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Biomarkers in Radiation Oncology
Biomarkers in Medicine, 2008The discovery of biomarkers in patients receiving radiation therapy for cancer is occurring at an exceptional pace. There are a number of ways to conduct biomarker investigations, although the majority of clinically relevant biomarker studies have used immunohistochemistry (IHC) on tissue specimens.
Andrea L. Russo +2 more
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Radiology, 1986
Radiation may be used for the treatment of neoplastic lesions, either as a palliative measure or in an attempt at cure. Particulate or electromagnetic radiation can be obtained from a variety of machines and isotopes. Radiation therapy is the treatment of choice for certain malignancies and may be an acceptable alternative to surgery in others. Pre- or
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Radiation may be used for the treatment of neoplastic lesions, either as a palliative measure or in an attempt at cure. Particulate or electromagnetic radiation can be obtained from a variety of machines and isotopes. Radiation therapy is the treatment of choice for certain malignancies and may be an acceptable alternative to surgery in others. Pre- or
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Advances in Radiation Oncology
Annual Review of Medicine, 2006Advances in radiation oncology have been made on three major fronts: biology, physics, and clinical application. Our biological understanding of how radiation kills cells and how malignant cells avoid damage has identified new targets for therapeutic manipulation.
Randall K. Ten Haken +3 more
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Advances in radiation oncology
The Lancet, 1997Radiation therapy is commonly used in the treatment of cancer. It is the primary curative modality in about 30% of patients, and more than half of all cancer patients receive radiation therapy sometime during the course of their disease. The use of radiation began shortly after the discovery of X-rays in 1895 by Roentgen.
Srinivasan Vijayakumar, Samuel Hellman
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Radiation oncology for the rhinologist
Current Opinion in Otolaryngology & Head & Neck Surgery, 2023Purpose of review This comprehensive review explores evolving treatment strategies for sinonasal and nasopharyngeal malignancies. It analyzes the role of adjuvant radiotherapy, the potential of intensity-modulated proton therapy (IMPT), and the relevance of de-escalation strategies nasopharyngeal carcinoma (NPC).
Helena, Levyn, Fan, Yang, Nancy Y, Lee
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Practical Radiation Oncology, 2015
DJ’s cancer has recurred. His stage IV lung cancer showed a promising initial response to multiagent chemotherapy, radiation therapy to a residual mediastinal mass, and stereotactic radiosurgery to 3 cerebral deposits. Now, along with a 20% weight loss, his cancer has recurred in the brain and mediastinum and he has new lesions in the liver and lung ...
A. Robert Kagan, Kelly E. Goldman
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DJ’s cancer has recurred. His stage IV lung cancer showed a promising initial response to multiagent chemotherapy, radiation therapy to a residual mediastinal mass, and stereotactic radiosurgery to 3 cerebral deposits. Now, along with a 20% weight loss, his cancer has recurred in the brain and mediastinum and he has new lesions in the liver and lung ...
A. Robert Kagan, Kelly E. Goldman
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The Art of Radiation Oncology?
International Journal of Radiation Oncology*Biology*Physics, 2007The accumulation of spam e-mails in my ‘‘bulk’’ folder is laced with all sorts of raunchy solicitations, yet I have learned to read through the list before accidentally deleting an important e-mail. Last week, while performing this obtuse responsibility, I discovered an invitation to my 25th medical school reunion. I couldn’t believe that time has gone
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Seminars in Oncology, 2019
The progressive integration of positron emission tomography/computed tomography (PET/CT) imaging in radiation therapy has its rationale in the biological intertumoral and intratumoral heterogeneity of malignant lesions that require the individual adjustment of radiation dose to obtain an effective local tumor control in cancer patients. PET/CT provides
Fonti R, Conson M, Del Vecchio S
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The progressive integration of positron emission tomography/computed tomography (PET/CT) imaging in radiation therapy has its rationale in the biological intertumoral and intratumoral heterogeneity of malignant lesions that require the individual adjustment of radiation dose to obtain an effective local tumor control in cancer patients. PET/CT provides
Fonti R, Conson M, Del Vecchio S
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Investigative Radiology, 1986
Pediatric radiation oncology , Pediatric radiation oncology , کتابخانه دیجیتال جندی شاپور ...
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Pediatric radiation oncology , Pediatric radiation oncology , کتابخانه دیجیتال جندی شاپور ...
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Precision in radiation oncology
International Journal of Radiation Oncology*Biology*Physics, 1982The practice of medicine demands as much or more precision and exactness as any other human endeavor. This relates to the importance of the outcome to the patient and the intolerance of errors by both the patient and the judicial system. In all of medical practice, the outcome relates to the effective delivery of treatment. The successful operation and
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