Skin Temperature Changes Induced by Strong Static Magnetic Field Exposure

Shigeru Ichioka, Masayuki Minegishi, Masakazu Iwasaka, Masahiro Shibata, Takashi Nakatsuka, Joji Ando, Shoogo Ueno

Research output: Contribution to journalArticlepeer-review

20 Citations (Scopus)


High intensity static magnetic fields, when applied to the whole body of the anesthetized rat, have previously been reported to decrease skin temperature. The hypothesis of the present study was that in diamagnetic water, molecules in the air play significant roles in the mechanism of skin temperature decrease. We used a horizontal cylindrical superconducting magnet. The magnet produced 8 T at its center. A thermistor probe was inserted in a subcutaneous pocket of the anesthetized rats to measure skin temperature. Animals (n = 10) were placed in an open plastic holder in which the ambient air was free to move in any direction (group I). Animals (n = 10) were placed in a closed holder in which the air circulation toward the direction of weak magnetic field was restricted (group II). Each holder was connected to a hydrometer to measure humidity around the animal in the holder. The data acquisition phase consisted of a 5 min baseline interval, followed by inserting the animal together with the holder into the center of the magnet bore for a 5 min exposure and a 5 min postexposure period outside the bore. In group I, skin temperature and humidity around the animal significantly decreased during exposure, followed by recovery after exposure. In group II, skin temperature and humidity did not decrease during the measurement. The skin temperature decrease was closely related to the decrease in humidity around the body of the animal in the holder, and the changes were completely blocked by restricting the air circulation in the direction of the bore entrance. Possible mechanisms responsible for the decrease in skin temperature may be associated with magnetically induced movement of water vapor at the skin surface, leading to skin temperature decrease.

Original languageEnglish
Pages (from-to)380-386
Number of pages7
Issue number6
Publication statusPublished - 2003 Sept
Externally publishedYes


  • Diamagnetic moment
  • Magnetic field exposure
  • Superconducting magnet
  • Water vapor motion

ASJC Scopus subject areas

  • Biophysics
  • Physiology
  • Radiology Nuclear Medicine and imaging


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