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Everybody in our society's life is touched by cancer -- if not personally, then through a loved one, a family member, colleague, friend. And once our lives are touched by cancer, we quickly learn that there are basically three weapons, or three tools, that are available to fight the disease: surgery, radiation and chemotherapy. And once we get involved in the therapeutic decisions, again either personally or with our loved ones and family members, we also very quickly learn the benefits, the trade-offs and the limitations of these tools.
I'm very thankful to Jay and to Mark and the TEDMED team for inviting me today to describe a fourth tool, a new tool, that we call Tumor Treating Fields. Tumor Treating Fields were invented by Dr. Yoram Palti, professor emeritus at the Technion in Israel. And they use low-intensity electric fields to fight cancer. To understand how Tumor Treating Fields work, we first need to understand what are electric fields.
Let me first address a few popular misconceptions. First of all, electric fields are not an electric current that is coursing through the tissue. Electric fields are not ionizing radiation, like X-rays or proton beams, that bombard tissue to disrupt DNA. And electric fields are not magnetism. What electric fields are are a field of forces. And these forces act on, attract, bodies that have an electrical charge.
The best way to visualize an electric field is to think of gravity. Gravity is also a field of forces that act on masses. We can all picture astronauts in space. They float freely in three dimensions without any forces acting on them. But as that space shuttle returns to Earth, and as the astronauts enter the Earth's gravitational field, they begin to see the effects of gravity. They begin to be attracted towards Earth. And as they land, they're fully aligned in the gravitational field. We're, of course, all stuck in the Earth's gravitational field right now. That's why you're all in your chairs. And that's why we have to use our muscle energy to stand up, to walk around and to lift things.
In cancer, cells rapidly divide and lead to uncontrolled tumor growth. We can think of a cell from an electrical perspective as if it's a mini space station. And in that space station we have the genetic material, the chromosomes, within a nucleus. And out in the cytoplasmic soup we have special proteins that are required for cell division that float freely in this soup in three dimensions. Importantly, those special proteins are among the most highly charged objects in our body. As cell division begins the nucleus disintegrates, the chromosomes line up in the middle of the cell and those special proteins undergo a three-dimensional sequence whereby they attach and they literally click into place end-on-end to form chains. These chains then progress and attach to the genetic material and pull the genetic material from one cell into two cells. And this is exactly how one cancer cell becomes two cancer cells, two cancer cells become four cancer cells, and we have ultimately uncontrolled tumor growth.
Tumor Treating Fields use externally placed transducers attached to a field generator to create an artificial electric field on that space station. And when that cellular space station is within the electric field, it acts on those highly charged proteins and aligns them. And it prevents them from forming those chains, those mitotic spindles, that are necessary to pull the genetic material into the daughter cells. What we see is that the cells will attempt to divide for several hours. And they will either enter into this so-called cellular suicide, programmed cell death, or they will form unhealthy daughter cells and enter into apoptosis once they have divided. And we can observe this.
What I'm going to show you next are two in vitro experiments. This is cultures, identical cultures, of cervical cancer cells. And we've stained these cultures with a green florescent dye so that we can look at these proteins that form these chains. The first clip shows a normal cell division without the Tumor Treating Fields. What we see are, first of all, a very active culture, a lot of divisions, and then very clear nuclei once the cells have separated. And we can see them dividing throughout. When we apply the fields -- again, in the identical time-scale to the identical culture -- you're going to see something different. The cells round up for division, but they're very static in that position. We'll see two cells in the upper part of the screen attempting to divide. The one within the circle manages. But see how much of the protein is still throughout the nucleus, even in the dividing cell. The one up there can't divide at all. And then this bubbling, this membrane bubbling, is the hallmark of apoptosis in this cell.
Formation of healthy mitotic spindles is necessary for division in all cell types. We've applied Tumor Treating Fields to over 20 different cancers in the lab, and we see this effect in all of them. Now importantly, these Tumor Treating Fields have no effect on normal undividing cells.
10 years ago, Dr. Palti founded a company called Novocure to develop his discovery into a practical therapy for patients. In that time, Novocure's developed two systems -- one system for cancers in the head and another system for cancers in the trunk of the body. The first cancer that we have focused on is the deadly brain cancer, GBM. GBM affects about 10,000 people in the U.S. each year. It's a death sentence. The expected five year survival is less than five percent. And the typical patient with optimal therapy survives just a little over a year, and only about seven months from the time that the cancer is first treated and then comes back and starts growing again.
Novocure conducted its first phase three randomized trial in patients with recurrent GBM. So these are patients who had received surgery, high dose radiation to the head and first-line chemotherapy, and that had failed and their tumors had grown back. We divided the patients into two groups. The first group received second-line chemotherapy, which is expected to double the life expectancy, versus no treatment at all. And then the second group received only Tumor Treating Field therapy. What we saw in that trial is that that the life expectancies of both groups -- so the chemotherapy treated group and the Tumor Treating Field group -- was the same. But importantly, the Tumor Treating Field group suffered none of the side effects typical of chemotherapy patients. They had no pain, suffered none of the infections. They had no nausea, diarrhea, constipation, fatigue that would be expected.
Based on this trial, in April of this year, the FDA approved Tumor Treating Fields for the treatment of patients with recurrent GBM. Importantly, it was the first time ever that the FDA included in their approval of an oncology treatment a quality of life claim.
So I'm going to show you now one of the patients from this trial. Robert Dill-Bundi is a famous Swiss cycling champion. He won the gold medal in Moscow in the 4,000 meter pursuit. And five years ago, Robert was diagnosed with GBM. He received the standard treatments. He received surgery. He received high dose radiation to the head. And he received first-line chemotherapy. A year after this treatment -- in fact, this is his baseline MRI. You can see that the black regions in the upper right quadrant are the areas where he had surgery. And a year after that treatment, his tumor grew back with a vengeance. That cloudy white mass that you see is the recurrence of the tumor.
At this point, he was told by his doctors that he had about 3 months to live. He entered our trial. And here we can see him getting the therapy. First of all, these electrodes are noninvasive. They're attached to the skin in the area of the tumor. Here you can see that a technician is placing them on there much like bandages. The patients learn to do this themselves And then the patients can undergo all the activities of their daily life. There's none of the tiredness. There's none of what is called the "chemo head." There's no sensation. It doesn't interfere with computers or electrical equipment. And the therapy is delivered continuously at home, without having to go into the hospital either periodically or continually.
These are Robert's MRIs, again, under only TTField treatment. This is a therapy that takes time to work. It's a medical device; it works when it's on. But what we can see is, by month six, the tumor has responded and it's begun to melt away. It's still there. By month 12, we could argue whether there's a little bit of material around the edges, but it's essentially completely gone. It's now five years since Robert's diagnosis, and he's alive, but importantly, he's healthy and he's at work. I'm going to let him, in this very short clip, describe his impressions of the therapy in his own words.
(Video) Robert Dill-Bundi: My quality of life, I rate what I have today a bit different than what most people would assume. I am the happiest, the happiest person in the world. And every single morning I appreciate life. Every night I fall asleep very well, and I am, I repeat, the happiest man in the world, and I'm thankful I am alive.
BD: Novocure's also working on lung cancer as the second target. We've run a phase two trial in Switzerland on, again, recurrent patients -- patients who have received standard therapy and whose cancer has come back. I'm going to show you another clip of a woman named Lydia. Lydia's a 66 year-old farmer in Switzerland. She was diagnosed with lung cancer five years ago. She underwent four different regimes of chemotherapy over two years, none of which had an effect. Her cancer continued to grow. Three years ago, she entered the Novocure lung cancer trial.
You can see, in her case, she's wearing her transducer arrays, one of the front of her chest, one on the back, and then the second pair side-to-side over the liver. You can see the Tumor Treating Field field generator, but importantly you can also see that she is living her life. She is managing her farm. She's interacting with her kids and her grand kids. And when we talked to her, she said that when she was undergoing chemotherapy, she had to go to the hospital every month for her infusions. Her whole family suffered as her side effect profile came and went. Now she can run all of the activities of her farm. It's only the beginning.
In the lab, we've observed tremendous synergies between chemotherapy and Tumor Treating Fields. There's research underway now at Harvard Medical School to pick the optimum pairs to maximize that benefit. We also believe that Tumor Treating Fields will work with radiation and interrupt the self-repair mechanisms that we have. There's now a new research project underway at the Karolinska in Sweden to prove that hypothesis.
We have more trials planned for lung cancer, pancreatic cancer, ovarian cancer and breast cancer. And I firmly believe that in the next 10 years Tumor Treating Fields will be a weapon available to doctors and patients for all of these most-difficult-to-treat solid tumors. I'm also very hopeful that in the next decades, we will make big strides on reducing that death rate that has been so challenging in this disease.
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Surgery, chemotherapy and radiation are the best-known methods for treating cancer. At TEDMED, Bill Doyle presents a new approach, called Tumor Treating Fields, which uses electric fields to interrupt cancer cell division. Still in its infancy -- and approved for only certain types of cancer -- the treatment comes with one big benefit: quality of life.
With his company Novocure, Bill Doyle works to bring breakthrough medical technologies to doctors and patients. Full bio »