Biodegradable implant may lessen side effects of radiation to treat prostate cancer
CT scan for blog post [View Image]
Several years ago, Virginia Commonwealth University Massey Cancer Center became the first center in the United States to test an Israeli-invented device designed to increase the space between the prostate and the rectum in prostate cancer patients undergoing radiation therapy. Now, results from the international Phase I clinical trial show that the device has the potential to significantly reduce rectal injury, a side effect caused by unwanted radiation exposure that can leave men with compromised bowel function following treatment.
Results of the 27-patient prospective trial were recently published in the journal Radiation Oncology. The device known as the BioProtect Balloon Implant was tested on patients with localized prostate cancer. It is designed to reduce radiation exposure to the rectum by expanding to increase the space between the rectum and the prostate. It remains in place throughout the treatment process and is designed to biodegrade completely within six months.
[View Image]“We found that the addition of BioProtect reduced the radiation dose delivered to the rectum by an average of about 30 percent,” says local primary investigator Mitchell Anscher, M.D., Florence and Hyman Meyers Chair of Radiation Oncology at VCU Massey Cancer Center. “Most notable was the device’s ability to reduce exposure at higher radiation levels, which indicates that the cancer could be safely treated with more aggressive protocols.”
The researchers observed a greater reduction in radiation exposure to the rectum at increasing radiation dose levels. At 50 percent of prescribed dose, there was little difference in rectal tissue exposure. However, there was a 55.3 percent reduction at 70 percent of the prescribed dosage, a 64 percent reduction at 80 percent of the prescribed dosage, a 72 percent reduction at 90 percent of the prescribed dosage and an 82.3 percent reduction at 100 percent of the prescribed dosage.
As anticipated, all implanted balloons started to degrade three months after implantation. The researchers concluded that the device could be especially useful in hypofractionated radiation therapy. Hypofractionated radiation therapy uses larger doses of radiation applied over a shorter number of treatments instead of delivering a small percentage of the total dose during daily treatments spread over a longer period of time.
“Massey has many patients that travel from rural areas for care. If this device allows us to deliver the prescribed radiation dose over a shorter period of time, we can reduce the overall burden on the patient and they can spend less time away from work and their family,” says Anscher. “We hope to initiate a Phase II clinical trial in a larger cohort of patients in order to determine the effectiveness of the device in reducing rectal injury in comparison to standard treatment protocols.”
Anscher collaborated with the study’s lead investigator Gyorgy Kovacs, M.D., Ph.D., from the University of Lubeck, Germany; Dieter Jocham, M.D., and Gunther Bohlen, M.D., also from the University of Lubeck; Eliahu Gez, M.D., Rami Ben Yosef, M.D., Benjamin W. Corn, M.D., and Fabrizio Dal Moro, M.D., all from the Department of Radiation Oncology at Tel Aviv Sourasky Medical Center, Israel; Giovanni Scarzello, M.D., from the Department of Radiotherapy at the University of Padova, Italy; and Isaac Koziol, M.D., Mathew Bassignani, M.D., and Taryn Torre, M.D., all from Virginia Urology; and Shmuel Cytron, M.D., from Barzilai Medical Center, Israel.
The full manuscript of the study is available online at: http://www.sciencedirect.com/science/article/pii/S0167814013000236