For prostate cancer
Willis-Knighton Cancer Center’s Department of Radiation Oncology became the first site in the world to introduce compact scanning beam imageguided proton therapy. Over subsequent years, renowned centers such as Mayo Clinic, St. Jude’s, Memorial Sloan Kettering Cancer Center and Johns Hopkins Medical Center followed suit. The Proteus ® ONE at Willis-Knighton remains the only proton therapy machine in Louisiana.
One of the most common indications for proton therapy is prostate cancer. Prostate cancer is the second leading cause of cancer death among men in the United States, but it has an outstanding survival rate when detected early. Prostate cancer develops in the prostate gland, which is located beneath the bladder and in front of the rectum and can cause both local symptoms and spread to other parts of the body. For early-stage prostate cancer, radiation therapy, delivered with a number of techniques, and surgery (known as the radical prostatectomy), have similar outcomes and are favorable treatment options. For more locally advanced prostate cancer, radiation therapy is a preferable approach and is often combined with hormonal therapy.
The overall benefits of proton therapy are: 
• Precise and accurate delivery of high radiation dose to kill cancer cells in the prostate and surrounding tissues.
• Minimal impact to healthy tissues and vital organs surrounding the prostate.
• Non-invasive treatment without surgery with patients often working throughout the course.
• A proven technique used for prostate cancer since the early 1990s.
The National Comprehensive Cancer Network
(NCCN) practice guidelines describe proton therapy as an effective form
of external beam radiation therapy. Many studies have demonstrated that
traditional radiation therapy and proton therapy are equally effective
in eliminating prostate cancer, with proton therapy significantly
reducing dose exposure to the surrounding healthy tissues.
Most
men who are candidates for intensity-modulated radiation therapy (IMRT)
or brachytherapy (seed implants) are also candidates for proton
therapy. Side effects associated with proton therapy can be localized
skin changes, fatigue, changes in bowel or bladder function that are
typically transient, or erectile dysfunction. Treatment can be delivered
over four to nine weeks depending upon the patient and their individual
circumstances. Numerous quality of life (QOL) studies comparing
radiation therapy to surgery have demonstrated that radiation therapy
has improved patient satisfaction in both potency (the ability to
maintain an erection) and incontinence (leakage). In particular, proton
therapy can reduce the radiation dose to normal tissues surrounding the
prostate to a degree previously impossible with 3D conformal or IMRT
techniques. As less healthy tissue is exposed to radiation, there is
also a reduction in the risk of treatment-related second malignancies,
which is particularly relevant for younger men who elect to undergo
radiotherapy and avoid surgery.
The
reason proton therapy is advantageous over traditional approaches is
due to a physics property known as the Bragg peak. The Bragg peak is a
phenomenon whereby protons unload all cancer-killing energy at a certain
depth in the body. Because protons are heavy particles, they only
deliver a low dose of radiation therapy as they pass through the body,
ultimately depositing all of their energy into a cancer before the
particle is annihilated. As the proton has been destroyed, there is no
exit dose to surrounding tissues. This concept can best be explained by
imagining a fuel truck crashing into a snowbank. The truck is so heavy
that it easily displaces the snow but eventually, it will slow until
coming to a stop where the truck explodes.
Because
the proton beam can be very precisely controlled using high-energy
magnets and advanced computers, doctors can often prescribe a higher
dose of radiotherapy to the target with a lesser impact on healthy
structures. This is in contrast to X-rays delivered by conventional
radiotherapy. An X-ray passes completely through the body, explaining
why your bones are projected onto a film behind a patient with X-rays
but not with protons.
Many
cancer centers, including Willis-Knighton Cancer Center, routinely use
other devices such as implanted fiducial markers and specialized gels to
further protect the critical surrounding organs and improve the
precision of therapy.
Proton
therapy has been compared with photon (X-ray) therapy in numerous body
sites with a large series reporting reduced acute adverse events, less
unplanned hospitalizations with similar disease-free and overall
survival (JAMA Oncology 2020, Brian Baumann et al). Proton therapy has
also demonstrated excellent prostate cancer control rates. One study
(Genitourinary Cancer May 2016 Nancy Mendenhall et al) reviewed almost
1,400 patients and found that the fiveyear freedom from cancer
progression was 99% and 94% in low-risk and intermediate-risk treated
prostate cancer patients. For patients with more advanced prostate
cancer where the pelvic lymph nodes need to be treated, proton therapy
has a dramatic dose exposure benefit with a greatly reduced risk of
bowel damage.
The
Proteus ® ONE proton unit at Willis-Knighton is managed by a dedicated
team of experienced medical physicists and specially trained
dosimetrists and therapists. Five board-certified radiation oncologists
oversee therapy and are available for both rapid consultations and
second opinions working in conjunction with Willis-Knighton urologists.
Willis- Knighton Cancer Center also serves as an international training
site for proton therapy centers and has welcomed hundreds of physicians
and physicists.
Lane R. Rosen, MD, FACRO, is the director of the Department of Radiation Oncology at Willis-Knighton Health System.
The
national COMPPARE Trial is available at Willis-Knighton Cancer Center
and is evaluating the efficacy of proton therapy to determine if
prostate cancer patients treated with proton therapy as compared to more
traditional options experience improved quality of life, reduced
toxicity or non-inferior or even superior cancer control. For more
information or to see if you qualify, contact the Willis-Knighton Cancer
Center Research Department at (318) 212-8671.
