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discharge and mild shock,similar to what can occur when a person walks across a carpet and ' <br /> touches a grounded object or another person. <br /> The major concern with induced voltage is the current that flows through a person to the ground ' <br /> when touching the object,not the level of the induced voltage. Most shocks from induced current <br /> are considered more of a nuisance than a danger,but to ensure the safety of persons in the <br /> proximity of high-voltage transmission lines,the NESC requires that any discharge be less than 5 <br /> milliAmperes. In addition,the Commission's electric field limit of 8 kV/m was designed to prevent <br /> serious hazard from shocks due to induced voltage under high-voltage transmission lines. Proper <br /> grounding of metal objects under and/or adjacent to the transmission line is the best method of <br /> avoiding these shocks. <br /> Xcel has indicated that farm equipment,passenger vehicles,and trucks may be safely used under and <br /> near power lines. The power lines will be designed to meet or exceed minimum clearance <br /> requirements over roads,driveways,cultivated fields,and grazing lands specified by the NESC. <br /> Recommended clearances within the NESC are designed to accommodate a relative vehicle height ' <br /> of 14 feet (Xcel Energy,2011a). <br /> Implantable Devices <br /> Implantable medical devices such as pacemakers,defibrillators,neurostimulators,and insulin pumps <br /> may be subject to interference from strong electric and magnetic fields. Most of the research on <br /> electromagnetic interference and medical devices is related to pacemakers. According to a 2004 <br /> Electric Power Research Institute (EPRI) report,implantable cardiac devices are much more <br /> sensitive to electric fields than to magnetic fields. In the report,the earliest interference from <br /> magnetic fields in pacemakers was observed at 1,000 mG, far greater than the magnetic fields <br /> associated with high-voltage transmission lines (EPRI,2004). Therefore,the focus of research has <br /> been on electric field impacts. <br /> Electric fields may interfere with an implanted cardiac device's ability to sense normal electrical <br /> activity in the heart if the electric field intensity is high enough to induce body currents strong <br /> enough to cause interaction. In the unlikely event a pacemaker is impacted,the effect is typically a <br /> temporary asynchronous pacing(commonly referred to as reversion mode or fixed rate pacing). The <br /> pacemaker returns to its normal operation When the person moves away from the source of the <br /> interference. <br /> Medtronic and Guidant,manufacturers of pacemakers and implantable cardioverter/ defibrillators, <br /> have indicated that electric fields below 6 kV/m are unlikely to cause interactions affecting operation <br /> of modern bipolar devices (Department of Commerce,2009). Older unipolar designs,however,are <br /> more susceptible to interference from electric fields with research suggesting that the earliest <br /> evidence of interference occurred in electric fields ranging from 1.2 to 1.7 kV/m (Toivonen et al, <br /> 1991). These initial interaction levels are significantly higher than 1.09 kV/m maximum electric field <br /> predicted for this project. The risk of interference inhibition of unipolar cardiac pacemakers from <br /> high-voltage power lines in everyday life is small (Scholten et al,2004). <br /> There would be no anticipated permanent impacts on implantable medical devices as a result of the <br /> proposed project. <br /> Environmental Assessment <br /> PUC Docket E002/TL-11-223 Page 38 <br /> 1 <br />