Brief exposure to a 50 Hz, 100 μT magnetic field: Effects on reaction time, accuracy, and recognition memory

The present study investigated both the direct and delayed effects of a 50 Hz, 100 microT magnetic field on human performance. Eighty subjects completed a visual duration discrimination task, half being exposed to the field and the other half sham exposed. The delayed effects of this field were also examined in a recognition memory task that followed immediately upon completion of the discrimination task, Unlike our earlier studies, we were unable to find any effects of the field on reaction time and accuracy in the visual discrimination task. However, the field had a delayed effect on memory, producing a decrement in recognition accuracy. We conclude that after many years of experimentation, finding a set of magnetic field parameters and human performance measures that reliably yield magnetic field effects is proving elusive. Yet the large number of significant findings suggests that further research is warranted.

[1]  C J Whittington,et al.  Human performance and physiology: a statistical power analysis of ELF electromagnetic field research. , 1996, Bioelectromagnetics.

[2]  Edgar Erdfelder,et al.  GPOWER: A general power analysis program , 1996 .

[3]  Stephen D. Smith Possible health effects of exposure to residential electric and magnetic fields , 1997 .

[4]  Z. Sienkiewicz,et al.  Deficits in spatial learning after exposure of mice to a 50 Hz magnetic field. , 1998, Bioelectromagnetics.

[5]  J. Podd,et al.  Do ELF magnetic fields affect human reaction time? , 1995, Bioelectromagnetics.

[6]  H. A. Sadafi,et al.  Neuropsychological sequelae of 50 Hz magnetic fields , 2001, International journal of radiation biology.

[7]  D. House,et al.  Empirical test of an ion parametric resonance model for magnetic field interactions with PC-12 cells. , 1994, Bioelectromagnetics.

[8]  H D Cohen,et al.  Nocturnal melatonin levels in human volunteers exposed to intermittent 60 Hz magnetic fields. , 1996, Bioelectromagnetics.

[9]  H D Cohen,et al.  Dose response study of human exposure to 60 Hz electric and magnetic fields. , 1994, Bioelectromagnetics.

[10]  W. Legros,et al.  50 Hz magnetic field exposure influence on human performance and psychophysiological parameters: two double-blind experimental studies. , 1999, Bioelectromagnetics.

[11]  C. Polk,et al.  Biological effects of low-level low-frequency electric and magnetic fields , 1991 .

[12]  H. Lai,et al.  Spatial learning deficit in the rat after exposure to a 60 Hz magnetic field. , 1996, Bioelectromagnetics.

[13]  H D Cohen,et al.  A replication study of human exposure to 60-Hz fields: effects on neurobehavioral measures. , 1992, Bioelectromagnetics.

[14]  M. Carino,et al.  Acute exposure to a 60 Hz magnetic field affects rats' water-maze performance. , 1998, Bioelectromagnetics.

[15]  V. Jousmäki,et al.  Effects of 45-Hz magnetic fields on the functional state of the human brain. , 1993, Bioelectromagnetics.

[16]  R. Becker,et al.  Effect of Magnetic Fields on Reaction Time Performance , 1967, Nature.

[17]  W S Gunn,et al.  Exercise testing in the evaluation of human responses to powerline frequency fields. , 1988, Aviation, space, and environmental medicine.

[18]  A W Preece,et al.  The effect of a 50 Hz magnetic field on cognitive function in humans. , 1998, International journal of radiation biology.

[19]  J. Podd,et al.  Acute effects of 50 Hz, 100 microT magnetic field exposure on visual duration discrimination at two different times of the day. , 1998, Bioelectromagnetics.

[20]  J. Podd,et al.  Acute effects of 50 Hz magnetic field exposure on human visual task and cardiovascular performance. , 1996, Bioelectromagnetics.

[21]  D. Conroy,et al.  Psychological effects of chronic exposure to 50 Hz magnetic fields in humans living near extra-high-voltage transmission lines. , 1997, Bioelectromagnetics.