Close at Heart

By Kim Kreiger
Illustration by Yesenia Carrero

Radiation treatment for breast cancer can inadvertently graze the heart, leading to damage and disease years later. UConn doctors are working to change that.

closeatheart


Getting radiation treatment for breast cancer can make you feel vulnerable. Sitting in a machine with radiation pointed directly at your chest, you have to trust that the doctor knows what she’s doing, that the X-rays are aimed right, that the machine is properly calibrated … and then you just sit perfectly still.

But what if you could have some control over the process?

Dr. Robert Dowsett, chief of UConn’s Division of Radiation Oncology, and
colleagues in the Carole and Ray Neag Comprehensive Cancer Center are using a new technique to give breast cancer patients agency in their radiation treatments. And they’re taking better care of the patients’ hearts in the process.

A patient can intentionally increase the heart-chest wall distance by more than a centimeter by controlling her breathing using the Deep Inspiration Breath Hold.

Using the technique, called Deep Inspiration Breath Hold, patients can help control the accuracy and timing of their own radiation dose. The patient takes a breath of specific depth before the radiation machine turns on. Doing this correctly can increase the distance between the heart and the breast by a centimeter or two, lowering the amount of radiation hitting the heart by as much as 50 percent.

Jeryl Dickson, 62, of Manchester, Conn., was one of the first patients at UConn Health to use the technique, from late 2015 through Feb. 2. Her doctors, including Dowsett, prescribed a course of radiation therapy to make sure there were no lingering cancer cells remaining after a lumpectomy removed her breast cancer.

“I practiced deep breathing and breath holds prior to radiation treatment with the radiation oncology staff so I could feel what it would be like,” says Dickson.

Radiation treatment of breast cancer can be very effective, eradicating tumor cells hiding in the chest wall. But breast cancer survivors have a heightened risk of heart disease that shows itself years later. Ironically, the heart disease stems from the radiation that originally saved their lives. Radiation is a type of light, and like visible light, it has a tendency to reflect and scatter. Just as even the sharpest spotlight has blurred edges where it blends into shadow, even the best-aimed medical radiation beam occasionally scatters into tissue outside of the tumor it targets. Sometimes it hits the heart.

Dr. Agnes Kim, director of the Cardio-Oncology Program at UConn Health, analyzes echocardiography images as one way to monitor cancer patients’ risk of heart disease.

Dr. Agnes Kim, director of the Cardio-Oncology Program at UConn Health, analyzes echocardiography images as one way to monitor cancer patients’ risk of heart disease.
Tina Encarnacion/UConn Health Photo

“We worry about heart attacks down the road, 10 to 15 years after radiation treatment of cancer in the chest. We also worry about inflammation on the outside of the heart in the short term. We don’t exactly know how the radiation damages the tissue, but it definitely seems to accelerate damage to blood vessels. It can also cause scarring and fibrosis damage,” says Dowsett.

But the distance between the heart and the chest wall varies from person to person. And a patient can intentionally increase the heart-chest wall distance by controlling her breathing using the Deep Inspiration Breath Hold.

To make the best use of the Deep Inspiration Breath Hold technique, Dowsett and his colleagues at UConn Health combine it with an optical scanning system supplied by C-RAD. The scanning system is essentially a computer with a camera that models the surface of the skin on the patient’s chest. It tracks the patient’s breathing, and coaches her to inhale just the right amount. As the patient, you wear virtual-reality goggles in which you see a bar graph showing your inhalation, with a box at the top. Your goal is to hit the box and then hold your breath for the 20 to 30 seconds it takes to complete the radiation treatment. Some patients can hold their breath that long; others can’t. It doesn’t matter, because if you exhale, or giggle, or cough, the system sees your chest move out of the perfect range and stops the radiation. It won’t restart until you get yourself back in position and inhale to just the right spot again.

“The deep breathing technique was not difficult at all,” says Dickson, “Honestly, I was more focused on my cancer, and heart health never entered my mind. But I am glad I put my trust in my doctors, and I never had any doubts.”

UConn Health is the only hospital using this technology in Central Connecticut. It’s a powerful, precise way to make sure the radiation beam gets the cancer, and to minimize the risk to other organs.

Previously, “the area we treated inevitably ended up being bigger than the target (tumor) itself,” Dowsett says. “Now we’ve expanded this to abdominal targets such as the pancreas and adrenal lesions,” while sparing healthy surrounding organs.


Related Articles