control populations before attempting to explore causal-disease relationships. 相似文献
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Across phylogeny, early experience plays a critical role in nervous system development. In these experiments, we investigated the long-term effects that specific patterns of sensory experience during development had on the biology and function of the Caenorhabditis elegans nervous system. The delivery of a specific pattern of mechanosensory stimulation in the first larval stage (L1) produced significant enhancement in the tap withdrawal behavioral response, expression patterns of an ionotropic glutamate receptor (iGluR) subunit and mRNA levels for that receptor in 3-day-old adult worms and a depression of these same three measures in 5-day-old adult worms. A critical period for the 3-day enhanced behavior and GLR distribution was observed in L1, whereas there was no critical period for the depressed effects observed in 5-day-old worms. The spaced pattern of stimulation was essential for expression of this effect: Various forms of massed training produced neither the enhancement at 3 days nor the depression at 5 days. The 5-day depressed behavioral response had many features in common with long-term memory, including sensitivity to disruption following retrieval. The different behavioral and molecular effects that early patterned mechanosensory stimulation produced in 3 and 5-day-old worms led us to hypothesize that separate cellular phenomena produced the enhanced 3-day and depressed 5-day behaviors and molecular effects. 相似文献
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Generating muscle-driven forward dynamics simulations of human movement using detailed musculoskeletal models can be computationally expensive. This is due in part to the time required to calculate musculotendon geometry (e.g., musculotendon lengths and moment arms), which is necessary to determine and apply individual musculotendon forces during the simulation. Modeling upper-extremity musculotendon geometry can be especially challenging due to the large number of multi-articular muscles and complex muscle paths. To accurately represent this geometry, wrapping surface algorithms and/or other computationally expensive techniques (e.g., phantom segments) are used. This paper provides a set of computationally efficient polynomial regression equations that estimate musculotendon length and moment arms for thirty-two (32) upper-extremity musculotendon actuators representing the major muscles crossing the shoulder, elbow and wrist joints. Equations were developed using a least squares fitting technique based on geometry values obtained from a validated public-domain upper-extremity musculoskeletal model that used wrapping surface elements (Holzbaur et al., 2005). In general, the regression equations fit well the original model values, with an average root mean square difference for all musculotendon actuators over the represented joint space of 0.39 mm (1.1% of peak value). In addition, the equations reduced the computational time required to simulate a representative upper-extremity movement (i.e., wheelchair propulsion) by more than two orders of magnitude (315 versus 2.3 s). Thus, these equations can assist in generating computationally efficient forward dynamics simulations of a wide range of upper-extremity movements. 相似文献