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The most common form of bladder cancer is urothelial carcinoma, also called transitional cell carcinoma. When you have been diagnosed with bladder cancer, you will have questions and want answers quickly. Many people diagnosed with bladder cancer are especially concerned about quality of life during and after treatment. At Ackerman Cancer Center, our experienced radiation oncologists will design a customized treatment plan that preserves your quality of life and minimizes side effects.
While surgery is often recommended for bladder cancer treatment, some people are either unable to undergo surgery or would like to preserve their bladder. In these instances, a combination approach of chemotherapy and radiation therapy is recommended. This non-surgical approach is best for patients who have:
If you have questions about bladder cancer treatment options, call us today at 904-880-5522.
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Treatment options for bladder cancer include surgery, chemotherapy, radiation, or a combination approach.
Proton therapy is one of the most precise, advanced radiation treatment modalities available today. In traditional photon radiation, the x-ray beams travel through the tumor destroying both cancerous and healthy tissue along the way. Proton therapy provides a more efficient solution by utilizing charged particles (protons) to penetrate the tissue and deposit nearly all of their energy directly at the tumor site, thereby reducing damage to surrounding areas.
Ackerman Cancer Center is proud to be the world’s first private practice offering its own proton beam technology. While proton therapy is not right for every patient, the radiation oncologists at Ackerman Cancer Center will consider all options when developing your personalized treatment plan.
Intensity Modulated Radiation Therapy (IMRT) and Image Guided Radiation Therapy (IGRT) are radiation therapy approaches that utilize multiple imaging and motion management techniques to precisely deliver radiation to tumors.
IMRT uses beams of radiation with multiple angles and varying intensities to conform to the shape of the tumor. IGRT utilizes 3D images to monitor the tumors location during treatment. These technologies work together to reduce exposure to healthy tissues and minimize side effects of treatment.