50 Hz magnetic field effects on the performance of a spatial learning task by mice med./bio.

Exposure

• • 50/60 Hz
  • magnetic field

Related articles

• Zhang Y et al. (2017): Theta-gamma coupling in hippocampus during working memory deficits induced by low frequency electromagnetic field exposure
• Lai J et al. (2016): Effects of extremely low frequency electromagnetic fields (100 µT) on behaviors in rats
• Bernal-Mondragón C et al. (2016): Effects of repeated 9 and 30-day exposure to extremely low-frequency electromagnetic fields on social recognition behavior and estrogen receptors expression in olfactory bulb of Wistar female rats
• Li Y et al. (2014): Disturbance of the magnetic field did not affect spatial memory
• Foroozandeh E et al. (2013): Toxic effects of 50 Hz electromagnetic field on memory consolidation in male and female mice
• Cui Y et al. (2012): Deficits in water maze performance and oxidative stress in the hippocampus and striatum induced by extremely low frequency magnetic field exposure
• He LH et al. (2011): Effects of extremely low frequency magnetic field on anxiety level and spatial memory of adult rats
• Lopuch S (2009): A magnetic field effect on learning in male golden hamsters
• Liu T et al. (2008): Anxiogenic effect of chronic exposure to extremely low frequency magnetic field in adult rats
• Fu Y et al. (2008): Long-term exposure to extremely low-frequency magnetic fields impairs spatial recognition memory in mice
• Liu T et al. (2008): Chronic exposure to low-intensity magnetic field improves acquisition and maintenance of memory
• Che Y et al. (2007): Effects of exposure to 50 Hz magnetic field of 1mT on the performance of detour learning task by chicks
• Reyes-Guerrero G et al. (2006): Effects of 17 b-estradiol and extremely low-frequency electromagnetic fields on social recognition memory in female rats: A possible interaction?