Radiation thesis statement

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Our customer support agent will call you back in 15 minutes. Our customer support agent will call you back within 15 minutes. Sign up to our newsletter to receive a promo code. Receive discount. Check your email, discount code is already there. Academic Level. Definitions, purpose, methods, effect on treatment. Prognostic factors. Tumour-related, host-related. Treatment intent radical, adjuvant, palliative. Treatment surgery, chemotherapy, immunotherapy, hormonal, radionuclide therapies, gene manipulation, complementary therapies.

Principles and modalities of radiation therapy treatment external beam radiation, brachytherapy, hyperthermia. Key terms. Radiation therapy equipment, equipment components and terms, dose delivery terms, positioning terms. Factors that influence and govern clinical planning of patient treatment. Isodose descriptions, patient contouring, radiobiologic considerations, dosimetric calculations, compensation and clinical application of treatment beams.

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Nomenclature and terminology, treatment sheet documentation, technical skills and land-marking, palliative treatment techniques. Staging and planning. Treatment planning principles, treatment planning system algorithms, planning techniques. Imaging for diagnosis, digital imaging and PACS. Expand upon areas of radiation physics specific to radiation therapy. Nuclear transformations and interactions of ionizing radiation.

Treatment units used in external radiation therapy. Measurement and quality of ionizing radiation produced. Absorbed dose measurement, dose distribution and scatter analysis.

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Nuclear transformations. Mean life, radioactive series, radioactive equilibrium, modes of decay, decay equations and problems, nuclear reactions, activation of nuclides, nuclear reactors, and charged particle accelerators. Interactions of ionizing radiation.

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Photon beam attenuation, interaction of charged particles, interaction of neutrons, and overview of comparative beam characteristics. Radiation therapy treatment units. Contact, superficial, orthovoltage or deep therapy, megavoltage therapy, linear accelerator, cyclotron, synchrotron, particle beams, isotope beams. Measurement of ionizing radiation. Unit of exposure, collection of charge instruments, electrometers, special chambers, environmental conditions, measurement of exposure.

Quality of ionizing radiation.

radiation thesis statement

Energy fluence, clinically practical expression of beam quality, filters, measurement of beam quality parameters, measurement of megavoltage beam energy, measurement of energy spectrum. Measurement of absorbed dose. Radiation absorbed dose, relationship between KERMA, exposure and absorbed dose, calculation of absorbed dose from exposure, Bragg-Gray cavity theory, calibration of megavoltage beams, other methods of measurement of absorbed dose, Monte Carlo methods.

Dose distribution and scatter analysis. Phantoms, depth dose distribution, percentage depth dose, tissue-air ratio, backscatter factor, scatter-air ratio SAR. This module aims to provide an introduction to the key concepts of radiobiology applied to diagnostic medical imaging and radiation therapy. The interactions of radiation with molecules, cells, tissues and the body, and resultant biophysical events will be presented. This module is also designed to present basic principles of radiation protection and safety for medical radiation professionals.

Radiation health and safety requirements of regulatory agencies, accreditation agencies and health care organizations are incorporated. Series of modules covering the science and clinical management of malignancies of the breast, central nervous, digestive, endocrine, head and neck, hematopoietic, integumentary, lymphatic, musculoskeletal, reproductive, respiratory and urinary systems. Etiology, histopathology, pathogenesis, mechanism and pattern of spread, invasion and metastasis. Mechanism of action of cancer drugs, development of resistance. Interaction of cancer treatments with normal and malignant tissues.

Clinical management. Epidemiology, presenting symptoms. Diagnosis, medical history, clinical assessment, biopsy, laboratory tests, imaging methods. Staging, grading. Treatment and prognostic factors, adjuvant therapy. Acute and late side effects of cancer treatment. Quality of life. Survival and follow up. Appearance of diseased anatomical structures on a variety of imaging formats. Image evaluation, viewing and critique. Develop broad understanding of the pathological basis of human disease, and understanding of patho-genetic mechanisms underlying neoplasia.

Concepts and classification of disease. Responses to injury.

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Healing and repair. Immune responses. Abnormal growth. Inflammation, hormones and growth factors related to oncology. Regulation of cell cycle. Cancer pathology. Viral carcinogenesis. Series of modules covering the practice of radiation therapy for malignancies of the breast, central nervous, digestive, endocrine, head and neck, hematopoietic, integumentary, lymphatic, musculoskeletal, reproductive, respiratory and urinary systems.

Radiation positioning and immobilisation including positioning, immobilisation, treatment delivery accessories. Patient care and management including assessment of side effects, assessment of pain or other physical needs; patient examination, assessment of nutritional status, patient education, care of patient undergoing RT. This module introduces students to the broad categories of diseases and injuries from a systems approach.

The students learn the contemporary knowledge and perspectives on the pathological and abnormal physiological processes that lead to these diseases and injuries, current medical interventions, including surgery and drugs, and associated complications either arising from the disease processes or medical interventions. Students learn the effects of drugs on the biological systems for instance, interactions between chemicals and biological receptors and the effects of biological systems on drugs that is, absorption, distribution, metabolism and excretion of chemicals from biological systems.

In addition, students learn to recognize the desired and undesired effects of medication, delivery options, adverse drug reactions that health professionals may observe. The specific roles of these health professionals in communicating adverse reactions and requesting modification in medication delivery to optimize performance and minimize pain will also be discussed.

More advance research methodologies will be introduced in the module. There will be introduction to a range of statistical methods for health scientists including regression and analysis of variance.


The students will be introduced to more complex forms of study designs e. This module integrates and builds upon the prior modules on topic areas covered such as, anatomy, physiology and pathophysiology; clinical reasoning; patient care; radiation safety and protection and equipment instrumentation advanced modalities. These topics will be revisited considering various body regions in cross sectional imaging.

Students should be trained in resuscitation procedures and BCLS to assist in managing clinical emergencies which may arise during the procedure.

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Review of normal surface and gross anatomical relationships and organisation. Location and identification of gross anatomical structures in transverse, sagittal and coronal planes. Sectional anatomy of normal anatomical structures and normal variants of the head, brain and neck, thorax, abdomen, pelvis, spine, musculoskeletal on plain and contrast radiographic, CT and MR images.

This module prepares students for their honours thesis. Students enrolled in this module will develop a research proposal and submit the proposal for examination at the end of the study period.