Experience Advanced Radiation Therapy
Empower your fight against cancer
At Pacific Cancer Institute Maui, we offer a range of advanced radiation therapies, including the groundbreaking TrueBeam STx to treat early-stage, recurring, and advanced cancer, as well as other conditions. This technology delivers non-invasive treatment for a wider range of tumors throughout your body with exceptional precision.
TrueBeam STx boasts incredible accuracy, measured in fractions of a millimeter. This allows our doctors to visualize the tumor and deliver precise radiation beams, even compensating for your natural movements.
The result? A minimally invasive treatment that minimizes impact on your quality of life.
Contact us today to learn more about how TrueBeam STx can benefit your treatment journey.
Proven Therapy
FDA-approved to treat any part of the body
Safer Treatment
Outpatient procedure with no incisions or hospitalization
Precision Targeted
Surrounding healthy tissues exposed to less radiation
Introducing the TrueBeam STx
A next generation treatment solution
Targeted Radiation Therapy
Experience targeted radiation therapy that’s meticulously aimed at tumors in critical areas like the lungs, brain, and spine. This precision ensures the treatment is focused on the tumor, sparing healthy tissues and reducing side effects.
Rapid Treatment Delivery
Benefit from the highest dosage rate available, delivering treatment at 2400 MU/minute. This fastpaced delivery not only shortens the duration of each session but also enhances the treatment's effectiveness
Dynamic Tumor Tracking
Leverage advanced technology that continuously tracks the tumor's position, adjusting for your movements and breathing in real time. This ensures that radiation is delivered with pinpoint accuracy, directly to the tumor.
Advanced Precision and Safety
Take comfort in knowing that the accuracy of your radiation therapy is constantly monitored, with checks every 10 milliseconds. This level of vigilance ensures the utmost precision and safety throughout your treatment.
Radiation Therapy at Pacific Cancer Institute
Explore our treatment options
Before you receive radiation therapy, your radiation oncologist, dosimetrist and medical physicist work together using sophisticated computer software to calculate the best treatment for your body. This treatment planning ensures that the tumor site receives the maximum amount of radiation while minimizing exposure to healthy tissue and organs.
Stereotactic radiotherapy is frequently given in a single dose (sometimes called stereotactic radiosurgery or SRS) although certain situations may require more than one dose. In addition to treating some cancers or benign tumors, radiosurgery can also be used to treat malformations in the brain’s blood vessels and certain noncancerous (benign) neurologic conditions.
Sometimes a high dose of stereotactic radiotherapy can be focused on a tumor outside the brain and given in a few treatments (typically three to eight). This form of treatment is called stereotactic body radiation therapy (SBRT). In many clinics, this technology is called by the name of the vendor that makes it or the product name.
The radiation beam is usually generated by a machine called a linear accelerator. The linear accelerator, or linac, is capable of producing high-energy X-rays or electrons for the treatment of your cancer. Using treatment planning computers and software, your treatment team controls the size and shape of the beam, as well as how it is directed at your body, to effectively treat your tumor while sparing the surrounding normal tissue.
All patients first undergo a CT scan as part of the planning process. The information from the CT scan is then transmitted to a computer in the treatment room to allow doctors to compare the earlier image with the images taken just before treatment. During IGRT, doctors compare these images to see if the treatment needs to be adjusted. This allows doctors to better target the cancer while avoiding nearby healthy tissue. In some cases, doctors will implant a tiny marker in or near the tumor to pinpoint it for IGRT. This helps to account for organ/tumor motion even if the body is immobilized by a casting device.