Destruction of an advanced malignant tumour by direct electrical current-case report
Chima Oji, John Ani
DOI: 10.4236/health.2010.29154   PDF    HTML     5,309 Downloads   9,694 Views   Citations

Abstract

We carried out a study on the effect of low-level direct current on cancer by using it to treat a woman who had a large malignant squamous cell carcinoma of the sinus cavity. We used a device that produced low-level direct current and passed the current through the tumour via a 4 × 4 cm flat aluminium foil and a needle electrode that was insulated along its entire length except for the portion actually inserted into the tumour. The treatment was eight hourly daily and lasted for eight weeks. The therapy resulted in the total remission of the tumour and a feeling of wellness by the patient. This finding implies promising therapeutic potential for the use of direct electrical current as a simple, effective, low cost alternative for the treatment of cancer.

Share and Cite:

Oji, C. and Ani, J. (2010) Destruction of an advanced malignant tumour by direct electrical current-case report. Health, 2, 1049-1053. doi: 10.4236/health.2010.29154.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Emami, B., Nussbaum, G.N., Hahn, N., Piro, A.J., Dntschilo, A. and Quimby, F. (1981) Histopathological study on the effect of hyperthermia on microvasculature. International Journal of Radiation Oncology, Biology and Physics, 7(3), 343-348.
[2] Lindholm, C.C., Kjellen, E., Landberg, T., Nilsson, P. and Persson, B. (1982) Microwave induced hyperthermia and ionizing radiation. Preliminary clinical results. Acta Radiologica Oncology, 21(4), 241-254.
[3] Rand, R.W., Snow, H.D. and Brown, W.J. (1982) Thermomagnetic surgery for cancer. Journal of Surgical Research, 33(3), 177-183.
[4] Urano, M., Rice, L., Epstein, R., Suit, H.D. and Chu, A.M. (1983) Effect of whole body hyperthermia on cell survival, metastases frequency, and host immunity in moderately and weakly immunogenic munne tumors. Cancer Research, 43(3), 1039-1043.
[5] Widder, K.J., Senyei, A.E. and Seas, B. (1982) Experimental methods in cancer therapeutics. Journal of Pharmaceutical Sciences, 71(4), 379-387.
[6] Schechter, D.C. (1979) Flashbacks: Containment of tumors through electricity. PACE, 2(1), 101-114.
[7] Humphrey, C.E. and Seal, E.H. (1959) Biophysical approach toward tumor repression in mice. Science, 130(3372), 388-390.
[8] Schauble, M.K., Habal, M.B. and Gullick, H.D. (1977) Inhibition of experimental tumor growth in hamsters by small direct current. Archives of Pathology & Laboratory Medicine, 101(6), 294-297.
[9] Habal, M.B. (1980) Effect of applied DC current on experimental tumor growth in rats. Journal of Biomedical Materials Research, 14(6), 789-801.
[10] Weber, G.. (1983) Biochemical strategy of cancer cells and the design of chemotherapy. Cancer Research, 43(8), 3466-3492.
[11] Kulsh, J. (1997) Targeting a key enzyme in cell growth: a novel therapy for cancer. Medical Hypotheses, 49(4), 297-300.
[12] Mikla?i?, D., Fajgelj, A. and Ser?a, G. (1994) Tumor treatment by direct electric current: Electrode material deposition. Biosensors, 35(1), 93-97.
[13] Yen, Y, Li, J.R., Zhou, B.S., Rojas, F., Yu, J. and Chou, C.K. (1999) Electrochemical treatment of human kb cells in vitro. Journal of Bioelectromag, 20(1), 34-41.
[14] Berendson, J. and Simonsson, D. (1994) Electrochemical aspects of treatment of tissue with direct current. European Journal of Surgery, 574(Suppl.), 111-115.
[15] Marino, A.A., Morris, D. and Arnold, T. (1986) Electrical treatment of lewis lung carcinoma in mice. Journal of Surgical Research, 41(2), 198-201.
[16] Harguindey, S. (1982) Hydrogen ion dynamics and cancer—An appraisal. Medical and Pediatric Oncology, 10(3), 217-236.
[17] Morris, D., Marino, A.A. and Gonzalez, E. (1992) Electrochemical modification of tumor growth in mice. Journal of Surgical Research, 53(3), 306-309.
[18] Taylor, T.V., Engler, P., Pullan, R.R. and Holt, S. (1994) Ablation of neoplasia by direct current. British Journal of Cancer, 70(2), 342-345.
[19] Turler, A., Schaefer, H., Schaefer, N., Maintz, D., Wagner, M., Qiao, J.C. and Hoelscher, A.H. (2000) Local treatment of hepatic metastases with low-level direct electric current: Experimental results. Journal of Gastroenterology, 35(3), 322-328.
[20] Kirson, E.D., Gurvich, Z., Schneiderman, R., Dekel, E., Itzhaki, A., Wasserman, Y. and Schatzberger, R. (2004) Disruption of cancer cell replication by alternating electric fields. Cancer Research, 64(9), 3288-3285.
[21] Barbault, A., Costa, F.P., Bottger, B., Munden, K.F. and Bonholt, F. (2009) Amplitude-modulated electromagnetic fields for the treatment of cancer. Discovery of tumor- specific frequencies and assessment of a novel therapeutic approach. Journal of Experimental and Clinical Cancer Research, 28(51), 1756-1759.

Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2024 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.

  翻译: