Breast Cancer Radiation Treatment Time Shortened
A sophisticated radiation therapy system safely allows the delivery of a higher daily dose for breast cancer patients and shortens the treatment time for women from six or seven weeks to just four, researchers say.
The research team used intensity-modulated radiation therapy, or IMRT, a system that is more accurate at targeting the radiation, say researchers reporting in the International Journal of Radiation Oncology Biology Physics.
The scientists wanted to see if treatment time could be shortened and the daily dose increased without any more ill effects than using the standard treatment.
"It's a bigger daily dose, but we feel it is more accurately and evenly distributed with IMRT," explains
lead researcher Dr. Gary Freedman, a radiation oncologist
at Fox Chase Cancer Center in Philadelphia.
Dr. Freedman says physicians now have more options than ever before in treating breast cancer.
"We have great evidence that lumpectomy and radiation is equal, in terms of survival and cure rate, to mastectomy," at
least for women with smaller tumors, he says.
Even so, the length of treatment time can still present problems.
"There are many women who balk at the six- or seven-week treatment length because of perceived inconvenience, or they have to travel a lot every day [to get to treatment]," notes
Dr. Freedman.
The
length of treatment time for radiation therapy, prescribed
in combination with a lumpectomy when a woman has breast
cancer, is "a very hot issue right now in radiation," explains
Dr. Freedman.
Some studies are looking at one-week treatment with partial-breast radiation, he says, using both external beam radiation and implanted radioactive seeds.
But this approach, says Dr. Freedman, is appropriate only for a very select group of women with the smallest of breast cancers.
"My study is meant to be more inclusive," he
says.
His team, which also included physicians from the University of Pennsylvania, treated 75 women, averaging 52 years of age, with a higher than typical dose of daily radiation, and then followed them to check for side effects.
"It's not a higher total dose," stresses Dr. Freedman. In traditional six- or seven-week treatments, a total of 60 grays (a unit for absorbed radiation) or Gys are given. In the study, the total over the four
weeks was 56 Gy.
The technique, not yet widespread, uses a computer-controlled X-ray accelerator to deliver very precise doses of radiation to the tumor or to specific areas within the tumor.
Dr. Freedman says this specificity minimizes radiation exposure to tissues around the tumor.
"So far, we have found that the immediate side effects of treatment were not increased over what we have seen with six or seven weeks of treatment," he
says.
Radiation can cause skin toxicity and inflammation, for instance, but the four-week treatment results compared favorably with the results seen for conventional six- or seven-week treatment.
While some women did encounter skin problems, the skin toxicity resolved within six weeks of treatment. And the skin's cosmetic appearance was back to its pre-treatment look six weeks after treatment ended.
"We will follow [these patients] for five years," says
Dr. Freedman says, to be sure no long-term problems
result.
While previous studies have found that women who got radiation treatment in the 1980s appear to be at higher risk of heart disease than women in the general population, Dr. Freedman says he believes IMRT will better protect the heart.
"We definitely reduced the dose received by the heart; we assume that means even less heart disease risk down the road," he
emphasizes.
There is one downside, though: IMRT is not yet widely available, says Dr. Freedman.
Other experts said the study has both its strengths and its limitations.
Dr. Frank Vicini, chief of oncology at the Beaumont Cancer Institute, notes that the study had only 75 patients and needs more validation through other studies. Like Dr. Freedman, he also points out that the technology is not widely available.
More study will be done, he predicts. A radiation study group is already discussing trials, says Dr. Vicini.
There are other critical questions yet to be answered about any potential for long-term toxicity and recurrence, adds Dr. Shawna Willey, at Lombardi Comprehensive Cancer Center at Georgetown University.
"If long-term toxicity and recurrence are the same as for longer treatments, most women will opt for four weeks," she
predicts.
Always consult your physician for more information.
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Therapeutic radiology (also called radiation oncology or radiation therapy) is the treatment of cancer and other diseases with radiation.
Oncology is the branch of medicine concerned with the diagnosis and treatment of cancer.
Radiation in various forms is used to kill the cancer cells by preventing them from multiplying.
Therapeutic radiology may be used to cure or control cancer, or to alleviate some of the symptoms associated with cancer.
Physicians who treat diseases with therapeutic radiology are called radiation oncologists.
Therapeutic radiology treatment may be used alone, or in conjunction with other types of treatment, such as surgery, chemotherapy (the use of anticancer drugs to treat cancerous cells), and/or other treatments.
The level and type of radiation used will be determined by the radiation oncologist based on the type of cancer, location of the tumor, and sensitivity of the surrounding tissue.
External beam therapy is a type of therapeutic radiology that is delivered externally from a machine directed to the cancer inside the patient.
Examples of external beam therapy machines include linear accelerators, cobalt machines, or orthovoltage x-ray machines.
The type of machine used will be determined by the radiation oncologist. External beam therapy is the type of therapeutic radiology that is used most often.
How does external beam therapy work? External beam therapy delivers ionizing radiation to the cancer, destroying cancer cells.
To give healthy cells time to recuperate, patients undergoing external beam therapy receive small doses (fractions) of radiation at one time.
Receiving small doses of radiation on a daily basis instead of a smaller number of larger doses helps to protect the healthy body tissue surrounding the diseased area.
Most patients receive radiation treatments on an outpatient basis. A typical schedule for external beam therapy treatment is to receive therapy five days per week over six to seven weeks.
In some cases where the treatment is palliative (to relieve symptoms rather than cure), the length of treatment may last only two to three weeks.
As the treatment progresses, the radiation oncologist will monitor the patient's progress and response to the treatment.
Depending on the response to treatment, changes may be made to the radiation dose, the number of treatments, or the length of treatment.
Research is being done to study the effects of hyperfractionated external beam therapy, in which smaller doses of radiation are given more than once a day rather than just once a day.
The results have been promising for certain types of tumors and cancers.
Always consult your physician for more information.
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