John Kanzius

This article is about the inventor. For the 15th century theologian, see John Cantius.
John S. Kanzius

John S. Kanzius, circa 2005
Born (1944-03-01)March 1, 1944
Washington, Pennsylvania, United States
Died February 18, 2009(2009-02-18) (aged 64)
Fort Myers, Florida, United States
Cause of death Pneumonia, Lymphoid leukemia
Resting place Millcreek Township, Erie County, Pennsylvania
Residence Sanibel, Florida, United States
Nationality American
Alma mater Trinity High School (Washington, Pennsylvania)
Occupation Radio and television engineer
Known for RF generator
Home town Erie, Pennsylvania, United States

John S. Kanzius (March 1, 1944 – February 18, 2009) was an American inventor, radio and TV engineer, one-time station owner and ham radio operator (Call Sign K3TUP) from Erie, Pennsylvania. He invented a method that, he said, could treat virtually all forms of cancer,[1] with no side effects, and without the need for surgery or medication.[1][2][3] He also demonstrated a device that generated flammable hydrogen-containing gas from salt-water-solution by the use of radiowaves. In the media this was dubbed "burning salt water". Both effects involve the use of his radio frequency transmitter.

Kanzius, self-taught, stated that he was motivated to research the subject of cancer treatment by his own experiences undergoing chemotherapy for treatment of non-Hodgkin's lymphoma.[4][5] He died of B-cell leukemia with complications from pneumonia without seeing FDA approval and commercialization of his invention.

Cancer therapy

Kanzius RF Therapy is an experimental cancer therapy that employs a combination of either gold or carbon nanoparticles and radio waves.[2][6][7]

The specific absorption rate for radio waves by living tissue in the proposed wavelengths and intensity levels is very low. Metals absorb this energy much more efficiently than tissue through dielectric heating; Richard Smalley has suggested that carbon nanotubes could be used to similar purpose.[8] If nanoparticles were to be preferentially bound to cancer sites, cancer cells could be destroyed or induced into apoptosis while leaving healthy tissue relatively unharmed.[9] This preferential targeting represents a major technical challenge. According to a presentation by Dr. Steven Curley, essentially all forms of cancer are potentially treatable using Kanzius RF therapy.[10]

Kanzius built a prototype Kanzius RF device in his home, and formed Therm Med, LLC to test and market his inventions.[11][12] The device was tested at University of Pittsburgh Medical Center in 2005.[3] As of 2007-04-23, preliminary research using the device at The University of Texas M. D. Anderson Cancer Center has taken place[2][13][14] and the University of Pittsburgh Medical Center[11] If federal approval is granted, testing on human patients may follow.[5][9][15]

Water-as-a-fuel

Later in 2007, Kanzius claimed that the same radio frequency transmitter can also be used to generate a hydrogen-oxygen mixture dissociated from salt water.[14][16] The discovery was made accidentally while he was researching the use of radio waves for desalination. Kanzius said that "In this case we weren't looking for energy, we were looking for something that might do desalination. The more we tried desalination, the more heat we produced, until we got fire".[16]

Kanzius' Invention has been publicised on multiple local TV stations as a source of cheap energy. In a column in the journal Nature, Philip Ball pointed out that since water is created by burning hydrogen, it can not be used as a fuel by generating hydrogen from water and then burning it. Such process requires providing an equal or greater amount of energy than is outputted. This observation is one of the foundation principles of the laws of thermodynamics.[17] Kanzius acknowledged that this process could not be considered an energy source, as more energy is used to produce the RF signal than can be obtained from the burning gas and stated in July 2007 that he never claimed his discovery would replace oil, asserting only that his discovery was "thought provoking".[18]

In 2007, Rustum Roy, a materials scientist at Pennsylvania State University,stated that "The salt water isn't burning per se, despite appearances. The radio frequencies act to weaken the bonds between the elements that make up salt water, releasing the hydrogen. Once ignited, the hydrogen will burn as long as it is exposed to the frequencies".[19] The temperature and flame color varies with water solutions and concentrations.[19]

However, in 2008,in an article Kanzius co-authored with Rustom Roy and Manju Lata Rao published in Materials Research Innovations,[20] they concluded that "It has been confirmed that polarised RF frequency radiation at 13.56 MHz causes NaCl solutions in water, with concentrations from 1 to over 30%, to be measurably changed in structure, and to dissociate into hydrogen and oxygen near room temperature. The flame is a burning reaction, probably of an intimate mixture of hydrogen oxygen and the ambient air. Most of the Na present in the solution, concentrates progressively – as measured – as the water is dissociated and burned".[20]

The 2008 article also stated that the products of this dissociation were markedly different from those produced by electrolysis. It states "The gaseous effluents are obviously different from those obtained from electrolysis as they are produced mixed in situ simultaneously. Hence, the burning of these effluent gases should not be compared precisely with the burning of molecular hydrogen in air or the molecular oxyhydrogen mixtures".[20]

See also

References

  1. 1 2 Tanya Simon (February 11, 2009). "The Kanzius Machine: A Cancer Cure?". CBSNews.com.
  2. 1 2 3 Christopher J. Gannon; Paul Cherukuri; Boris I. Yakobson; Laurent Cognet; John S. Kanzius; Carter Kittrell; R. Bruce Weisman; Matteo Pasquali; Howard K. Schmidt; Richard E. Smalley; Steven A. Curley (October 24, 2007). "Carbon nanotube-enhanced thermal destruction of cancer cells in a noninvasive radiofrequency field". Cancer. Wiley. 110 (12): 2654–65. doi:10.1002/cncr.23155. PMID 17960610. Our results demonstrate that SWNTs can be used as a therapeutic agent to treat malignant tumors through RF-induced thermoablation, not just as a vector for the delivery of anticancer agents
  3. 1 2 Klune, J.R.; Jeyabalan, G.; Chory, E.S.; Kanzius, J.; Geller, D.A. (February 2007). "Pilot investigation of a new instrument for non-invasive radiofrequency ablation of cancer". Journal of Surgical Research. 137 (2): 263. doi:10.1016/j.jss.2006.12.293. Retrieved 2007-09-17. Exposure to the radiowave field produced in vitro cell death as well as in vivo tissue destruction when metal ion enhancer solutions were utilized. Future work will focus on specific tumor destruction with tagged enhancer solutions and targeting of in vivo tumors.
  4. Associated Press (2005-05-11). "Center to test radio wave cancer treatment". First Coast News. Retrieved 2007-09-15.
  5. 1 2 "Cancer patient invents treatment machine". CBS13. August 27, 2007. Archived from the original on 2007-08-31. Retrieved 2007-09-10.
  6. Paul Cherukuri; Christopher J. Gannon; Tonya K. Leeuw; Howard K. Schmidt; Richard E. Smalley; Steven A. Curley; R. Bruce Weisman (2006-12-12). "Mammalian pharmacokinetics of carbon nanotubes using intrinsic near-infrared fluorescence" (PDF). Proceedings of the National Academy of Sciences of the United States of America. 103 (50): 18882–86. Bibcode:2006PNAS..10318882C. doi:10.1073/pnas.0609265103. PMC 1665645Freely accessible. PMID 17135351.
  7. C. J. Gannon; P. Mukherjee; S. A. Curley. "In vitro gold nanoparticle targeting enhances non-invasive radiofrequency destruction of human gastrointestinal malignancies". Poster presented at the 2007 Gastrointestinal Cancers Symposium by Dr. Christopher J. Gannon, M.D.
  8. Peter Panepento (2007). "Cancer Therapy Takes Next Step". Erie Times-News. Archived from the original on 2007-11-21. Retrieved 2007-10-31.
  9. 1 2 "'Hurst hosts Kanzius cancer symposium". Mercyhurst College. 2007-04-23. Archived from the original on 2007-11-17. Retrieved 2007-09-16.
  10. RF-Induced Thermal Destruction of Cancer Cells Presentation by Steven Curley, accessed November 2, 2007 Archived May 12, 2008, at the Wayback Machine.
  11. 1 2 "Cancer survivor John Kanzius isn't a doctor". Fox News. 2007-05-11. Retrieved 2007-09-16.
  12. David Templeton (2005-02-20). "UPMC set to test cancer treatment". Pittsburgh Post-Gazette. Retrieved 2007-10-31.
  13. "Bio for Dr. Steven A. Curley". Alliance for NanoHealth. 2007-02-13. Archived from the original on 2008-02-23. Retrieved 2007-09-16.
  14. 1 2 O'Mara, Michael (2007-09-12). "Salt water fuel gets major university review". WKYC. Retrieved 2007-09-14. Note: This video transcript, although published in September 2007, contains quotes by Kanzius from May, as the video contained archive footage. For more information, please see the discussion on this issue.
  15. David Templeton (2007-05-02). "Cancer research inspires Erie community". Pittsburgh Post-Gazette. Retrieved 2007-09-17. Dr. Curley has submitted two research manuscripts for publication and was unable to provide the latest results. But he said he is testing the treatment of human cancer strains in animals. (...) "This is the most exciting new therapy for cancer that I have seen in over 20 years of cancer research," he said.
  16. 1 2 O'Mara, Michael (September 12, 2007). Burning Water. Erie, P.A.: WKYC. Retrieved 2007-09-14. Note: This broadcast video, although aired in September 2007, contains archive footage of John Kanzius from May 2007. For more information, please see the discussion on this issue.
  17. Ball, Philip. "Burning water and other myths". news@nature. doi:10.1038/news070910-13.
  18. Ogden, Shannon (2007-07-05). "Salt Water Fuel". First Coast News. Retrieved 2007-07-26.
  19. 1 2 Templeton, David (2007-09-09). "Salt water as fuel? Erie man hopes so". Pittsburgh Post-Gazette. Retrieved 2007-09-10.
  20. 1 2 3 Roy, Rustum; Manju Lata, Rao; John, Kanzius (2008). "Observations of polarised RF radiation catalysis of dissociation of H2O–NaCl solutions". Materials Research Innovations. 12 (1): 3–6. doi:10.1179/143307508/270875. Retrieved 4 August 2016.


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