at Sterling Hospitals - Vadodara - Bhayli
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Speciality Overview
The Department of Radiation Oncology at Sterling Hospitals boasts a state-of-the-art facility equipped with the latest cutting-edge technology, ultra-modern infrastructure, and a highly skilled team of experienced experts. This advanced department utilizes high-energy radiation beams to effectively combat cancer cells. Through two primary mechanisms, this innovative technology works to destroy cancer cells. Firstly, it can directly damage the DNA of cancer cells, leading to their demise. Alternatively, it can generate charged particles that cause further damage to the DNA of cancerous cells, ultimately inhibiting their growth and proliferation. With its unwavering commitment to excellence and its dedication to utilizing the most advanced techniques, the Department of Radiation Oncology at Sterling Hospitals is renowned for providing world-class cancer care to patients in need, setting a benchmark for healthcare in Gujarat and beyond.
Features & Benefits :
- India’s most advanced Linear Accelerator TrueBeam™ STx machine from Varian
- Equipped with advanced techniques- IGRT, RapidArc, IMRT, SBRT and SRS.
- Precise and Accurate Tumour Targeting.
- Less damage to healthy organ and reduced side effects with HD Treatment
- Fast treatment time for patient comfort.
- Supported by a team of experienced radiation oncologists, medical physicists and technologists
- Works in close coordination with surgical and medical oncologists
Our Doctors
Our
Doctors
Our physicians are committed to delivering personalized care tailored to your unique needs. From routine check-ups to complex procedures, trust in our compassionate experts to guide you on your journey to optimal health and well-being.
Areas of Expertise
Areas of
Expertise
Discover Unparalleled Expertise: Where Advanced Technology and Compassionate Care Meet to Deliver Exceptional Healthcare Services
Stereotactic Radiation, also known as stereotactic body radiation therapy (SBRT) or stereotactic radiosurgery (SRS), is a precise and highly targeted form of radiation therapy used to treat tumours and other medical conditions with extreme accuracy. It delivers high doses of radiation to a specific target area while minimizing radiation exposure to surrounding healthy tissues.
When and why do people go for Stereotactic Radiation?
People undergo stereotactic radiation when they have tumours or other medical conditions that require precise and targeted treatment. Stereotactic radiation is commonly used to treat tumours in the brain, spine, lungs, liver, prostate, and other areas of the body where surgical removal may be challenging or risky. It may be recommended for individuals with cancerous tumours, benign tumours, or certain neurological conditions that can be effectively treated with radiation therapy.
What makes Stereotactic Radiation different from other treatment options?
Stereotactic radiation offers several advantages over traditional radiation therapy and other treatment options. Unlike conventional radiation therapy, which delivers radiation in multiple sessions over several weeks, stereotactic radiation delivers high doses of radiation in fewer sessions, often completed within one to five treatments. This precise and targeted approach allows for more effective tumour control while minimizing damage to surrounding healthy tissues, reducing the risk of side effects and complications. Additionally, stereotactic radiation may be used to treat tumours that are difficult to access or surgically remove, providing a non-invasive alternative to surgery for certain medical conditions.
How does life change after Stereotactic Radiation?
Life after stereotactic radiation can vary depending on the individual's overall health, the location and size of the treated tumour, and the response to treatment. Following stereotactic radiation, many individuals experience improvements in tumour control and symptom relief, leading to a better quality of life. Overall, stereotactic radiation can provide effective and targeted treatment for tumours and other medical conditions, offering hope and improved outcomes for individuals facing cancer or other challenging diagnoses.
Image Guided Radiotherapy (IGRT) is an advanced form of radiation therapy that uses imaging technology to precisely target tumours and deliver radiation with a high degree of accuracy. It combines real-time imaging techniques such as X-rays, CT scans, or MRI scans with radiation therapy to ensure that the radiation is directed precisely at the tumour while sparing nearby healthy tissues.
When and why do people go for Image Guided Radiotherapy (IGRT)?
People undergo Image Guided Radiotherapy when they have cancer or other medical conditions that require precise and targeted radiation treatment. IGRT is commonly used to treat tumours in the brain, head and neck, spine, lungs, prostate, and other areas of the body. It may be recommended for individuals with localized or metastatic cancer, where the goal is to deliver radiation therapy with maximum precision while minimizing damage to surrounding healthy tissues. IGRT is particularly useful for tumours located near critical organs or structures, where accuracy is crucial to avoid potential side effects and complications.
What makes Image Guided Radiotherapy (IGRT) different from other treatment options?
Image Guided Radiotherapy offers several advantages over traditional radiation therapy and other treatment options. Unlike conventional radiation therapy, which relies on external landmarks to position the patient and deliver radiation, IGRT uses real-time imaging technology to visualize the tumour and surrounding anatomy before and during treatment. This allows for precise targeting of the tumour and adjustments to the radiation beams to account for any changes in the tumour position or size. By ensuring accurate delivery of radiation to the tumour while sparing nearby healthy tissues, IGRT can reduce the risk of side effects and complications associated with radiation therapy.
How does life change after Image Guided Radiotherapy (IGRT)?
Life after Image Guided Radiotherapy can vary depending on the individual's overall health, the location and size of the treated tumour, and the response to treatment. Following IGRT, many individuals experience improvements in tumour control and symptom relief, leading to a better quality of life. Overall, IGRT can provide effective and targeted treatment for tumours and other medical conditions, offering hope and improved outcomes for individuals facing cancer or other challenging diagnoses.
4D Respiratory Motion Gated Radiotherapy is an advanced technique used in radiation therapy to account for the movement of internal organs, particularly the lungs, due to respiratory motion. It involves real-time imaging and tracking of tumour motion during breathing, allowing for precise delivery of radiation to the tumour while minimizing exposure to surrounding healthy tissues.
When and why do people go for 4D Respiratory Motion Gated Radiotherapy?
People undergo 4D Respiratory Motion Gated Radiotherapy when they have tumours located in areas of the body affected by respiratory motion, such as the lungs or upper abdomen. This technique is commonly used to treat lung cancer, liver cancer, pancreatic cancer, and other tumours that move with breathing. By synchronizing radiation delivery with the patient's breathing cycle, 4D Respiratory Motion Gated Radiotherapy allows for more accurate targeting of the tumour while reducing the risk of radiation exposure to nearby organs and tissues.
What makes 4D Respiratory Motion Gated Radiotherapy different from other treatment options?
4D Respiratory Motion Gated Radiotherapy offers several advantages over traditional radiation therapy and other treatment options. Unlike conventional radiation therapy, which delivers radiation based on static imaging, 4D Respiratory Motion Gated Radiotherapy uses real-time imaging techniques to track tumour motion during breathing. This allows for precise synchronization of radiation delivery with the patient's respiratory cycle, ensuring that radiation is delivered only when the tumour is in the optimal position. By minimizing radiation exposure to surrounding healthy tissues, 4D Respiratory Motion Gated Radiotherapy reduces the risk of side effects and complications while maximizing tumour control and treatment outcomes.
How does life change after 4D Respiratory Motion Gated Radiotherapy?
Life after 4D Respiratory Motion Gated Radiotherapy can vary depending on the individual's overall health, the location and size of the treated tumour, and the response to treatment. Following this advanced radiation therapy technique, many individuals experience improvements in tumour control and symptom relief, leading to a better quality of life. Overall, 4D Respiratory Motion Gated Radiotherapy can provide effective and targeted treatment for tumours affected by respiratory motion, offering hope and improved outcomes for individuals facing cancer or other challenging diagnoses.
Rapid Arc Radiotherapy is an innovative and advanced technique used in radiation therapy to deliver precise and targeted radiation treatment to cancerous tumours. It utilizes a sophisticated technology known as volumetric modulated arc therapy (VMAT) to deliver radiation beams that rotate around the patient's body in a continuous arc while adjusting the intensity of the radiation dose.
When and why do people go for Rapid Arc Radiotherapy?
People undergo Rapid Arc Radiotherapy when they have cancerous tumours that require precise and efficient radiation treatment. This technique is commonly used to treat various types of cancer, including tumours in the brain, head and neck, prostate, lung, breast, and other areas of the body. Rapid Arc Radiotherapy is particularly beneficial for individuals who require high doses of radiation delivered quickly and accurately while minimizing exposure to surrounding healthy tissues. It is often recommended for patients with localized or metastatic cancer, where the goal is to achieve maximum tumour control and minimize side effects and complications associated with radiation therapy.
What makes Rapid Arc Radiotherapy different from other treatment options?
Rapid Arc Radiotherapy offers several advantages over traditional radiation therapy and other treatment options. Unlike conventional radiation therapy techniques, which deliver radiation in multiple fixed beams or angles, Rapid Arc Radiotherapy utilizes a dynamic and continuous arc of radiation beams that rotate around the patient's body. This allows for more efficient and precise delivery of radiation to the tumour while sparing nearby healthy tissues. Additionally, Rapid Arc Radiotherapy can be completed in fewer treatment sessions compared to conventional radiation therapy, reducing the overall treatment time and inconvenience for patients. By delivering high doses of radiation with increased accuracy and efficiency, Rapid Arc Radiotherapy offers improved treatment outcomes and reduced risk of side effects for individuals with cancer.
How does life change after Rapid Arc Radiotherapy?
Life after Rapid Arc Radiotherapy can vary depending on the individual's overall health, the location and size of the treated tumour, and the response to treatment. Following this advanced radiation therapy technique, many individuals experience improvements in tumour control and symptom relief, leading to a better quality of life. Overall, Rapid Arc Radiotherapy can provide effective and targeted treatment for cancerous tumours, offering hope and improved outcomes for individuals facing cancer or other challenging diagnoses.
4D Respiratory Motion Gating - CT is a specialized imaging technique used in radiation therapy to account for the movement of internal organs, particularly the lungs, due to respiratory motion. It involves acquiring multiple CT images of the chest or abdomen over the course of the respiratory cycle, allowing for precise visualization and tracking of tumour motion during breathing.
When and why do people go for 4D Respiratory Motion Gating - CT?
People undergo 4D Respiratory Motion Gating - CT when they require radiation therapy for tumours located in areas affected by respiratory motion, such as the lungs or upper abdomen. This technique is commonly used to plan and guide radiation treatment for lung cancer, liver cancer, pancreatic cancer, and other tumours that move with breathing. By accurately capturing tumour motion during the respiratory cycle, 4D Respiratory Motion Gating - CT helps radiation oncologists precisely target the tumour while sparing surrounding healthy tissues.
What makes 4D Respiratory Motion Gating - CT different from other treatment options?
4D Respiratory Motion Gating - CT offers several advantages over traditional imaging techniques and treatment options. Unlike conventional CT imaging, which captures static images of the chest or abdomen, 4D Respiratory Motion Gating - CT acquires multiple images over the respiratory cycle, allowing for dynamic visualization of tumour motion. This enables radiation oncologists to accurately assess tumour position and movement, ensuring that radiation treatment is delivered only when the tumour is in the optimal position. By incorporating real-time motion information into treatment planning, 4D Respiratory Motion Gating - CT improves the precision and accuracy of radiation therapy, leading to better treatment outcomes and reduced risk of side effects.
How does life change after 4D Respiratory Motion Gating - CT?
Life after 4D Respiratory Motion Gating - CT can vary depending on the individual's overall health, the location and size of the treated tumour, and the response to treatment. Following this advanced imaging technique, many individuals undergo radiation therapy with improved accuracy and precision, leading to better tumour control and symptom relief. Overall, 4D Respiratory Motion Gating - CT plays a crucial role in guiding radiation therapy for tumours affected by respiratory motion, offering hope and improved outcomes for individuals facing cancer or other challenging diagnoses.
Brachytherapy, also known as internal radiation therapy, is a type of cancer treatment that involves placing radioactive sources directly into or near the tumour site. These radioactive sources emit high-energy radiation that destroys cancer cells while minimizing damage to surrounding healthy tissues. Brachytherapy can be used to treat various types of cancer, including prostate cancer, cervical cancer, breast cancer, and skin cancer.
When and why do people go for Brachytherapy?
People undergo brachytherapy treatment when they are diagnosed with cancer and their healthcare providers determine that it is an appropriate treatment option based on factors such as the type, location, and stage of the cancer, as well as the individual's overall health and treatment goals. Brachytherapy may be recommended as a primary treatment modality or in combination with other treatments such as surgery, chemotherapy, or external beam radiation therapy. It is often chosen for its ability to deliver high doses of radiation directly to the tumour while sparing nearby healthy tissues, resulting in fewer side effects and improved treatment outcomes.
What makes Brachytherapy different from other treatment options?
Brachytherapy treatment differs from other treatment options for cancer, such as surgery or external beam radiation therapy, in that it delivers radiation directly to the tumour site, allowing for higher doses of radiation to be delivered while minimizing exposure to surrounding healthy tissues. This targeted approach enables more precise tumour targeting and may result in better tumour control and fewer side effects compared to conventional radiation therapy techniques. Additionally, brachytherapy can be performed on an outpatient basis and typically requires fewer treatment sessions, leading to shorter overall treatment durations and faster recovery times.
How does life change after Brachytherapy?
Life after brachytherapy treatment can vary depending on factors such as the type and stage of cancer, the individual's overall health, and their response to treatment. Many people experience relief from cancer symptoms and improvements in quality of life following brachytherapy, as the treatment helps to shrink or eradicate tumours while preserving normal organ function and minimizing side effects. Regular follow-up appointments with healthcare providers are important for monitoring treatment response, detecting any recurrence of cancer, and addressing any lingering side effects or concerns. Overall, brachytherapy can be an effective and well-tolerated treatment option for many cancer patients, offering the potential for improved cancer control and long-term survival.
Intensity Modulated Radiotherapy (IMRT) is an advanced technique used in radiation therapy to precisely deliver radiation to tumours while minimizing exposure to surrounding healthy tissues. It uses computer-controlled linear accelerators to modulate the intensity of radiation beams and shape them to conform to the specific shape and size of the tumour.
When and why do people go for Intensity Modulated Radiotherapy (IMRT)?
People undergo Intensity Modulated Radiotherapy when they have cancer or other medical conditions that require targeted radiation treatment. IMRT is commonly used to treat tumours in various parts of the body, including the brain, head and neck, prostate, breast, and other areas. It may be recommended for individuals with localized or metastatic cancer, where the goal is to deliver radiation therapy with maximum precision while minimizing damage to nearby organs and tissues. IMRT is particularly useful for tumours located close to critical structures or organs, where sparing healthy tissue is essential to reduce the risk of side effects and complications.
What makes Intensity Modulated Radiotherapy (IMRT) different from other treatment options?
Intensity Modulated Radiotherapy offers several advantages over traditional radiation therapy and other treatment options. Unlike conventional radiation therapy, which delivers uniform doses of radiation to the tumour and surrounding tissues, IMRT allows for precise modulation of radiation intensity and shaping of radiation beams to conform to the shape and size of the tumour. This allows for higher doses of radiation to be delivered to the tumour while minimizing exposure to nearby healthy tissues, reducing the risk of side effects and complications. Additionally, IMRT can be combined with other treatment modalities such as surgery, chemotherapy, or immunotherapy to optimize treatment outcomes for individuals with cancer.
How does life change after Intensity Modulated Radiotherapy (IMRT)?
Life after Intensity Modulated Radiotherapy can vary depending on the individual's overall health, the location and size of the treated tumour, and the response to treatment. Following IMRT, many individuals experience improvements in tumour control and symptom relief, leading to a better quality of life. Overall, IMRT can provide effective and targeted treatment for tumours and other medical conditions, offering hope and improved outcomes for individuals facing cancer or other challenging diagnoses.