PHILADELPHIA – Women undergoing daily radiation therapy for breast cancer are commonly told they should not use antiperspirant for fear that it could cause greater radiation damage to the skin, but a new study from the Perelman School of Medicine at the University of Pennsylvania shows that advice is not based on sound science. While they found that about eight out of every 10 patients reported their doctors told them not to use antiperspirants and roughly the same number of doctors say they routinely make that recommendation, their study also showed there was no difference in the radiation skin dose absorbed by these patients with or without these deodorants. They published their findings in Radiotherapy and Oncology this month.
“Going without antiperspirants entirely for a 3-6 week course of radiotherapy can have a negative impact on a patient’s quality-of-life,” said the study’s lead author Brian C. Baumann, MD, who recently completed his residency in Radiation Oncology at Penn and is a member of Penn’s Leonard Davis Institute of Health Economics. He is also currently an assistant professor of Radiation Oncology at Washington University in St. Louis. “Our study suggests that antiperspirants can be safely used during breast radiotherapy without risking increased skin side effects.”
The study tackled two key areas. First, it established that it’s still common practice for physicians to advise breast cancer patients to avoid antiperspirants during radiotherapy. Second, it debunked the myth that the use of these antiperspirants increases the amount of radiation the skin receives, thus causing more damage to the skin.
For the first part of the study, researchers utilized OncoLink, an online cancer service dedicated to patient and provider education that is run by Penn’s Radiation Oncology unit. They developed a survey to find out what percentage of providers still tell their patients not to use antiperspirants, and what percentage of patients say they received that advice. Of the 105 doctors and nurses who responded and said they regularly manage radiation dermatitis for their patients, 86 of them (82 percent) said they regularly tell patients not to use antiperspirants during their course of radiation treatment. On the patient side, 92 women responded who said they have received radiotherapy for breast cancer, 73 of whom (79 percent) say their healthcare providers advised them to avoid using deodorant for the duration of their treatment.
“While the sample size of the survey is relatively small, the percentage of patients who received the advice to avoid antiperspirants and the percentage of providers who routinely offer this advice was very similar. We cannot make any conclusions about the exact prevalence of this recommendation, but we think the results strongly suggest that the recommendation remains popular,” Baumann said.
The advice persists despite a lack of scientific evidence. Trials have not shown antiperspirant use leads to higher skin side effects during breast radiation therapy, but those trials do not appear to have changed clinical practice. Baumann says that shows providers either do not know about these studies or they are skeptical of the results.
“There can be a discrepancy between the ways we measure skin toxicity in clinical trials versus the problems patients report to their healthcare providers,” Baumann said. “The current skin toxicity scoring system has important limitations. It does not take pain or itching into account, for example, so it is possible that the studies may have missed a clinically meaningful effect because of the limitations of the measurement tool.” Researchers addressed that discrepancy in the second part of this study as they sought to find out if antiperspirants really do increase the surface dose of radiation on the skin. For this portion, researchers used optically stimulated luminescent dosimeters (OSLDs) – a common device for measuring the amount of surface radiation absorbed with each dose. They used three squares of paper: one with nothing on it, one with a thick coating of standard antiperspirant, and one with a thick coating of extra-strength antiperspirant. They placed the squares of paper in the beam’s path and measured the absorbed radiation dose with OSLDs.
“We found no significant difference in surface dose with or without antiperspirant,” Baumann said.
Baumann’s team also moved the beam to four different angles, but found it did not lead to different results.
These antiperspirants also contain aluminum zirconium tetrachlorohydrex glycine, a common metal found in antiperspirants. The standard deodorants contain 15 percent of it, while the extra strength contains 25 percent.
“We specifically wanted to know if the radiation could hit that metal and scatter, sending radiation off target and into other, healthy parts of the skin, but any difference in surface dose we found was within the margin of error,” Baumann said.
“This study shows providers should be more liberal in letting patients use antiperspirants during radiation treatment, which may improve patient quality-of-life.”
Penn Medicine is one of the world’s leading academic medical centers, dedicated to the related missions of medical education, biomedical research, excellence in patient care, and community service. The organization consists of the University of Pennsylvania Health System and Penn’s Raymond and Ruth Perelman School of Medicine, founded in 1765 as the nation’s first medical school.
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