References
- Currier D. P., Mann R. Muscular strength development by electrical stimulation in healthy individuals. Physical Therapy 1983; 63: 915–921
- Petrofsky J. S. The training effects of wide pulse width electrical stimulation on denervated muscle. Journal of Neurological Rehabilitation 1991; 53: 161–167
- Petrofsky J. S., Laymon M. The effect of previous weight training and concurrent weight training on endurance for FES cycle ergometry. European Journal of Applied Physiology 2004; 91: 392–398
- Delitto A., Rose S. J., McKowen J. M., Lehman R. C., Thomas J. A., Shively R. A. Electrical stimulation versus voluntary exercise in strengthening thigh musculature after anterior cruciate ligament surgery. Physical Therapy 1988; 68: 660–663
- Petrofsky J. S., Kazemi A., Bweir S. A cure for stroke—where are we now. Palaestra 2004; 20: 36–45
- Akers T. K., Gabrielson A. L. The effect of high voltage galvanic stimulation on the rate of healing of decubitus ulcers. Biomedical Scientific Instruments 1984; 20: 99–100
- Bogie K. M., Triolo R. J. Effects of regular use of neuromuscular electrical stimulation on tissue health. Journal of Rehabilitation Research and Development 2003; 40: 469–475
- Feedar J., Kloth L., Gentzkow G. Chronic dermal ulcer healing enhanced with monophasic pulsed electrical stimulation. Physical Therapy 1992; 72: 539
- Franek A., Franek E., Grzesik J. Electrically enhanced damaged tissues healing. Part II: direct and pulse current in soft tissue healing. Polski Merkuriusz Lekarski 1999; 40: 198–201
- Reger S. I., Hyodo A., Negami S., Kambic H. E., Sahgal V. Experimental wound healing with electrical stimulation. Artifical Organs 1999; 23: 460–462
- Yarkony G. M. Pressure ulcers: a review. Archives of Physical Medicine and Rehabilitation 1994; 75: 908–917
- Bogie K. M., Reger S. I., Levine S. P., Sahgal V. Electrical stimulation for pressure sore prevention. Journal of Assistive Technology 2000; 12: 50–66
- Bennie S., Petrofsky J. S., Nisperos J., Tsurudome M., Laymon M. Toward the optimal waveform for electrical stimulation. European Journal of Applied Physiology 2002; 88: 13–19
- Petrofsky J. S., Schwab E., Lo T., Cuneo M., George J., Kim J., AlMarty A. Differential effects of electrical stimulation on skin blood flow in and around stage II and IV wounds. Medical Science Monitor 2005; 11: CR309–316
- Cendes Z. Unlocking the mystery of Maxwell's equations. Mechanical Engineering 1989; 22: 48–52
- Waugaman W. A. Electrical current density model from surface electrodes. Biomedical Scientific Instruments 1997; 34: 131–136
- Waugaman W. A. Verification of the finite element method to model subthreshold electrical current density in saline. Biomedical Scientific Instruments 1999; 35: 367–372
- Waugaman W. A. Prediction of internal electric current distribution from surface application in atrophied muscle tissue. Biomedical Scientific Instruments 2001; 37: 361–366
- Miller C. E., Henriquez C. S. Finite element analysis of bioelectric phenomena. Critical Reviews in Biomedical Engineering 1990; 18: 207–233
- Pop G. A., de Backer T. L., de Jong M., Struijk P. C., Moraru L., Chang Z., Goovaerts H. G., Slager C. J., Bogers A. J. On-line electrical impedance measurement for monitoring blood viscosity during on-pump heart surgery. European Surgical Research 2004; 36: 259–265
- Bronzino J. Biomedical Engineering Handbook, et al. CRC Press, Philadelphia, PA 1999
- Zhu F., Sarkar S., Kaitwatcharachai C., Greenwood R., Ronco C., Levin N. W. Methods and reproducibility of measurement of resistivity in the calf using regional bioimpedance analysis. Blood Purification 2003; 21: 131–136
- Wang Y., Haynor D. R., Kim Y. A finite-element study of the effects of electrode position on the measured impedance change in impedance cardiography. IEEE Transactions on Biomedical Engineering 2001; 48: 1390–1401
- Razavi M., Jansen G. B. Effects of acupuncture and placebo TENS in addition to exercise in treatment of rotator cuff tendinitis. Clinical Rehabilitation 2004; 18: 872–878
- Cheing G. L., Luk M. L. Transcutaneous electrical nerve stimulation for neuropathic pain. Journal of Hand Surgery (British & European Volume) 2005; 30: 50–55
- Koltzenburg M., Lewin G., McMahon S. Increase of blood flow in skin and spinal cord following activation of small diameter primary afferents. Brain Research 1990; 509: 145–149
- Lynn B., Cotsell B. Blood flow increases in the skin of the anaesthetized rat that follow antidromic sensory nerve stimulation and strong mechanical stimulation. Neuroscience Letters 1992; 137: 249–252
- Kemppainen P., Leppanen H., Jyvasjarvi E., Pertovaara A. Blood flow increase in the orofacial area of humans induced by painful stimulation. Brain Research Bulletin 1994; 33: 655–662
- Tsujii Y., Koeda T., Sato J., Suzuki S., Kumazawa T. Sympathetically induced paradoxical increases of the cutaneous blood flow in chronically inflamed rats. Journal of the Autonomous Nervous System 1996; 59: 103–112
- Sherry J. E., Oehrlein K. M., Hegge K. S., Morgan B. J. Effect of burst-mode transcutaneous electrical nerve stimulation on peripheral vascular resistance. Physical Therapy 2001; 81: 1183–1191
- Laughman R. K., Youdas J. W., Garrett T. R., Chao E. Strength changes in the normal quadriceps femoris muscle as a result of electrical stimulation. Physical Therapy 1983; 3: 494–499
- Alexander C. M., Miley R., Harrison P. J. Functional modulation of shoulder girdle stability. Experimental Brain Research 2005; 4: 417–422
- Amaro J. L., Gameiro M. D., Padovani C. R. Effect of intravaginal electrical stimulation on pelvic floor muscle strength. International Urogynecology Journal and Pelvic Floor Dysfunction 2005; 16: 355–358
- Papazov S., Kostov Z., Daskalov I. Electrical current distribution under transthoracic defibrillation and pacing electrodes. Journal of Medical Engineering & Technology 2002; 26: 22