“Five protocols for proton therapy”
Protocol 1: Treatment Planning
Prior to treatment, a detailed 3D model of the tumor is created. This allows the radiation oncologist to plan the dose of radiation that will be delivered to the tumor while minimizing exposure to healthy tissue.
Protocol 2: Patient Setup and Treatment Delivery
Once the patient is in position, a robotic arm delivers the proton beam to the tumor. The patient remains still throughout the treatment, which typically lasts just a few minutes.
Protocol 3: Beam Range and Shielding
The range and intensity of the proton beam can be adjusted depending on the size and location of the tumor. In addition, special shielding can be used to protect sensitive organs near the tumor site.
Protocol 4: Quality Assurance and Imaging
Before the patient leaves, imaging equipment checks to make sure that the treatment was delivered correctly and did not affect any previously uninvolved tissue.
Protocol 5: Patient Care and Recovery
Oftentimes, patients can resume their normal activities after just a few days of rest. If necessary, ongoing supportive care such as physical therapy is provided until the effects of radiation are gone. [ARTICLE END]
The Department of Radiation Oncology at The University of Texas M. D. Anderson Cancer Center specializes in treating adults with all forms of cancer using proton therapy, or proton radiation. Proton therapy has been used for more than 50 years to deliver targeted, precise doses of radiation to tumors while minimizing damage to surrounding healthy tissue.
There are five protocols that are used in conjunction with proton therapy in order to ensure the best possible treatment for each individual patient. These protocols are: treatment planning, patient setup and treatment delivery, beam range and shielding, quality assurance and imaging, and patient care and recovery.
Each of these protocols is important in ensuring that the patient receives the most accurate and effective treatment possible. Treatment planning allows the radiation oncologist to create a detailed 3D model of the tumor, which helps to ensure that the proton beam is delivered to the tumor site while avoiding healthy tissue. Patient setup and treatment delivery is performed using a robotic arm, which ensures that the patient remains still throughout the patient remain still during treatment. The beam range and shielding can be adjusted depending on the size and location of the tumor, while quality assurance and imaging checks to make sure that the treatment was delivered correctly. Finally, patient care and recovery include rest and supportive care until the effects of radiation have dissipated.
If you or a loved one is considering proton therapy, it is important to understand all of the protocols that are involved with this type of treatment.
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