New technique for ultrafast tumor therapy

New technique for ultrafast tumour therapy
Serena Psoroulas with the experimental set-up in Gantry 1 that she uses to test the new FLASH technique. If successful, she will be contributing to the advancement of proton therapy. Credit: Paul Scherrer Institute/Mahir Dzambegovic

For the first time, researchers at the Center for Proton Therapy at the Paul Scherrer Institute PSI in Switzerland have tested ultrafast, high-dose irradiation with protons. This new, experimental FLASH technique could revolutionize radiation therapy for cancer and save patients many weeks of treatment.

In nature, lightning strikes with a short, strong of light and a high energy discharge. In radiation medicine, FLASH also stands for ultrashort, , one-time irradiation, and in the future it could save patients many weeks of treatment. At the Center for Proton Therapy CPT, PSI researchers are testing whether FLASH is also suitable for proton irradiation using the spot-scanning technology developed at PSI. For their experiments, CPT head and chief physician Damien Weber and his team at PSI are collaborating with the Center hospitalier universitaire vaudois (CHUV) in Lausanne. There, with the approval of the Swiss Academy of Medical Sciences (SAMS), the only patient in the world to date has been irradiated using the FLASH technique in order to heal a malignant tumor in the skin. Unlike at PSI, the researchers at CHUV use electron beams. These are only suitable for very superficial tumors. In contrast, the protons used at PSI also reach tumors deep inside the body and can be stopped precisely at the site in the body where they should have their maximum effect on the cancer cells.

Short and intense

"If we can achieve the high precision and the good outcome of with FLASH irradiation without damaging healthy tissue, this would be a huge step forward," says Damien Weber. Treatments could be much shorter and less stressful for patients. "If the principle works, the patients would only have to come for radiation treatment a few times, ideally only one to five times. The treatment appointments that open up as a result would be available to other cancer patients." Because of the extremely short irradiation, it is even possible to use the FLASH technique to treat tissue in the lungs, which changes its position with every breath. However, before the process is technically mature enough to be used routinely with patients, it will take many years of technical development and a great many tests. With FLASH, a radiation dose rate of up to 1,000 gray per second is applied; that is a radiation dose per second roughly a hundred times higher than in the usual treatments. This destroys the tumor cells very effectively. "But first and foremost, we need evidence that proton irradiation with the FLASH technique does not damage healthy body tissue," says Weber.

In their experiments, the PSI researchers therefore want to use the maximum possible intensity of the beam and direct it without losses onto biological tissue that is less than a millimeter thick. For this purpose, particle physicist Serena Psoroulas and her team have optimized the beam guidance settings in a former treatment station for therapy at PSI, known as Gantry 1. "The older colleagues here at PSI in particular have a lot of experience because they developed, constructed, and tested the equipment themselves," says Psoroulas. "They have set up the monitoring and safety systems and written the program code for the irradiation." The PSI researchers have now used this know-how, which spans high-performance engineering, medical expertise, and physics, to carry out the world's first experiments in FLASH with the spot-scanning technology developed at PSI.

Citation: New technique for ultrafast tumor therapy (2020, September 29) retrieved 29 March 2024 from https://medicalxpress.com/news/2020-09-technique-ultrafast-tumor-therapy.html
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