APPLICATION OF WAVELET TRANSFORM TO ANALYSIS OF HUMAN SKIN BLOOD FLUX SIGNAL

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

References

  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 series.in 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.

Important Links:

Go Back