Tao Lei, Maogang Jiang, Yue Tian, Kangning Xie, Feijiang Li, Da Jing, Yili Yan, Guanghao Shen, Erping Luo


  1. [2] Li, L., et al., Age-related changes in skin topographyand microcirculation, Arch Dermatol Res, 297(9), 2006,412-6.
  2. [3] Schmid-Schonbein, G.W., Biomechanics ofmicrocirculatory blood perfusion, Annu Rev Biomed Eng,1, 1999, 73-102.
  3. [4] Icaro, C.A., et al., Stimulation of osteoblast growth byan electromagnetic field in a model of bone-like construct,Eur J Histochem, 50(3), 2006, 199-204.
  4. [5] Cheing, G.L., J.W. Wan and L.S. Kai, Ice and pulsedelectromagnetic field to reduce pain and swelling afterdistal radius fractures, J Rehabil Med, 37(6), 2005, 372-7.
  5. [6] Shupak, N.M., et al., Exposure to a specific pulsedlow-frequency magnetic field: a double-blind placebo-controlled study of effects on pain ratings in rheumatoidarthritis and fibromyalgia patients, Pain Res Manag, 11(2),2006, 85-90.
  6. [7] Lyskov, E., et al., Low frequency therapeutic MFdifferently influences experimental muscle pain in femaleand male subjects, Bioelectromagnetics, 26(4), 2005, 299-304.
  7. [8] Chen, Y.B., et al., Effect of Electromagnetic Pulses(EMP) on associative learning in mice and a preliminarystudy of mechanism, Int J Radiat Biol, 87(12), 2011,1147-54.1
  8. [9] Nikolaeva, N.V., et al., Non-pharmacologicalcorrection of impaired microcirculation in children withdiabetic polyneuropathy, Neurosci Behav Physiol, 40(3),2010, 347-50.
  9. [10] Li, B.F., et al., Electromagnetic pulses inducefluctuations in blood pressure in rats, Int J Radiat Biol,83(6), 2007, 421-9.
  10. [11] Efanov, O.I., Magnetic-field treatment ofmicrocirculatory disorders in the periodontium, VoprKurortol Fizioter Lech Fiz Kult, (4), 1981, 32-4.
  11. [12] McNamee, D.A., et al., The response of the humancirculatory system to an acute 200-muT, 60-Hz magneticfield exposure, Int Arch Occup Environ Health, 84(3),2011, 267-77.
  12. [13] Kuipers, N.T., C.L. Sauder and C.A. Ray, Influenceof static magnetic fields on pain perception andsympathetic nerve activity in humans, J Appl Physiol,102(4), 2007, 1410-5.
  13. [14] Mayrovitz, H.N., E.E. Groseclose and D. King, Noeffect of 85 mT permanent magnets on laser-Dopplermeasured blood flow response to inspiratory gasps,Bioelectromagnetics, 26(4), 2005, 331-5.
  14. [15] Schuhfried, O., et al., The effects of low-dosed andhigh-dosed low-frequency electromagnetic fields onmicrocirculation and skin temperature in healthy subjects,Int J Sports Med, 26(10), 2005, 886-90.
  15. [16] Martel, G.F., S.C. Andrews and C.G. Roseboom,Comparison of static and placebo magnets on restingforearm blood flow in young, healthy men, J OrthopSports Phys Ther, 32(10), 2002, 518-24.[1] McKay, J.C., F.S. Prato and A.W. Thomas, Aliterature review: the effects of magnetic field exposure
  16. [17] Landsverk, S.A., et al., Poor agreement betweenrespiratory variations in pulse oximetry163photoplethysmographic waveform amplitude and pulsepressure in intensive care unit patients, Anesthesiology,109(5), 2008, 849-55.
  17. [18] Baldi, E., C. Baldi and B.J. Lithgow, A pilotinvestigation of the effect of extremely low frequencypulsed electromagnetic fields on humans' heart ratevariability, Bioelectromagnetics, 28(1), 2007, 64-8.
  18. [19] Kurokawa, Y., et al., Can extremely low frequencyalternating magnetic fields modulate heart rate or itsvariability in humans? Auton Neurosci, 105(1), 2003, 53-61.
  19. [20] Bernjak, A., et al., Low-frequency blood flowoscillations in congestive heart failure and after beta1-blockade treatment, Microvasc Res, 76(3), 2008, 224-32.
  20. [21] Kvandal, P., et al., Low-frequency oscillations of thelaser Doppler perfusion signal in human skin, MicrovascRes, 72(3), 2006, 120-7.
  21. [22] Bračič, M. and A. Stefanovska, Wavelet-basedanalysis of human blood-flow dynamics, Bulletin ofMathematical Biology, 60(5), 1998, 919-935.
  22. [23] Bernjak, A. and A. Stefanovska. Importance ofwavelet analysis in laser Doppler flowmetry time Engineering in Medicine and Biology Society, 29thAnnual International Conference of the IEEE, 2007.
  23. [24] Stefanovska, A., M. Bracic and H.D. Kvernmo,Wavelet analysis of oscillations in the peripheral bloodcirculation measured by laser Doppler technique, IEEETrans Biomed Eng, 46(10), 1999, 1230-9.
  24. [25] Heart rate variability: standards of measurement,physiological interpretation and clinical use, Circulation,93(5), 1996, 1043-65.
  25. [26] Ushiyama, A., et al., Subchronic effects onleukocyte-endothelial interactions in mice by whole bodyexposure to extremely low frequency electromagneticfields, In Vivo, 18(4), 2004, 425-32.
  26. [27] Smith, T.L., D. Wong-Gibbons and J. Maultsby,Microcirculatory effects of pulsed electromagnetic fields,J Orthop Res, 22(1), 2004, 80-4.
  27. [28] Brix, G., et al., Static magnetic fields affect capillaryflow of red blood cells in striated skin muscle,Microcirculation, 15(1), 2008, 15-26.
  28. [29] Gmitrov, J., Static magnetic field effect on thearterial baroreflex-mediated control of microcirculation:implications for cardiovascular effects due toenvironmental magnetic fields, Radiat Environ Biophys,46(3), 2007, 281-90.
  29. [30] Ichioka, S., et al., Biological effects of staticmagnetic fields on the microcirculatory blood flow invivo: a preliminary report, Med Biol Eng Comput, 36(1),1998, 91-5.
  30. [31] Hafner, H.M., et al., Wavelet analysis of skinperfusion in healthy volunteers, Microcirculation, 14(2),2007, 137-44.

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