・参考文献
Ahlbom A, Day N, Feychting M, Roman E, Skinner
J,Dockerty J, Linet M, McBride M, Michaelis J, Olsen
JH,Tynes T, Verkasalo PK. A pooled analysis of
magneticfields and childhood leukaemia. Br J Cancer
83:692_ 698;2000.
Attwell D. Interaction of low frequency electric fields with
thenervous system: the retina as a model system.
Radiat ProtectDosim 106:341_348; 2003.
Bahr A, Bolz T, Hennes C. Numerical dosimetry ELF:
Accuracyof the method, variability of models and
parameters,and the implication for quantifying
guidelines. Health Phys92:521_530; 2007.
Barth A, Ponocny I, Ponocny-Seliger E, Vana N, Winker
R.Effects of extremely low-frequency magnetic field
exposureon cognitive functions: results of a
meta-analysis. Bioelectromagnetics31:173_179; 2010.
Cech R, Leitgeb N, Pediaditis M. Current densities in a
pregnant woman model induced by simultaneous
ELF electric and magnetic field exposure. Phys Med
Biol 53:177?186; 2008.
Cook CM, Thomas AW, Prato FS. Human
electrophysiological and cognitive effects of
exposure to ELF magnetic and ELF modulated RF
and microwave fields: a review of recent studies.
Bioelectromagnetics 23:144 ?157; 2002.
Cook CM, Saucier DM, Thomas AW, Prato FS.
Exposure to ELF magnetic and ELF-modulated
radiofrequency fields: the time-course of
physiological and cognitive effects observed in
recent studies (2001?2005). Bioelectromagnetics
27:613?_627; 2006.
Crasson M. 50-60 Hz electric and magnetic field effects
on cognitive function in humans: a review. Radiat
Protect Dosim 106:333?340; 2003.
Crumpton MJ, Collins AR. Are environmental
electromagnetic fields genotoxic_DNA Repair
(Amst) 3:1385_1387; 2004.
Dimbylow PJ. Development of the female voxel
phantom, NAOMI and its application to calculations
of induced current densities and electric fields from
applied low frequency magnetic and electric fields.
Phys Med Biol 50:1047_1070; 2005.
Dimbylow PJ. Development of pregnant female, hybrid
voxelmathematical models and their application to
the dosimetry of applied magnetic and electric fields
at 50 Hz. Phys Med Biol 51:2383_2394; 2006.
Garcia AM, Sisternas A, Hoyos SP. Occupational
exposure to extremely low frequency electric and
magnetic fields and Alzheimer disease: a
meta-analysis. Int J Epidemiol 37:329 _340; 2008.
Greenland S, Sheppard AR, Kaune WT, Poole C, Kelsh
MA. A pooled analysis of magnetic fields, wire
codes, and childhood leukemia. Epidemiol 11:624_634; 2000.
Hirata A, Wake K, Watanabe S, Taki M. In-situ electric
field and current density in Japanese male and
female models for uniform magnetic field exposures.
Radiat Protect Dosim 135:272_275; 2009.
Huss A, Spoerri A, Egger M, Ro¨o¨sli M. Residence near
power lines and mortality from neurodegenerative
diseases: longitudinal study of the Swiss population.
Am J Epidemiol 169:167?175; 2009.
International Agency for Research on Cancer. Static and
extremely low frequency electric and magnetic
fields. Lyon, France: IARC; IARC Monographs on
the Evaluation of Carcinogenic Risk to Humans
Volume 80; 2002.
International Commission on Non-Ionizing Radiation
Protection. Guidelines for limiting exposure to
time-varying electric, magnetic, and
electromagnetic fields (up to 300 GHz). Health Phys
74:494 ?522; 1998.
International Commission on Non-Ionizing Radiation
Protection. General approach to protection against
non-ionizing radiation. Health Phys 82:540 _548;
2002.
International Commission on Non-Ionizing Radiation
Protection. Exposure to static and low frequency
electromagnetic fields, biological effects and health
consequences (0?100 kHz). In: Bernhardt JH,
Matthes R, McKinlay A, Vecchia P, Veyret B, eds.
Review of the scientific evidence and health
16
consequences. Munich: ICNIRP; 2003a.
International Commission on Non-Ionizing Radiation
Protection. Guidance on determining compliance of
exposure to pulsed and complex non-sinusoidal
waveforms below 100 kHz with ICNIRP guidelines.
Health Phys 84:383_387; 2003b.
International Commission on Non-Ionizing Radiation
Protection. Medical magnetic resonance (MR)
procedures: protection of patients. Health Phys
87:197_216; 2004.
International Commission on Non-Ionizing Radiation
Protection. Guidelines on limiting exposure to static
magnetic fields. Health Phys 96:504 ?514; 2009.
International Electrotechnical Commission. Exposure to
electric or magnetic fields in the low and
intermediate frequency range?methods for
calculating the current density and internal electric
field induced in the human body. IEC 62226; 2004.
International Electrotechnical Commission.
Measurement methods for electromagnetic fields of
household appliances and similar apparatus with
regard to human exposure. IEC 62233; 2005a.
International Electrotechnical Commission. Medical
electrical equipment_part 1: general requirements
for safety; 2: collateral standard: electromagnetic
compatibility?requirements and tests. IEC
60601-1-2; 2005b.
IEEE. IEEE 1308 Recommended Practice for
Instrumentation: Specifications for Magnetic Flux
Density and Electric Field Strength Meters - 10 Hz
to 3 kHz. IEEE, Piscataway; 1994. IEEE. IEEE
644-1994 (Reaff 2008).
IEEE Standard Procedures for Measurement of Power
Frequency Electric and Magnetic Fields from AC
Power Lines; IEEE, Piscataway; 2008.
Jefferys JG. Experimental neurobiology of epilepsies.
Curr Opin neurol 7:113_122; 1994.
Jokela K. Restricting exposure to pulsed and broadband
magnetic fields. Health Phys 79:373?388; 2000.
Jokela K. Assessment of complex emf exposure
situations including inhomogeneous field
distribution. Health Phys 92:531?540; 2007.
Juutilainen J. Developmental effects of extremely low
frequency electric and magnetic fields. Radiat
Protect Dosim 106:385?390; 2003.
Juutilainen J. Developmental effects of electromagnetic
fields. Bioelectromagnetics 7:107?115; 2005.
Kanai R, Chaieb L, Antal A, Walsh V, Paulus W.
Frequencydependent electrical stimulation of the
visual cortex. Curr Biol 18:1839 _1843; 2008.
Kheifets L, Ahlbom A, Johansen C, Feychting M, Sahl J,
Savitz D. Extremely low-frequency magnetic fields
and heart disease. Scand J Work Environ Health
33:5_12; 2007.
Kheifets L, Bowman JD, Checkoway H, Feychting M,
Harrington M, Kavet R, Marsh G, Mezei G, Renew
DC, van Wijngaarden E. Future needs of
occupational epidemiology of extremely low
frequency electric and magnetic fields: review and
recommendations. Occup Environ Med 66:72? 80;
2009.
McNamee DA, Legros AG, Krewski DR, Wisenberg G,
Prato FS, Thomas AW. A literature review: the
cardiovascular effects of exposure to extremely low
frequency electromagnetic fields. Int Arch Occup
Environ Health 82:919 _933; 2009.
Nagaoka T, Watanabe S, Sakurai K, Kunieda E,
Watanabe S, Taki M, Yamanaka Y. Development of
realistic highresolution whole-body voxel models of
Japanese adult males and females of average height
and weight, and application of models to
radio-frequency electromagneticfield dosimetry.
Phys Med Biol 49:1_15; 2004.
Nyenhuis JA, Bourland JD, Kildishev AV, Schaefer DJ.
Health effects and safety of intense gradient fields.
In: Shellock F, ed. Magnetic resonance procedures:
Health effects and safety. Boca Raton, FL: CRC
Press; 2001: 31_54.
Pogosyan A, Gaynor LD, Eusebio A, Brown P. Boosting
cortical activity at beta-band frequencies slows
movement in humans. Curr Biol 19:1_5; 2009.
Reilly J. Applied bioelectricity: from electrical
stimulation to electropathology. New York:
Springer-Verlag; 1998.
Reilly JP. Comments concerning “guidelines for limiting
exposure to time-varying electric, magnetic and
electromagnetic fields (up to 300 GHz). Health Phys
76:314 _315; 1999.
Reilly JP. Neuroelectric mechanisms applied to low
frequency electric and magnetic field exposure
guidelines_part I: sinusoidal waveforms. Health
Phys 83:341?355; 2002.
Reilly J, Diamant A. Spatial relationships in
electrostimulation: application to electromagnetic
field standards. IEEE Trans on Biomed Eng
50:783_785; 2003.
Rubin GJ, Das Munshi J, Wessely S. Electromagnetic
hypersensitivity: a systematic review of provocation
studies. Psychosom Med 67:224 _232; 2005.
Saunders RD, Jefferys JG. Weak electric field
interactions in the central nervous system. Health
Phys 83:366 ?375; 2002.
Saunders RD, Jefferys JG. A neurobiological basis for
ELF guidelines. Health Phys 92:596?603; 2007.
So PPM, Stuchly MA, Nyenhuis JA. Peripheral nerve
stimulation by gradient switching fields in magnetic
resonance imaging. IEEE Trans on Biomed Eng
51:1907_1914; 2004.
Stuchly MA, Dawson TW. Human body exposure to
power lines: relation of induced quantities to
external magnetic field. Health Phys 83:333_340;
2002.World Health Organization. Environmental Health
Criteria 238. Extremely low frequency (ELF) fields.
Geneva: World Health Organization; 2007a.
World Health Organization. Electromagnetic fields and
public health: exposure to extremely low frequency
fields. Fact Sheet No 322. Geneva: World Health
Organization; 2007b.
Xi W, Stuchly MA. High spatial resolution analysis of
electric currents induced in men by ELF magnetic
fields. Appl Comput Electromagn Soc J 9:127_134;1994.