The pandemic didn’t slow down scientists, who are making progress in cancer treatment and research. Exciting advances involves radiation, tumor surgery and new insights into the nervous system.
What if radiation treatments could be given in a handful of seconds rather than weeks of treatments?
What if surgeons could actually see tumor cells rather than simply hoping they got rid of them all?
What if scientists could come up with new ways to detect, treat and understand tumors?
These were among some of the ideas presented this week in Orlando, Florida, at the American Association for Cancer Research annual conference, where more than 6,500 scientists shared their work and their hopes for improving the lives of cancer patients.
Work against cancer has continued over the last three years, despite the pandemic, said Dr. Robert Vonderheide, the conference’s program committee chair. The thousands of presentations and 20,000-person turnout should convince people of that.
Obviously, lots of the research is worth public attention. But with Vonderheide’s guidance, USA TODAY picked three ideas that seemed among the most surprising and hopeful, the kinds of approaches that have the potential to transform cancer treatment and patients’ lives.
The first is “flash” radiation, which concentrates weeks of treatments into a few days; the second, an imaging technology that lights up cancer cells to help surgeons track them down.
“Two of the most fundamental tools, cancer surgery and cancer radiation, are undergoing before our eyes fundamental changes in their technology,” said Vonderheide, who directs the Abramson Cancer Center at the University of Pennsylvania. “They are each promising better success.”
A third line of research is providing insights into the role of the nervous system in cancer, which could eventually be used to help patients sleep better, heal faster and live longer.
Researchers typically focus on a tumor, but there are “systemic signals that might tell us how best to treat a patient or that a patient actually has a lurking cancer,” Vonderheide said.
Like the immune system, which has increasingly been manipulated to help fight cancer over the last decade, the nervous system monitors the body and remembers what it encounters.
“The immune system is probably the first system to know that cancer exists. And probably the nervous system is the next one,” he said. “Maybe there’s new inroads in early detection if we focus on neurological health and immune health.”
None of these new approaches is readily available yet, but Vonderheide thinks they’re among the advances worth watching.
Flash radiation could mean cancer treatment in seconds, not weeks
At least half of patients with solid tumors endure radiation at some point during their treatment. Radiation typically takes about 15 minutes, though sessions can last an hour or more and are scheduled every weekday for three to nine weeks – requiring a total of 15 to 40 visits.
Patients may suffer skin burns, dry mouth, difficulties eating and swallowing, and exhaustion. They must upend their lives and often a loved one’s to get to a clinic so many times.
Radiation therapy is traditionally delivered in small doses over weeks so it can efficiently kill tumor cells while being less toxic to surrounding healthy tissue, said Constantinos Koumenis, a professor of radiation biology at the University of Pennsylvania’s Perelman School of Medicine.
But as many radiation patients can attest, treatments still do plenty of damage to normal tissue.
Instead, Koumenis and dozens of other research teams have been testing “flash radiation,” which uses ultra-high dose rate beams of energy to zap tumor cells. Patients might get the same amount of radiation in just two to four sessions of less than 1 second each.
“The vulnerability of the tumor cells is essentially the same,” Koumenis said. “What’s different is the normal tissue is more resistant to the flash radiation.”
Proton beam machines are gigantic, hugely expensive and not widely available, he said, but they can also deliver flash radiation at 1,000 times the dose rate of conventional radiotherapy. While the X-rays used in conventional radiation damage normal tissue on the way to and from the tumor, proton beams are stopped by the tumor, so only affect healthy tissue in one direction, he said.
Koumenis and teams in Europe have been testing flash radiation in pets. They’ve shown that they can efficiently and safely deliver these high-dose rate beams in dogs and cats with sarcomas and head and neck cancers.
The first human trial, which started about two years ago, showed that the approach was safe and feasible in 10 patients whose cancer had spread to their bones. Additional human trials are ongoing or are being planned in the next two to three years.
Many more studies are needed, Koumenis said, but he hopes using flash radiation in head and neck cancer, for instance, might better preserve the taste buds and salivary glands, enabling the patient to maintain the ability to taste and swallow.
“We could keep the same dose, achieve the same control of the tumor, but now spare these senses,” he said.
In other cases, when the radiation isn’t aimed at critical organs, patients might be able to tolerate higher doses “and perhaps achieve better control of the tumor and better survival because we’re not causing unacceptable side effects,” Koumenis said.
“In my 25 years in radiobiology research, this is the most excited we’ve been in this field.”
New imaging could helps surgeons remove more of the tumor
When surgeons go to take out a tumor, they use their instinct and years of experience to know when they’ve cut out enough. Then they send frozen slides to the pathology lab to quickly assess if they’ve gone safely beyond the tumor, creating a negative or clean margin.
But time and again, patients whose surgeons thought they got everything find out they didn’t.
“Positive margins kill people,” said Dr. Eben Rosenthal, chair of the Department of Otolaryngology at Vanderbilt University in Nashville, Tennessee. “We do surgery the same way we did 30 years ago … It’s disappointing to me as a surgeon.”
Rosenthal is at the forefront of an effort to literally highlight tumor cells, offering surgeons an additional way to identify and eliminate cancer.
By adding dyes to therapies that hone in on cancer cells, a surgeon can get a better look at the tumor as it sits in the body, identifying tumors too small to be felt or seen with the naked eye.
Once a tumor is removed, the dyed cells can help surgeons assess what part to send to pathology, avoiding the false sense of security that can come from sampling the wrong bit of tissue or cutting out more healthy cells than necessary – from, say, the nerves, tongue or brain, Rosenthal said.
“It tells you very quickly where to look,” he said.
But Rosenthal said the effort he started in 2010 has been mostly ad hoc, combining existing equipment and medication. “Literally, we’re just throwing things together that are not really intended for that purpose,” he said.
The approval process has been a challenge, he said, because no one stands to make a lot of money from this procedure.
“I would love to see this developed in a way that would really help patients,” he said. “My goal is to show value, so that at some point when a company is able to get off the ground, we can know (it will work).”
Manipulating the nervous system to fight cancer
Growing a tumor is a lot like growing a new organ, according to Jeremy Borniger, an assistant professor at the Cold Spring Harbor Laboratory on New York’s Long Island.
It may look like a mass of cells, but a tumor is fed by blood vessels, communicates with the immune system, and like any other organ, connects to the body’s nervous system.
For decades, scientists have explored ways to treat cancer by manipulating a tumor’s blood supply and changing the way it interacts with the immune system.
Borniger is part of a burgeoning effort to focus on the role nerves play in cancer.
“They’re not just playing a passive role,” he said. “They’re important for all phases of cancer development from initiation all the way through to therapeutic resistance and responses to therapy.”
Many people with cancer suffer from chronic fatigue, sleep disruption, appetite changes and brain fog. These are all problems of the nervous system, said Borniger, who’s been working to figure out whether these symptoms stem from cancer therapy or cancer itself.
Studies in brain tumors have shown that cancer can affect brain circuits – and the tumors that tinker more are more dangerous. How common it is for nerves to directly talk to other types of cancer cells is one of the questions scientists are now asking, Borniger said.
But it’s already clear that when treatments block the communication between nerve and tumor cells, it “drastically alters” the tumor’s growth, cancer’s spread within the body and its response to treatment.
“It’s really exciting that we can mess with one tiny nucleus in the brain and have such a strong effect on physiology and tumor growth,” Borniger said. “The idea will be how linked are these things and what are the right knobs and dials to turn that we can restore this normal functioning so that we can block the bad signaling that promote cancer.”
So far, most of this work has been in animals, but early trials are beginning, particularly with already-approved medications like beta blockers that might affect the release of chemicals from the nervous system even in tumors like breast cancer.
Future treatments, Borniger said, might include electrical stimulation to better understand and directly affect the body’s wiring system, adding “good signals” to counteract the bad.
The bottom line, Borniger said, is that tumors are not floating in a vacuum, but integrated into the body’s systems.
“What’s becoming more evident is we need to start listening to how the body is responding to things and not just what’s happening in isolation,” he said. “One of the best ways we can listen to what’s going on is by tapping into the nervous system. Its function is to figure out what’s going on and to try and fix the problem.”
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JK News Live is a platform where you find comprehensive coverage and up-to-the-minute news, feature stories and videos across multiple platform.
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Email: [email protected]