Using Radio Waves to Bake Tumors

Nanotech News

April 2012

Nanothermal therapy – the use of nanoparticles to cook a tumor to death – is one of the many promising uses of nanotechnology to both improve the effectiveness of cancer therapy and reduce its side effects. Now, a team of investigators from theTexas Center for Cancer Nanomedicine has shown that liver cancer cells will take up targeted gold nanoparticles, absorb radio waves, and generate heat that damages the cells. In addition, the researchers have discovered how to increase the thermal toxicity of these nanoparticles.

This research was led by Steven A. Curley, of the University of Texas M.D. Anderson Cancer Center, and Lon Wilson, of Rice University. The investigators published their results in the journal Nanomedicine.

Biocompatible gold nanoparticles are ideal vehicles for delivering heat to tumors because they are non-toxic, stable, and can be coated with a variety of molecules to target them to tumors. Unlike conventional anticancer agents, gold nanoparticles are harmless unless first activated by an energy source, such as a near-infrared light delivered by a laser. In fact, laser-activated gold nanoparticles are being tested in human clinical trials for the treatment of head and neck cancer. Radio waves, however, have a potential advantage over laser energy because radio waves do not interact with biological tissues and thus can penetrate more deeply within the body than can laser light.

One of the major obstacles to using radiofrequency-activated gold nanoparticles to treat cancer is their tendency to clump together, which reduces their ability to absorb energy and convert it to heat. In the current study, the Texas researchers aimed to develop a precise understanding of why clumping occurs and develop the means to keep it from happening. Their experiments showed that the low pH within endosomes – the tiny vesicles that bring antibody-targeted nanoparticles into cells – is the primary cause of aggregation.

In an attempt to neutralize the acidic pH within endosomes, the investigators treated the cells with one of two different drugs – concanamycin A, an antibiotic not designed for use in humans, and chloroquine, an approved antimalarial agent – that are known to prevent endosome acidification. When the treated cells were exposed to antibody-targeted gold nanoparticles and then radiofrequency activation, heat-triggered cell death increased markedly compared to that seen with cells that were not pre-treated with the acid blockers, by preserving the protein coating on the gold nanoparticle surface. Based on these results, the investigators are now developing antibody-targeted nanoparticles with coatings that will prevent aggregation in the acidic environment of the endosome.

This work, which is detailed in a paper titled, "Stability of antibody-conjugated gold nanoparticles in the endo-lysosomal nanoenvironment: Implications for non-invasive radiofrequency-based cancer therapy," was supported in part by the NCI's Physical Sciences-Oncology Center program, a comprehensive initiative designed to accelerate the application of nanotechnology to the prevention, diagnosis, and treatment of cancer. An abstract of this paper is available at the journal's website.

View abstract

http://nano.cancer.gov/action/news/2012/apr/nanotech_news_2012-4-2c.asp

Kanzius Machine Offers Cancer Treatment Hope

Sometimes it takes someone outside of a given field to truly come up with something remarkable, and the Kanzius Machine may be one of those stories.

Former radio executive John Kanzius was diagnosed with a deadly form of leukemia and was determined to use the time he had left to create something that would treat not only him, but the millions who are diagnosed with cancer each year.

The result was the Kanzius Machine, an experimental cancer treatment that employs a combination of either gold or carbon nanoparticles and radio waves to heat and destroy cancer cells without damaging healthy cells.

Before you suggest that it using radio waves to destroy cancer cells might sound like quackery, according to 60 Minutes cancer researchers are so excited by its promise that it is already being used in laboratory tests on animals as a prelude to official human testing.

Sadly John Kanzius died in February 2009, but the work he started goes on. The 60 Minutes story on the Kanzius Machine as follows:

Watch CBS News Videos Online

Cancer treatment innovator dies

Kanzius developed radio-based device to treat disease

By MCKENZIE CASSIDY, mcassidy@breezenewspapers.com

POSTED: February 21, 2009
Part-time Sanibel resident John Kanzius, a retired radio engineer and innovator of a groundbreaking radio-based device designed to cure cancer, died Wednesday from complications related to his own cancer treatment.

Email: "Cancer treatment innovator dies"
*To:		<--TO Email REQUIRED!
*From:		<--FROM Email REQUIRED!

Kanzius, 64, was a patient at Health Park Medical Center receiving care for a bout of pneumonia he contracted after two recent rounds of chemotherapy to combat b-cell Leukemia. He is survived by his wife, Marianne; two daughters, Sherry Kanzius and Toni Palmer; and two grandchildren.

Kanzius made national headlines after designing the device capable of transmitting radio waves to essentially burn out cancerous cells. Last year he was interviewed on 60 Minutes and his unique innovation has been featured on countless news programs.

Scientists were initially shocked when Kanzius, without any formal medical degree or training, showcased the device he designed in his free time. His story began in 2003 after several painful rounds of chemotherapy when - according to an interview with the Los Angeles Times - Kanzius awoke at 2 a.m. with the idea to create a device to burn the cancer out of his body.

Since the 1960s Kanzius had worked as a broadcast engineer and later a manager in a number of radio stations across the United States.

It took several months for him to use spare wires, boxes, antennas and even his wife's pie pans to assemble the device, which he later presented to Dr. Steven Curley from M.D. Anderson Cancer Center in Houston, Texas. Richard Smalley, a Nobel Prize winning specialist in nanoscience, also assisted with perfecting the nanotubes used in the treatment before his death from cancer in 2005.

Because his residence was on Sanibel after retiring from Eerie, Pa., Kanzius approached officials from Lee Memorial Health System to include them in human trials.

Sharon MacDonald, vice president of Oncology at Lee Memorial Health System, kept regular correspondence with Kanzius up until the week he passed away. She first met Kanzius in 2007 when he approached her and LMHS President Jim Nathan about including Lee County hospitals in the research behind the cure for cancer.

"I talked to him last week and we talked about the trial and his treatment and family," said MacDonald. "Beside having a great intellect he was also well loved by his family and the community."

The local health system has been handpicked to host human trials for the device following approval by the U.S. Food and Drug Administration.

Currently, researchers are in the final stages of animal testing.

"We were good colleagues and I had great respect for him and his family," said MacDonald.

Researchers agree that if perfected the device could serve as an alternative to invasive cancer treatment.

In the work behind the Kanzius Radio Frequency Generator, Curley's research team was capable of killing cancer cells in rabbits within 120 seconds. During the experiment carbon nanotubes, or hollow cylinders made of pure carbon, were placed in a rabbit's cancerous liver and heated with radio waves.

In a statement published on the John Kanzius Research Foundation, Curley said he would continue whatever is necessary to perfect the technology and find a cure.

"John's legacy must and will live on. I will continue this important research work with renewed vigor and focus because I despise this disease that has stolen another brilliant individual from us," said Curley.

During a presentation of the device last year Curley said his team was concerned about some tissue around the nanotube sustaining heat damage during the process. Researchers have also been looking into using gold nanoparticles and a study published by the Journal of Nanobiotechnology in 2008 showed promising results.

"Our next step is to look at ways to more precisely target the nanotubes so they attach to, and are taken up by, cancer cells while avoiding normal tissue," said Curley at the end of 2007.

The John Kanzius Cancer Research Foundation continues to accept donations for research but officials are disappointed that he will never be able to see the device reach fruition.

"We will not stop until John's vision becomes reality," said Maryann Yochim, president of the Kanzius Cancer Research Foundation. "Our only regret at this point is that John will not be here to see the first cancer patient cured with his technology. But, we believe strongly that this will happen. It's only a matter of time."

The Dusckas-Martin Funeral Home in Millcreek, Penn. will handle Kanzius' funeral arrangements this weekend. The foundation Web site is www.kanziuscancerresearch.com.

Source

Researchers target cancer cells; note treatment by SW Florida resident

By MATT CLARK (Contact)

6:12 a.m., Friday, December 19, 2008

MICHEL FORTIER / ROB ENGELHARDT/Erie Times-News

Steven A. Curley, M.D., right, and John Kanzius, inventor of this radio wave transmitter, check over the machine before a test is run in Erie, Pa.

MICHEL FORTIER

Born out of necessity through his own battle with cancer, John Kanzius has developed a technique which may one day eradicate cancer cells in humans with radio waves in a much less invasive fashion than current radiation techniques.

Video

Sanibel Island inventor and cancer patient John Kanzius demonstrates his cancer-fighting machine. Watch video.

They've demonstrated the cancer research "holy grail."

In a manuscript published today, researchers say they have successfully targeted and killed two of the most deadly types of cancer cells, colon and pancreatic, using the treatment invented by Sanibel Island and Erie, Pa. resident John Kanzius.

"This is what everybody's been waiting for," Kanzius said. "Can you target cancer cells? And the answer is 'yes.' Can you kill them? Yes. Can you target specific cancers? Yes."

Though the researchers said the destroyed cancer cells were not in animals or humans, the findings published in the peer-reviewed Journal of Experimental Therapeutics and Oncology have shown once again that a man with no formal medical training -- and who continues his own battle with a rare form of B-cell leukemia -- can develop a treatment capable of killing cancer.

The treatment Kanzius first envisioned in 2003 is hoped to one day go like this:

- A patient will be injected with a solution of small pieces of metal known as nanoparticles, which are attached to lab-created, disease-fighting antibody cells capable of targeting specific cancers.

- The gold nanoparticles, which are so small 75,000 to 100,000 of them can fit across the tip of a human hair, will run through the body, the antibodies attached to them hunting for the specific cancer cells being targeted. Once they find the cancer cells, they burrow inside.

- The patient is then exposed to low-frequency radio waves emitted from the transmitter Kanzius' first designed in the garage of his Sanibel Island home. Somewhat like metal in a microwave, which uses frequencies a million times more powerful to vibrate molecules generating heat, the nanoparticles will heat up, killing the cancer cells, but leaving adjacent cells unharmed.

The researchers working with Kanzius have already demonstrated they can kill cancer cells in laboratory animals using the nanoparticles and radio transmitter while leaving adjacent cells unharmed. Those findings were published Oct. 2007. But those experiments had the nanoparticles injected directly into tumors, not targeted to specific cancer cells -- an accomplishment that has baffled cancer researchers for years.

Lead researcher Dr. Steven Curley, a professor of surgical oncology at M.D. Anderson Cancer Center in Houston, rated No. 1 in cancer treatment by U.S. News and World Report for four of the past six years, told supporters in a letter earlier this month that targeting nanoparticles to specific types of cancers has been accomplished.

"This will be the first manuscript that proves that we can target nanoparticles to a specific abnormality on cancer cells, and increase the killing by getting more nanoparticles into the cells," Curley said.

In the letter, Curley indicated talks with the Food and Drug and Administration are expected to begin soon, possibly within the next few months. When they do, the treatment will be one step closer to human trials, which may occur in months or years.

Also in the coming months, further manuscripts demonstrating the effectiveness in treating leukemia are expected to be released, the letter from Curley said.

Stay tuned to naplesnews.com for additional information on this developing story. In the meantime, examine the Daily News' article and video released in June detailing Kanzius' development of the treatment.

Source

Study shows Kanzius' concept works

BY DAVID BRUCE
david.bruce@timesnews.com [more details]
Published: December 19. 2008 12:01AM

What It Means

Researchers at M.D. Anderson Cancer Center in Houston have proved they can target cancer cells exclusively and destroy them with John Kanzius' external radio-frequency generator. It clears a significant hurdle in proving the device can successfully treat cancer in humans.

Researchers have shown that they can target cancer cells with tiny pieces of gold and destroy the cells by using John Kanzius' external radio-frequency generator.

The success clears a major hurdle in proving that the Millcreek Township inventor's device can be used to successfully treat cancer in humans.

A scientific article about the targeting will be published today on the Web site of the Journal of Experimental Therapeutics and Oncology. The journal's Web site is www.oldcitypublishing.com/JETO/JETO.html.
[p. 313-326
Noninvasive radiofrequency field-Induced hyperthermic cytotoxicity in human cancer cells using cetuximab-targeted gold nanoparticles
Steven A. Curley, Paul Cherukuri, Katrina Briggs, Chitta Ranjan Patra, Mark Upton, Elisa Dolson and Priyabrata Mukherjee
abstract full text]

"I was pretty excited when the targeting happened," said Steven Curley, M.D., principal investigator for the Kanzius Project at M.D. Anderson Cancer Center in Houston. "It proves that this has the potential to work, and that it makes sense for us to continue pushing."

The published article is important because it gives the results scientific validity. Scientific journals including JETO contain articles that have been peer-reviewed to meet standards of quality.

The Kanzius Project has gained worldwide attention in the past 12 months. It has been featured on "60 Minutes" and CNN, and written about in major newspapers such as the Los Angeles Times.

The device works by sending radio waves into the body, which heat nanoparticles -- microscopic pieces of gold or carbon -- hot enough to kill the cancer cells in which they are placed.

But the biggest obstacle -- what Curley has called the "so what" question -- has been whether researchers can send the nanoparticles only to the desired cancer cells.

"This paper shows that we can target the surface of certain cancer cells," Curley said.

Curley and his research team did it by linking specific antibodies, or proteins, to the nanoparticles. The antibodies attach to the surface of certain cancer cells and are absorbed, but they don't attach to healthy cells.

Researchers tested pancreatic and colorectal cancer cells that easily absorb a particular antibody, cetuximab. They also used breast cancer cells that don't absorb the antibody as a control group.

Live cancer cells and the treated nanoparticles were placed in specimen dishes and allowed to incubate for 24 hours. They were then blasted with radio waves from Kanzius' device for two minutes.

The results: Nearly 100 percent of the pancreatic and colorectal cells were killed, but hardly any of the control group's cells were destroyed.

"It shows that we can target specific types of cancer," Curley said. "We're now working on other types of cancer cells, including breast, liver, prostate, leukemia and ovarian."

Curley said that he expects to finish writing "six to eight" more scientific manuscripts about Kanzius' device by mid-2009.

One of those papers is expected to be about tests done on blood samples involving Erie-area patients with blood cancers, such as leukemia, lymphoma and myeloma.

Blood samples were collected at the Regional Cancer Center earlier this year and treated with the RF device to determine if the radio waves killed all the cancer cells without harming healthy ones.

"We received the data, though it was a bit fragmented," Curley said. "The results are interesting, but we need more studies."

In addition to writing papers, Curley and his staff are conducting animal tests with Kanzius' device.

They hope to get approval from the Food and Drug Administration to begin human trials by late 2010. If human trials are approved, Curley has promised that Phase II trials would be held at the Regional Cancer Center, 2500 W. 12th St.

"We are right on target," Curley said. "We have a staff of nine, and we're looking to expand by another five people. I'm keeping them running."

Kanzius said he is confident the device will work on humans.

"This was a big step," Kanzius said in a telephone interview from his winter home in Sanibel, Fla. "If you look at this project as a puzzle, the targeting is the last piece. It's all downhill from here."

DAVID BRUCE can be reached at 870-1736 or by e-mail.

Source

Kanzius lands seed money

BY DAVID BRUCE
david.bruce@timesnews.com [more details]
Published: August 19. 2008 1:10AM

John Kanzius, left, waits near a prototype of the radio-frequency device he invented, at Industrial Sales and Manufacturing Inc., in Millcreek Township on July 23. Steven Curley, M.D., principal investigator for Kanzius' device at M.D. Anderson Cancer Center in Houston, was visiting to see if Erie might host human trials on the device as early as 2010. (Greg Wohlford / Erie Times-News) Zoom | Buy this photo

John Kanzius used to have trouble getting government officials interested in his experimental cancer-treatment device.

Now they seem to be eager to help him.

U.S. Rep. Phil English, of Erie, R-3rd Dist., visited Kanzius' lab Monday to promise $500,000 in federal funding for the external radio-frequency generator. The House Committee on Appropriations has approved the funds, and the House could act on it as early as September, English said.

The bill must still be approved by the full House and Senate and signed by President Bush, though English said "it's very close" to being a done deal.

"This is the kind of project the federal government should support," English said.


English is the latest high-ranking public official to meet with Kanzius. The Millcreek Township inventor had lunch with Gov. Ed Rendell last week, and Kanzius demonstrated his cancer-killing device to Sen. Bob Casey in early July.

Government funding is crucial, Kanzius said, because it can speed research at both M.D. Anderson Cancer Center, in Houston, and the University of Pittsburgh Medical Center.

"Just like when you spread fertilizer on the ground to grow grass more quickly, funding research helps get you results more quickly," Kanzius said.

It will cost about $10 million to fund all of the work needed to take Kanzius' device to human trials, said Steven Curley, M.D., principal investigator for Kanzius' device at M.D. Anderson. The device works by emitting radio waves that heat and destroy cancer cells targeted with tiny pieces of metal, called nanoparticles.

The $500,000 appropriation wouldn't be the first federal appropriation for Kanzius' device -- U.S. Sen. Arlen Specter has helped provide $384,000 in funding for the project -- but it would be the largest.


The money would cover the cost of four researchers at M.D. Anderson or UPMC for an entire year, Kanzius said.

"You're buying time," he said. "You're buying lives."

Interest has grown in Kanzius' device since a "60 Minutes" report aired April 13. It has gained worldwide attention as a possible treatment for a variety of cancers.

"I'm hearing a lot more feedback from the public," English said. "It's something people are aware of and truly support."

Kanzius said continued success at the two research centers has also spurred interest.


"And I believe this is just the tip of the iceberg," Kanzius said. "It's the beginning of a huge groundswell of research dollars."

It's not known how the $500,000 would be divided between UPMC and M.D. Anderson. English said it would be up to the John Kanzius Cancer Research Foundation.

DAVID BRUCE can be reached at 870-1736 or by e-mail.

You can donate to the Kanzius Project by visiting www.johnkanziuscancerresearchfoundation.org or by mailing a check or money order to the John Kanzius Cancer Research Foundation, 915 State St., Erie, PA 16501.

Source

Heat May Harbour Testicular Cancer Cure

By: ANI


Boffins at Johns Hopkins Medical Institutions have found that heat sensitivity may be the key behind why testicular cancer patients like, seven-time Tour de France winner Lance Armstrong, survive far better than patients with other advanced cancers.

Researchers suggest that heat sensitivity may make testicular cancer cells more susceptible to standard treatments and die off more readily.

Armstrong's tumour, like those of all primary testicular cancer, began in the testes, which are a few degrees cooler than the rest of the body to keep heat-sensitive sperm safe.

Hopkins scientists believe the temperature boost may weaken protein scaffolding within the cancer cell's nucleus, making the nuclear DNA more vulnerable to chemotherapy and radiation when the cancer cells spread into warmer regions of the body.

	Heat is at the centre of many cellular changes.

Robert Getzenberg, Ph.D., professor and director of urology research at Johns Hopkins said that testicular cancer patients have a much better chances of surviving the disease than those patients suffering from other types of cancer.

"More than 80 percent of men with widespread testicular cancer can achieve a cure. In other cancers, the cure rate is far less," he said.

Dr Getzenberg feels that heat also may offer a strategy against other malignancies as well.

"If we understand how heat may naturally help kill testicular cancer cells, then perhaps we can make it happen in other solid tumours," he said.

Donald Coffey, Ph.D., the Catherine Iola & J. Smith Michael Distinguished Professor of Urology, Oncology, Pathology, and Pharmacology and Molecular Sciences at Johns Hopkins, said that scientist were now working on ways to harness heat to fight other types of cancer as well.

"Heat is at the centre of many cellular changes. It drives everything from reproduction to fighting infection, and now we'd like to harness its power to fight cancer. Scientists haven't connected precisely how heat affects the scaffolding and might be one of the reasons treatment can cure tumors such as Lance Armstrong's," he said.

Providing scientific evidence for the theory was unrelated study by researchers at the Robert Wood Johnson Medical School of men with undescended testes, a fairly common birth defect in which the genitals remain stuck in the pelvis after birth instead of descending into the scrotum.

Theodore DeWeese, M.D., professor and director of the Department of Radiation Oncology and Molecular Radiation Sciences, and colleagues state that an examination of the men's sperm showed that the sperm cells' nuclear protein scaffolding, known technically as the nuclear matrix, was also wrecked.

"The warmer region of the pelvis made the nuclear matrix in the cells that make sperm unstable and prone to death, and cancer cells already have unstable nuclear matrices. If we give a cancer cell more heat to completely disrupt its matrix, and then add toxic drugs and radiation, the cancer cell may be so disabled that it won't be able to replicate and will die."

"Once we've devised the best way to deliver heat to cancer cells, we will test the technique in animal models to help define the right temperature and doses of chemo and radiation therapy," he added.

To direct heat only to cancer cells, the researchers are investigating the use of nanoparticles that have an affinity for surface proteins carried by cancer cells. The Hopkins scientists believe that, if injected through the bloodstream, magnetic nanoparticles may be able to reach tumours throughout most of the body. And as long as the nanoparticles penetrate most of the cells in the tumour, the temperature increase will spread to the entire mass.

The report is published in the July 26 issue of the Journal of the American Medical Association

Source

Reminds me of Kanzius and his radio wave machine heating nanoparticles attached to cancer cells to kill them.

Contributing toward finding a cure

By MIKE CAPUTO	July 17, 2008

While sitting on the couch watching television at his Garden Town home, Dr. Stephen Freedman envisioned a cure for cancer.

His vision was guided by a television feature, which focused on the progress made by Dr. Steven Curley and John Kanzius, who have made strides toward finding a method to kill cancer cells.

After watching that news feature on an April edition of 60 Minutes, Freedman felt compelled to pick up the phone and call Curley. Freedman was confident that his idea could contribute toward achieving nearly every scientist's dream of finding a cure for cancer. But he still couldn't pick up the phone.

"I figured I'd better wait, might as well wait, he will never get back to me," Freedman said. "I mean he is on 60 Minutes, he is probably being barraged with telephone calls."

So he waited. About a month later, Freedman gathered up the courage to make the call to Curley's office at UT MD Anderson Cancer Center in Houston. A receptionist answered, and promised to pass along Freedman's message. Before he even checked for a return call, Freedman had a message waiting for him at his Adelphi University office less than 24 hours after he phoned Curley.

"It was mind-blowing," Freedman said. "I never expected this."

Freedman, a chemistry professor at Adelphi, told Curley that his extensive work with peptides could possibly enhance the renowned researcher's experiment. Curley, a surgeon and medical researcher, teamed up with Kanzius, a cancer patient and a former radio and television technician, to use radiowaves and nanoparticles to kill cancer cells. Using the heat from radiowaves, Curley and Kanzius' method attaches nanoparticles onto antibodies that make their way to the cancer cells to destroy them.

"I have got to tell you in 20 years of research, this is the most exciting thing I have ever encountered," Curley told 60 Minutes.

Freedman, 59, determined that instead of using antibodies, peptides could be more efficient. That is because if nanoparticles attach to the smaller protein-based peptide, they could have an easier time getting to the cancer cells. According to Freedman, Curley took his idea seriously, and plans to run tests sometime in August.

Making an impact on a potentially groundbreaking study to cure cancer is extra special to Freedman, who lost his 75-year-old father to cancer in 1993.

"It was the worst experience of my life, to see my father waste away with cancer," Freedman said. "This whole experiment has a special meaning."

Freedman has lived in Hewlett since 2005, when he started teaching at area colleges, first at St. John's and now at Adelphi. He spent several years teaching chemistry at Florida Atlantic University in Boca Raton. Freedman, who grew up in Brooklyn, earned his doctorate from Utah State University; a Master's of Science from Polytechnic University; and his Bachelor of Science from Brooklyn College.

It's still early in the experimentation process, and there are still many questions to answer. Though he claims not to be religious, Freedman explained that it is important to have faith for such projects to succeed.

"I request that readers say a prayer for a positive result," he said.

However, he does believe luck will factor in.

"We have so many of the greatest minds working on a cure for cancer, yet there is no cure," Freedman said. "It will take a dramatic stroke of luck to come upon the ultimate answer."

Freedman can be contacted by e-mail at freedman@adelphi.edu.

Comments about this story? Mcaputo@liherald.com or (516) 569-4000 ext. 201.
http://www.usu.edu/ust/pdf/2008/july/itn0717085.pdf

Laser-induced destruction of gold nanoshells: new weapons in the cell-killing arsenal

Nikolai Khlebtsov, Garif Akchurin, Boris Khlebtsov, Georgy Akchurin, Valery Tuchin, and Vladimir Zharov

The detonation of silica-gold nanoshells at energy levels safe for normal tissues and their unprecedented low threshold for vapor bubble formation in solution highlight an advance in cell-killing nanotechnology.

Nanoshells are nanoparticles that consist of ultra-thin metal shells surrounding core materials such as silica.1 Gold nanoshells (GNSs) have already been used in various applications, such as analytical diagnostics, photothermal-based therapies, and in vivo optical visualization, based in part on their ability to diffract and absorb light of varying wavelengths. The efficiency of nanoshell technologies,2,3 however, is limited by gaps in our current understanding of the thermal interactions between nanoshell particles and laser light pulses or continuous waves in the context of complex biological environments. Irradiation, even with moderate pulses of energy, can induce melting, evaporation, and fragmentation of nanoshells. These events can drastically alter the intended therapeutic effects and lead to the formation of vapor bubbles as well as acoustic waves and shock waves.4

Here, we report on the destruction of silica-gold nanoshells after the application of a single nanosecond laser pulse. Strikingly, direct visual observation indicated a dramatic color change within the GNS solution. According to spectroscopic and transmission electron microscope (TEM) data, this phenomenon was accompanied by complete fragmentation of the GNSs into small (20–30nm) gold particles with an absorption resonance typical of colloidal gold (530nm). Furthermore, the formation of vapor bubbles was observed at remarkably low-energy thresholds, significantly lower than that associated with other types of manufactured nanoparticals.

Figure 1. Suspensions of silica-gold nanoshells before (a) and after (b) irradiation with individual laser pulses (1064nm, 10mJ) and the corresponding extinction spectra (c). It should be emphasized that the red sample (b) corresponds to multiple, single-pulse irradiations of the suspension volume followed by mixing due to diffusion.

Figure 2. TEM images of intact silica cores (a) and nanoshells (b), as well as nanoshells following irradiation (c–f).

The GNSs were fabricated as previously described5,6 to yield particles with an average silica core diameter and gold shell thickness of 140 and 15nm, respectively. Irradiation of the GNS suspension was carried out with a Nd:YAG (neodymium-doped yttrium aluminium garnet) pulse laser (Carl Zeiss, Germany) with the following parameters: wavelength, 1064nm; pulse width, 4ns; pulse energy, 1–10mJ; minimal laser beam diameter at focus 0.1mm. The suspensions of GNSs were irradiated in glass cuvettes with an optical path length of 1, 3, and 10mm, as well as in standard 1.5ml Eppendorf vials with a suspension volume of approximately 1.5ml. Sequent irradiation of different suspension parts led to a color change within the whole suspension volume, changing from the initial green-blue color—see Figure 1(a)—to purple-red: see Figure 1(b). The measured extinction spectra of nonirradiated and irradiated samples showed significant transformation after irradiation of intact GNSs, which was characterized by a drastic decrease in the absorption band maximum near 900nm and appearance of a new absorption resonance near 530nm: see Figure 1(c). Such a resonance is typical of colloidal gold nanospheres that have undergone laser-induced fragmentation.

TEM analysis confirmed the extensive destruction of the GNSs under these conditions. Figure 2(a) and (b) shows TEM images of intact silica nanospheres and GNSs prior to irradiation. After application of the single 10mJ pulse, the formation of multiple small gold spheres in solution was observed—see Figure 2(c) and (d)—with a broad size distribution ranging from a few nanometers to 50nm. The average nanosphere diameter was within the range of 20–30nm, consistent with the localization of the absorption resonance near 530nm. Close inspection of the TEM images also revealed full or partial melting of the GNSs and the appearance of solid spherical gold nanoparticles of various sizes attached to intact silica cores—see Figure 2(e) and (f)—as well as the displacement of silica cores and the subsequent formation of gold rings: see Figure 2(d).

Time-resolved monitoring of these processes, using the photothermal thermolens technique,7 demonstrated significant vapor bubble formation after the application of a single 8ns pulse at a fluence of 5mJ cm−2 and higher. On average, the bubble lifespan and size were in the range of 20ns–5μs and 0.5–20μm, respectively, in the fluence range of 4–50mJ cm−2, with a further increase in duration and size as the laser energy was increased. It is important to note that the minimal energy threshold determined in these experiments is well below the laser safety standard of 20–34mJ cm−2 in the near-IR spectral range of 650–950nm.8

These findings suggest that the explosive destruction of nanoshell particles may prove useful in biomedical applications. The dramatic color change observed in these experiments points to the utility of GNSs as potential color-based nanosensors for use in monitoring laser-pulse treatments. However, the most attractive property of GNSs may be their low-energy threshold for vapor bubble formation, a phenomenon that correlates with irreversible and fatal cell damage. Indeed, GNSs may prove very promising for the killing of targeted cells given that they have the lowest threshold for microbubble formation among the many different nanoparticles tested. Further research on the effects of GNS clustering and fabrication methods that dramatically increase cellular damage and reduce the laser-pulse energy required to produce these explosive effects may further the utility of GNSs in cell-killing applications.

Nikolai Khlebtsov
Lab of Nanobiotechnology
Institute of Biochemistry and Physiology of Plants and Microorganisms
Biophysics Chair
Saratov State University
Saratov, Russia

Garif Akchurin, Georgy Akchurin, Valery Tuchin
Saratov State University
Saratov, Russia
Boris Khlebtsov
Lab of Nanobiotechnology
Institute of Biochemistry and Physiology of Plants and Microorganisms
Saratov, Russia

Vladimir Zharov
Philips Classic Laser Laboratories
University of Arkansas for Medical Sciences
Little Rock, AR

References:

1. L. R. Hirsch, A. M. Gobin, A. R. Lowery, F. Tam, R. A. Drezek, N. J. Halas, J. L. West, Metal nanoshells, Ann. Biomed. Eng. 34, pp. 15-22, 2006.

2. D. Pissuwan, S. M. Valenzuela, M. B. Cortie, Therapeutic possibilities of plasmonically heated gold nanoparticles, Trends Biotechnol. 24, pp. 62-67, 2006.

3. V. P. Zharov, K. E. Mercer, E. N. Galitovskaya, M. S. Smeltzery, Photothermal nanotherapeutics and nanodiagnostics for selective killing of bacteria targeted with gold nanoparticles, Biophys. J. 90, pp. 619-627, 2006.

4. R. R. Letfullin, C. Joenathan, T. F. George, V. P. Zharov, Laser-induced explosion of gold nanoparticles: potential role for nanophotothermolysis of cancer, Nanomedicine 1, pp. 473-480, 2006.

5. S. J. Oldenburg, R. D. Averitt, S. L. Westcott, N. J. Halas, Nanoengineering of optical resonances, Chem. Phys. Lett. 288, pp. 243-247, 1998.

6. B. N. Khlebtsov, V. A. Bogatyrev, L. A. Dykman, N. G. Khlebtsov, Spectra of resonant light scattering of gold nanoshells, Opt. Spectrosc. 102, pp. 233-243, 2007.

7. G. Akchurin, B. Khlebtsov, G. Akchurin Jr., V. Tuchin, V. Zharov, N. Khlebtsov, Gold nanoshell photomodification under single nanosecond laser pulse accompanied by color-shifting and bubble formation phenomena, Nanotechnology 19, no. 1–8, pp. 015701, 2008.

8. American National Standard for Safe Use of Lasers, ANSI Z136.1, 2000.
DOI: 10.1117/2.1200805.1176

Source

This is a laser induced destruction of the gold nanoparticles. I wonder if the Kanzius radio wave machine will have a similar effect on gold nanoparticles or something completely different such as heating up only and effecting cell destruction in that way.

Can this man cure cancer? And viral infection? And arterial plaques?

By MATT CLARK (Contact)

Video

10:15 p.m., Saturday, June 21, 2008

How Kanzius' treatment works

John Kanzius couldn’t tell his wife what he was doing.

He’d been diagnosed with a rare form of B-cell leukemia in 2002, and he’d endured months of chemotherapy.

But still the cancer persisted. As he tells it: “I go into a partial remission or whatever. In another six or eight months, it’s back again. So, I go back into some more chemotherapy.”

Then one late night in 2003, unable to sleep and energized with an idea, the chemo-battered Kanzius began to tear apart the couple’s vacation home on Sanibel Island.

“Of course, I couldn’t say at that point that I’m working on a cancer treatment.” The 64-year-old Kanzius (it’s pronounced like the state) remembers thinking about the parts he’d need. And how he’d explain all this to his wife, Marianne.

“She would have found the nearest psychiatrist and said, ‘After chemotherapy tomorrow, I’ve got another appointment for you,’” he says. “So she would say, ‘What are you doing?’ And I would just tell her that I was working on some stuff for amateur radio.”

Kanzius’ goal was to focus a large number of low-frequency radio waves into a small area. The idea was to heat metal, and in turn kill cancer cells. The same thing that happens when metal is placed in a microwave oven, which uses frequencies a million times more powerful to vibrate molecules and generate heat. The metal heats up. Way up.

Get the metal into cancer cells, Kanzius reasoned, and the cells would be destroyed without harming healthy cells in the body.

He has no medical background, not even a college degree. Still, Kanzius was determined to develop a new cancer treatment, and he used his background in electronics — specifically radio frequency transmitters — to move forward.

At 22, Kanzius worked at RCA as a technical assistant. He remembers the time when the company couldn’t solve a problem with its color television transmitters, which had put RCA at odds with Federal Communications Commission specifications and some of its customers.

“I was able to do in one day what they couldn’t do in two years with all of their Ph.D.’s, and it got me well-recognized,” Kanzius says proudly. “I was able to fix that with a 50-cent part, in like an hour.”

Later, Kanzius co-owned and operated a broadcasting company in Erie, Pa., where he still lives part of the year. And he still puttered at home with his radios.

Back in Erie, Kanzius had all the requisite parts. But on the island, he had to get creative. The key ingredient turned out to be heavy-duty pie plates he found rummaging in the kitchen. His wife of 44 years would later search out the radio parts he needed.

“John is often up in the middle of the night,” she says of the early morning her husband was pulling out pie plates. “That night, he was like a man possessed. He was making an awful lot of noise and racket.

“I asked him to go back to sleep and he said, ‘I have to think about this, I can’t sleep.’ He had chemotherapy in the morning, so I was concerned.”

That second round of chemo had made Kanzius so weak he was even unable to board a plane for the funeral of his mother, who died at 83 of lung cancer in late 2003.

But he pressed on.

Soon, Kanzius’ makeshift laboratory in the garage of his Sanibel Island home took shape. Soon, he’d be injecting pieces of metal into hot dogs and liver. The machine’s waves successful heated the metal embeded in the meat. The idea of a new cancer-fighting treatment was coming together.

Soon after Kanzius acquired patents for his work, the machine was featured in a newspaper article in the Erie Times-News. That got the attention of Dr. David Geller, then co-director of the Liver Cancer Center at the University of Pittsburgh Medical Center. Geller says he was skeptical at first.

Then Dr. Steven Curley got on board. Curley is a professor of surgical oncology at M.D. Anderson Cancer Center in Houston, rated No. 1 in cancer treatment by U.S. News and World Report for four of the past six years.

Curley already had been working with radio frequency treatment methods for cancer, and was part of the effort that led to U.S. Food and Drug Administration approval for radio frequency ablation, a treatment that works by using a needle-like probe into — or next to — a cancerous tumor. Radio energy from the needle kills the cancer cells — but sometimes can harm surrounding tissue.

Radio frequency ablation has not been effective on more difficult-to-reach tumors, nor does it have an effect on a cancer that has metastasized, or spread to other parts of the body. And Curley’s method, one of four similar ways of using superheated probes on cancer cells, still required a device to be inserted, and then heated.

The key ingredient in the Kanzius innovation are nanoparticles — pieces of metal so small that 75,000 to 100,000 of them can fit across the tip of a human hair. They are introduced into the body where the cancer lives, and then the machine ignites them to cell-killing temperatures.

For the very first experiments, Kanzius and Curley went to Nobel laureate Rick Smalley for the nanoparticles. Smalley was skeptical that the process would work, but became a believer after the nanoparticles successfully burned when activated by the machine. And on his deathbed in October of 2005, Smalley reportedly asked Curley to promise the research would continue.

And it has.

Every experiment by researchers has led them closer to clinical trials in humans, which the researchers believe could occur in three to five years. Early experiments have demonstrated that cancer cells paired with nanoparticles can be destroyed, while leaving nearby healthy cells intact.

In an important experiment performed by Curley, pancreatic cancer cells and liver cancer cells were combined with nanoparticles in petri dishes, and then exposed to the radio frequency waves created by Kanzius’ machine. The successful results were presented in January of 2007 at a conference of the American Society of Clinical Oncology.

Then the researchers tested the theory on animals: Both Curley and Geller have reported success in destroying cancerous tumors in lab animals — using Kanzius’ machine and nanoparticles.

Curley’s success with tumors in rabbits was published in October of last year in Cancer, a medical oncology journal published by the American Cancer Society. Geller’s success treating cancerous cells in rats is expected to be published in August.

All are hopeful signs. But these breakthroughs have only worked on tumors, not cancer that has spread throughout the body.

The next step is to get the nanoparticles to hitch a ride on the body’s disease-fighting antibody cells right to the cancer, no matter where it is hiding. Patients would take a pill, or be injected with a nanoparticle-antibody cocktail. The microscopic metallic particles could then be zapped by Kanzius’ harmless radio field. The waves would kill the cancer cells in seconds — or at least that’s the hope.

“In this whole process, that’s considered the holy grail,” Kanzius says. “To go after the specific metastasized cells.”

Geller explains it this way: “Lung, breast, colon and prostate — none of those patients die of their primary (cancer), they die from metastasis.”

But before anyone gets too excited, Kanzius offers this caveat: If the research leads to treatment in humans, it won’t necessarily mean cancer is cured. Kanzius says that many types of cancer, after being destroyed, can regenerate. Which may mean that some patients will have to get retreated at regular intervals.

Kanzius remembers the call he received from Curley when his experiments first showed that cancerous tumors could be destroyed in laboratory animals. That was around Christmas of 2006, he says.

“That was a big day for him and he called me right after he got the results,” Kanzius says. “I was very excited, you know. I told my wife, ‘This is unbelievable. It works.’”

Both Kanzius’ machine and the researchers’ targeting mixtures will enter the FDA approval process at the same time — probably within months. And it probably won’t be difficult to find willing candidates for clinical trials, Kanzius included. But will they occur before cancer takes his life?

Medical communities are starting to warm to the possibilities. Lee Memorial Health System, for example, has signed up to host clinical trials. Dr. Sharon MacDonald, chief officer of the Lee Memorial Health System Foundation and vice president of oncology, calls the targeting treatment “very promising.”

She says that unlike the current limited stock of cancer treatments, Kanzius’ machine wouldn’t require having toxic chemicals, radiation or medical instruments enter the body. She says the new treatment will use non-toxic gold nanoparticles and proven, lab-created antibodies to target the cancer cells.

MacDonald says taking part in early clinical trials will be a good fit for Lee Memorial’s new cancer center being constructed near the intersection of Interstate 75 and Colonial Boulevard in Fort Myers.

“It piqued our interest to be able to be local and be only one of a handful of sites in the nation to be able to participate in a human trial when it comes about,” MacDonald says.

Kanzius, who headed back north to Erie in early May, says he hopes to build a larger version of his machine by August. He says it will allow a person to receive treatment throughout his or her body.

He says his machine is also showing promise in the treatment of like HIV, and could play a role in overcoming future water shortages. For example, if it can remove salt from sea water, the world might have an almost limitless supply of drinking water. Kanzius initially experimented with test tubes full of seawater collected from the canal behind his Florida home, and now research on the theory is progressing at Penn State University.

The possibilities about what the machine might accomplish run rampant. Can it defeat viruses and infections? Heart disease? No research has begun on those hopeful thoughts, but Kanzius has submitted patents for the treatment of other diseases. “One of those viruses could be HIV,” Kanzius says. “The viruses are actually easier to work with than cancer cells,”

Kanzius also says it may be possible to target plaques in arteries.

“It’s exciting knowing that there are other uses out there,” Kanzius says.

But making money isn’t the motivation. Kanzius says he filed numerous patents to protect the machine and the research surrounding it. There will be plenty of money to be made in creating the nanoparticle-antibody cocktails, he says.

But just getting to the finish line is going to be difficult. “The major setback is that the research is very expensive and most of the research that I’ve been doing is because of philanthropic funding,” says researcher Geller.

No big company has stepped in to fund research into Kanzius’ machine, so the money has to come from somewhere else. He’s established the John Kanzius Cancer Research Foundation. Its Web site — www.kanziuscancerresearch.com — has drawn a rash of donations as media reports on the device have spread.

Kanzius is not letting all of this attention go to his head. Being interviewed on “60 Minutes” by Lesley Stahl. Going on the “The Early Show.” Reporters asking for interviews, from around the world.

Most of the media requests go unanswered. His time, he says, is limited.

“I’d be better off building better equipment, concentrating on ways to improve it, than figuring out what flight I’m going to take to be on Oprah Winfrey,” he says.

Even his Sanibel neighbors are interested, and supportive.

During a late April interview for this story, Sanibel resident Candy Scothorn can’t help but interrupt. “Congratulations,” she tells Kanzius. “We’re just very thrilled that you’re here and we’re proud. We greatly appreciate it.”

Scothorn reaches out her hand to be shaken.

“I do it this way,” he tells her, bumping knuckles instead of grasping her hand. It’s one way Kanzius lowers his exposure to germs that might attack his weakened immune system.

“It’s fabulous that he’s a human being. A soul,” adds the 51-year-old Scothorn.

Wife Marianne says it’s her husband’s cancer that keeps him from getting too excited.

“It has humbled both of us, and it’s kept us very grounded. His passion has been working on this project. That has taken most of his energy. How he does it, I don’t know, because I get tired.”

And yet Kanzius keeps going. Waiting for results. Battling cancer. Hanging on.

“‘Til I see it work, you know, (until) I see the first human treated and it works,” he says, “then it will be a day to celebrate and break open the champagne. There’s no need to build yourself up ‘til it gets to where you really want it to.

“There is probably going to be a stem cell transplant eventually,” he says about his own prospects against an unrelenting disease. ”But I’d rather do this than any other. At least I know this will work.”

Source

I note that Kanzius envisions using his radio wave machine to zap viruses, bacteria, and arterial plaque with an appropriately accompanying metal nanoparticle such as gold attached to them. It seems to me that regarding viruses, should NanoViricides include a metal nanoparticle in their virus seeking and attaching micelle-ligand Cide they would have a double barreled attack - 1) From the Cide itself, and 2) From the radiowave heating-destruction involving the metal nanoparticle.

And it must be noted that Kanzius' biggest remaining problem is getting the metal nanoparticle to go to - be attracted to - the virus and attaching itself to the virus - and we HAVE THAT BIT SOLVED ALREADY for our Cide!
*
*

(WO/2008/064002) RF SYSTEMS AND METHODS FOR PROCESSING SALT WATER

Pub. No.: WO/2008/064002 International Application No.: PCT/US2007/084541 Publication Date: 29.05.2008 International Filing Date: 13.11.2007
Applicants:	KC ENERGY LLC [US/US]; 3710 Volkman Road, Erie, PA 16506 (US) (All Except US). KANZIUS, John [US/US]; 3710 Volkman Road, Erie, PA 16506 (US) (US Only). ROY, Rustum [US/US]; 500 E. Marylyn Avenue, State College, PA 16506 (US) (US Only).
Inventors:	KANZIUS, John [US/US]; 3710 Volkman Road, Erie, PA 16506 (US). ROY, Rustum [US/US]; 500 E. Marylyn Avenue, State College, PA 16506 (US).
Agent:	MOORHEAD, Sean, T.; Calfee, Halter & Griswold LLP, 800 Superior Avenue, Suite 1400, Cleveland, OH 44114 (US).
Priority Data:	60/865,530 13.11.2006 US 60/915,345 01.05.2007 US 60/938,613 17.05.2007 US 60/953,829 03.08.2007 US

Title:

RF SYSTEMS AND METHODS FOR PROCESSING SALT WATER

Abstract:

Systems and methods for processing salt water and/or solutions containing salt water with RF energy. Exemplary systems and methods may use RF energy to combust salt water, produce hydrogen from salt water or solutions containing salt water, to volatilize a secondary fuel present in solutions containing salt water, to produce and combust hydrogen obtained from salt water or solutions containing salt water, to volatilize and combust secondary fuel sources present in solutions containing salt water, to desalinate seawater, and to carry out the electrolysis of water are presented. An exemplary system may comprise a reservoir for containing a salt water solution or salt water mixture; a reaction chamber having an inlet and an outlet; a feed line operatively connecting the reservoir to the inlet of the reaction chamber; an RF transmitter having an RF generator in circuit communication with a transmission head, the RF generator capable of generating an RF signal absorbable by the salt water solution or the salt water mixture having a frequency for transmission via the transmission head; and an RF receiver; wherein the reaction chamber is positioned such that it is between the RF transmission head and the RF receiver.

CLAIMS (Some)
1. A method of combusting a liquid, comprising: providing an RF system having an RF generator and a transmission head, the RF generator capable of generating an RF signal for transmission via the transmission head, and the transmitted RF signal capable of generating an ignitable gas from sea water in an open container proximate the transmission head; providing a liquid comprising water and at least one ion, the liquid having an effective amount of the at least one ion dissolved in the liquid for generation of an ignitable gas by the transmitted RF signal; arranging the transmission head with respect to the liquid such that the transmitted RF signal interacts with at least some of the liquid; transmitting the RF signal via the transmission head; igniting the ignitable gas generated from the liquid by the transmitted RF signal to initiate combustion; and wherein the transmitted RF signal is transmitted for a time sufficient to combust at least a portion of the liquid.

10. The method of combusting a liquid according to any of claims 1-9 wherein the RF signal generated by the RF generator has a frequency of approximately 13.56 MHz.

26. The system of any of claims 23-25, wherein the salt water solution further comprises: a. at least one additive; or b. at least one secondary fuel; or c. a mixture of both.

27. The system of claim 26, wherein the additive is a surfactant.

28. The system of claim 26, wherein the additive is capable of forming an azeotrope with water.

29. The system of claim 26, wherein the additive is capable of elevating or lowering the freezing point of water.

30. The system of claim 26 wherein the additive is a polymer.

31. The system of claim 26 wherein the secondary fuel is selected from the group consisting of alcohols, aldehydes, ketones, carboxylic acids, or mixtures thereof.

32. The system of claim 31, wherein the alcohol is selected from methanol, ethanol, isopropanol, n-propanol, and mixtures thereof.

40. The system of any of claims 24-39 comprising a hydrogen collection tank operatively connected to the reaction chamber that collects hydrogen generated within the reaction chamber.

Source

Will this replace oil as our fuel? Stranger than fiction!!

Observations of polarised RF radiation catalysis of dissociation of H2O–NaCl
solutions
R. Roy*1,2, M. L. Rao1 and J. Kanzius3
Materials Research Innovations 2008 VOL 12 NO 1 6

John Kanzius hopes Erie will get cancer trials (AUDIO & VIDEO)

BY DAVID BRUCE
david.bruce@timesnews.com [more details]

AUDIO:
http://goerie.com/audio/0602kanzius

VIDEO:
http://www.gorie.com/video/0602kanzius

KANZIUS Special Section:
http://goerie.com/Kanzius

Published: June 03. 2008 6:00AM

John Kanzius meets with the editorial board about his new developments in his groundbreaking cancer treatment research. (Erie Times-News) Zoom | Buy this photo

It's been a busy spring for John Kanzius.

The Millcreek Township inventor has been the subject of a "60 Minutes" profile about his invention, a radio-frequency generator that has been proved to completely kill cancerous tumors in animals without side effects.

He also has met with Gov. Ed Rendell and U.S. Rep Phil English, of Erie, R-3rd Dist., to seek funding for more research and manufacturing of the device.

This summer, Kanzius will work with owners of Industrial Sales and Manufacturing to build a larger RF device that can be used in human trials.

He has even talked with Hollywood executives about a movie based on his invention.

Kanzius, 64, met Monday with the Erie Times-News Editorial Board.

He spoke for 50 minutes about his invention, which is being tested at world-class research institutes as a cancer-killing machine and a device that converts saltwater to energy.

Q What's the latest information you can tell us about cancer research of your device at M.D. Anderson Cancer Center in Houston, and the University of Pittsburgh Medical Center?

A Researchers at M.D. Anderson have targeted specific cancers that they have proven -- this was the $64,000 question -- can we get the nanoparticles where we want to get them? They have proven they can get them where they want to get them, in specific tumors. That manuscript will be out in July or early August. ... I can't give you more information about it (because) the journals get very upset if the press gets the information and peer-reviews it before they have a chance to send it to their medical people for evaluation.

(Dave Geller, M.D., principal investigator of Kanzius' device at UPMC) has an article coming out in Surgery magazine in August that talks about gold nanoparticles and the ablation of cancers in the livers of rats.

Q Will human trials of your device happen in Erie?

A (Steve Curley, M.D., principal investigator of the device at M.D. Anderson) wants human trials to happen in this town ... and I would like to see that happen. Dr. Curley has assured me that some institution will run the test if they can meet the qualifications.

Whether that is going to be Saint Vincent, whether it will be the Regional Cancer Center or some combination of them, I can't tell you at this point. The water is murky with (Saint Vincent and Hamot) and the RCC, and negotiations with UPMC.

Q How much of an economic impact would hosting human trials have for Erie?

A I see it being a big windfall. Erie will have a device not available elsewhere in the country except for a handful of places, like Houston, Minneapolis, Boston and places on the West Coast. It puts this community in a prestigious and elite status. Patients from Buffalo, Cleveland and Pittsburgh will come here for treatment, at least until there are enough devices built to send to those cities.

Q You said there have been numerous offers to buy your project. Are you tempted to sell?

A It is not my intent. My intent is to see by license or whatever, a majority of equipment is manufactured in Erie. Some stuff can't be manufactured here. ... I can't find anybody who wants to make the RF generators for the equipment, which is a very integral part. One manufacturer said they would be glad to make it -- in Mexico. It made me almost turn blue.

Q What is happening with research at Pennsylvania State University about using the device to "burn" saltwater? There has been debate on the subject that it takes more energy to heat the saltwater than the chemical reaction releases.

A Everyone says it's all about "energy in, energy out" but (Rustum Roy, a Penn State professor who is leading saltwater-to-energy research on the device) said it costs $1.35 to make a gallon of ethanol and nobody complains about that and the fact it has more carbon releases in it than gasoline. Everyone says this is green. This is the way to go. (Roy) said, "Wouldn't you rather have something that gives off pure drinking water as a by-product and may be nearly as efficient as ethanol?"

Q Is there going to be a movie about your life and invention?

A I'm waiting for (the movie's producer) to put out a press release. (It's a) major motion picture company in Los Angeles, but they haven't (issued) a press release yet, so I've been asked to embargo that. ... They have mentioned different people (to act in it), but it's the availability of the actors and actresses.

DAVID BRUCE can be reached at 870-1736 or by e-mail.

Source

Kanzius device burns off salt to purify water

Tue May 13, 2008

By Heather Warlick
Staff Writer

Besides the hope it holds for cancer treatment, John Kanzius' machine has other interesting functions. Penn State researchers have been exposing saltwater to radio frequencies.

"One of the fellows in the lab in Erie called and told me he'd seen a flash in the test tube; it looked like the saltwater made a flame,” Kanzius said. When he performed experiments on saltwater, Kanzius found the saltwater burned when he heated it with radio waves. He was able to keep saltwater burning like a candle.

Subsequent testing showed that subjecting saltwater to radio frequencies changes the molecular structure of water. The salt burns away, leaving fresh water behind.

"If the byproduct of burning saltwater is free desalinized water, that's a pretty nice byproduct to have,” Kanzius said. A scientific article was published in Materials Research Innovations this year that confirms the molecular change in saltwater when exposed to polarized radiofrequency radiation at 13.56 MHz.

Kanzius said independent researchers measured the flame's temperature at above 3,000 degrees Fahrenheit, which indicates an enormous energy output.

Penn State University chemist Rustum Roy said the question of saltwater's potential lies largely in its energy efficiency. Kanzius said he has powered a hot-air engine with saltwater, but whether the system can power a car or be used as fuel is not known.

Source

Did a Guy Find a Cure for Cancer Using Pie Tins and Hot Dogs?

John Kanzius, a former businessman and radio technician who never graduated from college, may have discovered a way to kill cancer cells throughout the body without surgery, drugs, or side effects.

Kanzius was diagnosed with terminal leukemia six years ago, and after 36 rounds of chemotherapy and meeting children enduring the same, he decided to find a better cure. One night, he had a flash of inspiration, aided by his lifetime of experience with radio equipment. High-powered radio waves are harmless to human flesh, but will heat up metal particles. So if you can somehow lodge bits of metal into cancer cells, you can cook them with radio waves without damaging healthy tissue.

So he started playing around with his wife’s pie tins to try to reflect and concentrate radio waves, and ended up creating a prototype device that could send radio waves between two boxes. He then shelled out another $200,000 to create a more advanced, high-powered version, which he tested out with a copper sulfate-injected hot dog. If you’re hungry for details about how it works (or for a radio-cooked hot dog), read the patent; basically, the metal got hot, the rest of the doggie stayed cold.

But you can’t really go around cancer wards injecting copper sulfate into people’s tumors—and breasts and prostates aren’t hot dogs—so after months of MacGyver moments, Kanzius finally went for a more high-tech tool: nanoparticles. Nanoparticles can be made out of metal, and thousands can fit inside a single cell. Kanzius took this idea to M.D. Anderson liver cancer surgeon Dr. Steven Curley.

Conveniently, one of Dr. Curley’s patients was Rick Smalley, the Nobel laureate who discovered carbon nanoparticles. Curley asked if he could experiment with some of his metal nanoparticles, and Kanzius ended up using his machine to “blow the smithereens out of [them].”

Curley has now used “the Kanzius machine” to cook cancer out of rabbits, and Dr. David Geller at the University of Pittsburgh has used it to destroy liver cancer cells in rats—which he even demonstrated on 60 Minutes.

The big problem is targeting only the cancer cells. Curley mentions that his goal is to find a way for the nanoparticles to bind only the cancer cells, but this is a serious challenge. People have already been trying to target chemo drugs for many years with limited success.

But if the device doesn’t turn out to be the cancer killer he hoped for, Kanzius can figure out how to use his machine for other purposes—last year, for example, he used it to burn salt water.

Salt water fuel gets major university review

John Kanzius

Michael O'Mara Created: 9/12/2007 7:08:18 PM Updated:9/13/2007 5:43:11 PM Play Video

"This is the biggest discovery in 100 years in water research" claims expert.

Last May, Channel 3 News took you inside the no-frills machine shop in outskirts of Erie, Pennsylvania where inventor, John Kanzius along with Jim and Charlie Rutkowski were burning water.

We watched as they poured Morton's salt into a container, mixed it with water and then exposed the fluid to the Kanzius radio frequency device.
An intense flame erupted over the test tube.

"In this case we weren't looking for energy," said John Kanzius. "We were looking for something that might do desalinization. And the more we tried desalinization, the more heat we produced until we got fire."

Kanzius had originally designed his RF machine to kill cancer cells by heating up high tech nanoparticles.

Doctor Steven Curley, M.D. is using the Kanzius RF device for research at the MD Anderson Cancer Center in Houston, Texas.

But back in the lab in Erie, a whole new application suddenly developed. Could salt water become the ultimate green fuel source? The possibility was deeply intriguing for Kanzius and his team.

"To see it burn actually gives me chills", said Kanzius, "because could this be an alternative fuel for a world that's using way to much fossil fuels."

For months, Channel 3 reporter, Mike O'Mara has been getting emails from around the world claiming there must be some kind of trick involved. Many thought the flame erupting over the test tube was a hoax.

Professor Emeritus, Rustum Roy, at the Penn State University Materials Lab is a leading expert on the science of water. He was impressed by the discovery but wanted to see it for himself.

On September 6th, lab assistants wheeled the Kanzius RF invention down the hallways at PSU into a large laboratory on the first floor.

The Material Science faculty exposed more than 50 different water combinations to the radio frequency to see the reaction.

"This is the biggest discovery in 100 years in water research" exclaimed Professor Roy.

Scientists at Penn State University believe the frequency used in the Kanzius machine is releasing atomic hydrogen molecules from the salt water by weakening the bonds holding the sodium chloride, oxygen and hydrogen together. That's why the flame is so incredibly hot.

PSU research associate,Tania Slawecki said,"I think this is an excellent breakthrough. The steam engine wasn't invented because thermodynamics existed. The steam engine was invented and then thermodynamics came along. We've got lots more to discover about this invention, too."

However, many engineering experts aren't as impressed. Energy experts like University of Akron Professor Emeritus, Rudy Scavuzzo, Ph.D, say the burning of salt water is nothing more than a new twist on a high school science experiment.

Scavuzzo told Channel 3's Mike O'Mara that the Kanzius invention requires too much energy to be worth celebrating.

"There is no breakthrough", said Professor Scavuzzo, "because there are more efficient ways of breaking water down to hydrogen and oxygen."

Scavuzzo's son, Steven, a technical consultant for Babcock & Wilcox, said that salt water is not a fuel.

"You can make steam or you can break it down," said Scavuzzo. "One way or another you have to add energy and one way or another, what's going to come out is less than what you put in."

However, at PSU, Professor Roy wants the critics to reserve judgment until more research is done with the device.

"Certainly it needs investigation and certainly we ought to look at the question of how efficient it is", said Roy. "Because that will determine how much John Kanzius shakes up the world. He has shaken up the scientific world already. But this will determine how much he shakes it up."

Pointing at the RF machine, Roy added, "That's a tremendous advance in a new empirical discovery."

Meanwhile, John Kanzius continues his work. He wants to remind everyone that the salt water technology is still in its infancy.

"I'm not a Thomas Edison or a Jonas Salk", said Kanzius. "I don't propose to be one. I just want to be remembered for being a guy who tried."

Source