Leonard Arzt, Executive Director of the National Association for Proton Therapy said:
If the costs were the same, there would be no debate. Less radiation to healthy tissue is always better for the patient
Protontherapy is a type of radiotherapy. The first human was treated with proton beams at the Lawrence Berkeley Laboratory in 1954. In 1962, specialised radiosurgical proton treatments commenced at the Harvard Cyclotron Laboratory, followed in the mid-1970s by treatments for ocular cancers and larger tumours
Protons can be much more precise than X-rays thanks to a property identified by Robert Wilson in 1946 when he was involved in the design of the Harvard Cyclotron Laboratory:
Photons (x-rays) are electromagnetic waves that have no mass or charge and can enter the patient on one side of the body and travel straight through, exiting out the other side, with the radiation dose gradually decreasing as it travels through the tissues.
Protons are large particles with a positive charge that penetrate matter to a limited depth, the depth of penetration being based on the energy of the beam. they deposit most of their energy at this depth of penetration which effectively defines an end point to the beam. The beam essentially stops at this point, resulting in no radiation to the tissue beyond the target.
As a result of this Bragg Peak, and the resultant dose distribution, the side effects of proton therapy occurring from radiotherapy are reduced to a minimum.
Currently there is clinical evidence to assume that at least at least 10% to 15% of patients who undergo radiotherapy would benefit from proton therapy.This could be significantly more if the price of delivering proton therapy was to reduce.
Key indications for proton beam treatment include tumours adjacent to critical normal structures (liver, lung, head and neck, prostate, breast), paediatric tumours, and tumours in patients treated with chemoradiation. Furthermore, to reduce the burden of treatment-related complications on patients and the healthcare system, there is an increasing interest in exploiting the tissue-sparing capabilities inherent to proton therapy.
Proton therapy centres have been historically expensive to develop due to:
Advanced Oncotherapy believes that the LIGHT technology can address those issues and become a game changer for the market of proton therapy systems.