Postgraduate diploma Radiophysics Applied to Radiotherapy

Radiophysics Applied to Radiotherapy fuses Physics and Engineering to optimize and improve Radiotherapy treatments used in Cancer and other diseases. In fact, by applying principles of ionizing radiation physics and engineering techniques, millimetric precision is achieved in the administration of radiation doses, maximizing the destruction of cancerous tissue and preserving the surrounding healthy tissue. The use of sophisticated equipment and advanced control systems allows the personalization of treatments, adapting them to the anatomy of each patient. TECH has focused on providing engineers with a program that will train them in the strategic use of radiation to improve the diagnosis and treatment of various pathologies.

University certificate

duration

6 months

Modality

Online

Schedule

At your own pace

Exams

Online

start date

Credits

18 ECTS

financing up to

7 months

Price(first year)

See price

The world's largest faculty of engineering”

Introduction to the Program

Gracias a esta Postgraduate diploma en Radiophysics Applied to Radiotherapy, garantizarás la máxima eficacia de diagnósticos y tratamientos en el ámbito médico”

La aplicación de la Radiofísica en la Radioterapia se enfoca en utilizar principios físicos para diseñar planes de tratamiento que maximicen la dosis en el tejido enfermo y minimicen la exposición a tejidos sanos. Esta especialidad requiere expertos que empleen tecnologías avanzadas, como la radioterapia guiada por imagen, para garantizar la administración precisa de la dosis prescrita.

Así nace esta Postgraduate diploma, el cual abre las puertas para que los ingenieros exploren la interacción entre la radiación ionizante y los tejidos biológicos, comprendiendo los efectos celulares y biológicos resultantes, y analizando los mecanismos de reparación. Además, se evaluará la eficiencia biológica relativa de diversas formas de radiación ionizante, que será fundamental para el ejercicio clínico en radioterapia externa, subrayando la importancia de la radioprotección y la gestión de riesgos asociados con estas radiaciones.

Asimismo, el programa profundizará en la dosimetría física, una piedra angular en la radioterapia externa para caracterizar los haces de radiación empleados en tratamientos clínicos. También se hará hincapié en los controles necesarios en el equipamiento y los requisitos mínimos para asegurar tratamientos seguros y consistentes.

Otro aspecto crucial será la dosimetría clínica, con un enfoque especial en la utilización de herramientas informáticas para resolver desafíos. Finalmente, se indagará en las etapas del proceso radioterápico, desde la simulación hasta la verificación de dosis para terapias específicas, como aquellas de intensidad modulada, las cuales implican la modulación de la intensidad del haz de radiación para lograr distribuciones no homogéneas de dosis.

De esta forma, se ha desarrollado un programa integral y profundo que se basa en la metodología innovadora Relearning, pionera en TECH. Este método se centra en la repetición de conceptos clave para garantizar que los egresados logren una comprensión total del contenido. Además, el acceso a todos los recursos didácticos solo requerirá de un dispositivo electrónico con conexión a internet.

Desarrollar y dominar tecnologías avanzadas, como la tomografía computarizada, te permitirá contribuir de manera significativa en los equipos médicos”

Esta Postgraduate diploma en Radiophysics Applied to Radiotherapy contiene el programa educativo más completo y actualizado del mercado. Sus características más destacadas son:

El desarrollo de casos prácticos presentados por expertos en Radiofísica Aplicada a la Radioterapia
Los contenidos gráficos, esquemáticos y eminentemente prácticos con los que está concebido recogen una información científica y práctica sobre aquellas disciplinas indispensables para el ejercicio profesional
Los ejercicios prácticos donde realizar el proceso de autoevaluación para mejorar el aprendizaje
Su especial hincapié en metodologías innovadoras
Las lecciones teóricas, preguntas al experto, foros de discusión de temas controvertidos y trabajos de reflexión individual
La disponibilidad de acceso a los contenidos desde cualquier dispositivo fijo o portátil con conexión a internet

A través de este programa completamente en línea, profundizarás en la aplicación de la dosimetría física para garantizar la administración exacta de las dosis de radiación”

El programa incluye en su cuadro docente a profesionales del sector que vierten en esta capacitación la experiencia de su trabajo, además de reconocidos especialistas de sociedades de referencia y universidades de prestigio.

Su contenido multimedia, elaborado con la última tecnología educativa, permitirá al profesional un aprendizaje situado y contextual, es decir, un entorno simulado que proporcionará una capacitación inmersiva programada para entrenarse ante situaciones reales.

El diseño de este programa se centra en el Aprendizaje Basado en Problemas, mediante el cual el profesional deberá tratar de resolver las distintas situaciones de práctica profesional que se le planteen a lo largo del curso académico. Para ello, contará con la ayuda de un novedoso sistema de vídeo interactivo realizado por reconocidos expertos.

Utilizarás la dosimetría física para la radioterapia externa, aprovechando los recursos multimedia más avanzados para optimizar los tratamientos”

Gracias a TECH y a esta completa capacitación, te adentrarás en la Radiobiología de tejidos sanos y cancerosos. ¡Inscríbete ya!”

Syllabus

The approach of this academic program is meticulous and complete, aimed at training highly qualified engineers in Radiophysics Applied to Radiotherapy. Its content will cover from the fundamental principles of Radiobiology to Clinical Dosimetry, offering a tour through modules that will analyze in depth the interaction between radiation and biological tissues and the advanced use of radiotherapeutic technologies. This program will integrate theoretical knowledge with practical applications, emphasizing professional ethics, constant innovation and commitment to excellence.

You will acquire specialized knowledge for practice in the different areas of the healthcare field where ionizing radiation is present"

Module 1. Radiobiology

1.1. Interaction of Radiation with Organic Tissues

1.1.1. Interaction of Radiation with Tissues
1.1.2. Interaction of Radiation with the Cell
1.1.3. Physicochemical Response

1.2. Effects of Ionizing Radiation on DNA

1.2.1. Structure of ADN
1.2.2. Radiation-Induced Damage
1.2.3. Damage Repair

1.3. Radiation Effects on Organic Tissues

1.3.1. Effects on the Cell Cycle
1.3.2. Irradiation Syndromes
1.3.3. Aberrations and Mutations

1.4. Mathematical Models of Cell Survival

1.4.1. Mathematical Models of Cell Survival
1.4.2. Alpha-Beta Model
1.4.3. Effect of Fractionation

1.5. Efficacy of Ionizing Radiation on Organic Tissues

1.5.1. Relative Biological Efficacy
1.5.2. Factors Altering Radiosensitivity
1.5.3. LET and Oxygen Effect

1.6. Biological Aspects According to the Dose of Ionizing Radiations

1.6.1. Radiobiology at Low Doses
1.6.2. Radiobiology at High Doses
1.6.3. Systemic Response to Radiation

1.7. Estimation of the Risk of Ionizing Radiation Exposure

1.7.1. Stochastic and Random Effects
1.7.2. Risk Estimation
1.7.3. ICRP Dose Limits

1.8. Radiobiology in Medical Exposures in Radiotherapy

1.8.1. Isoeffect
1.8.2. Proliferation Effect
1.8.3. Dose-Response

1.9. Radiobiology in Medical Exposures in Other Medical Exposures

1.9.1. Brachytherapy
1.9.2. Radiodiagnostics
1.9.3. Nuclear Medicine

1.10. Statistical Models in Cell Survival

1.10.1. Statistical Models
1.10.2. Survival Analysis
1.10.3. Epidemiological Studies

Module 2. External Radiotherapy. Physical Dosimetry

2.1. Linear Electron Accelerator. Equipment in External Radiotherapy

2.1.1. Linear Electron Accelerator (LEA)
2.1.2. External Radiotherapy Treatment Planner (TPS)
2.1.3. Registration and Verification Systems
2.1.4. Special Techniques
2.1.5. Hadrontherapy

2.2. Simulation and Localization Equipment in External Radiotherapy

2.2.1. Conventional Simulator
2.2.2. Computed Tomography (CT) Simulation
2.2.3. Other Image Modalities

2.3. Equipment in Image-Guided External Radiation Therapy

2.3.1. Simulation Equipment
2.3.2. Image-Guided Radiotherapy Equipment. CBCT
2.3.3. Image-Guided Radiotherapy Equipment. Planar Image
2.3.4. Auxiliary Localization Systems

2.4. Photon Beams in Physical Dosimetry

2.4.1. Measurement Equipment
2.4.2. Calibration Protocols
2.4.3. Calibration of Photon Beams
2.4.4. Relative Dosimetry of Photon Beams

2.5. Electron Beams in Physical Dosimetry

2.5.1. Measurement Equipment
2.5.2. Calibration Protocols
2.5.3. Electron Beam Calibration
2.5.4. Relative Electron Beam Dosimetry

2.6. Commissioning of External Radiation Therapy Equipment

2.6.1. Installation of External Radiotherapy Equipment
2.6.2. Acceptance of External Radiotherapy Equipment
2.6.3. Initial Reference State (ERI)
2.6.4. Clinical Use of External Radiation Therapy Equipment
2.6.5. Treatment Planning System

2.7. Quality Control of External Radiation Therapy Equipment

2.7.1. Quality Control in Linear Accelerators
2.7.2. Quality Controls on IGRT Equipment
2.7.3. Quality Controls on Simulation Systems
2.7.4. Special Techniques

2.8. Quality Control of Radiation Measuring Equipment

2.8.1. Dosimetry
2.8.2. Measurement Instrumentation
2.8.3. Dummies Used

2.9. Application of Risk Analysis Systems in External Radiation Therapy

2.9.1. Risk Analysis Systems
2.9.2. Error Reporting Systems
2.9.3. Process Maps

2.10. Quality Assurance Program in Physical Dosimetry

2.10.1. Responsibilities
2.10.2. Requirements in External Radiation Therapy
2.10.3. Quality Assurance Program. Clinical and Physical Aspects
2.10.4. Maintenance of the Quality Assurance Program

Module 3. External Radiotherapy. Clinical Dosimetry

3.1. Clinical Dosimetry in External Radiotherapy

3.1.1. Clinical Dosimetry in External Radiotherapy
3.1.2. Treatments in External Radiatherapy
3.1.3. Beam Modifying Elements

3.2. Stages of Clinical Dosimetry of External Radiotherapy

3.2.1. Simulation Stage
3.2.2. Treatment Planning
3.2.3. Treatment Verification
3.2.4. Linear Electron Accelerator Treatment

3.3. Treatment Planning Systems in External Radiotherapy

3.3.1. Modeling in Planning Systems
3.3.2. Calculation Algorithms
3.3.3. Utilities of Planning Systems
3.3.4. Image Tools of the Planning Systems

3.4. Quality Control of Planning Systems in External Radiotherapy

3.4.1. Quality Control of Planning Systems in External Radiotherapy
3.4.2. Initial Reference State
3.4.3. Periodic Controls

3.5. Manual Calculation of Monitor Units (MUs)

3.5.1. Manual Control of MUs
3.5.2. Factors Intervening in the Dose Distribution
3.5.3. Practical Example of Calculation of UMs

3.6. Conformal 3D Radiotherapy Treatments

3.6.1. 3D Radiotherapy (RT3D)
3.6.2. RT3D Treatments with Photon Beams
3.6.3. RT3D Treatments with Electron Beams

3.7. Advanced Intensity Modulated Treatments

3.7.1. Intensity Modulated Treatments
3.7.2. Optimization
3.7.3. Specific Quality Control

3.8. Evaluation of an External Radiotherapy Planning

3.8.1. Dose-Volume Histogram
3.8.2. Conformation Index and Homogeneity Index
3.8.3. Clinical Impact of the Schedules
3.8.4. Planning Errors

3.9. Advanced Special Techniques in External Radiotherapy

3.9.1. Radiosurgery and Extracranial Stereotactic Radiotherapy
3.9.2. Total Body Irradiation
3.9.3. Total Body Surface Irradiation
3.9.4. Other Technologies in External Radiation Therapy

3.10. Verification of Treatment Plans in External Radiotherapy

3.10.1. Verification of Treatment Plans in External Radiotherapy
3.10.2. Treatment Verification Systems
3.10.3. Treatment Verification Metrics

Thanks to the revolutionary Relearning methodology, you will integrate all the knowledge in an optimal way to successfully achieve the results you are looking for"

Postgraduate Diploma in Radiophysics Applied to Radiotherapy

Immerse yourself in an exceptional educational experience with the Postgraduate Diploma in Radiophysics Applied to Radiotherapy offered by TECH Global University. This advanced program has been meticulously designed for medical engineering professionals looking to excel in the dynamic field of radiotherapy. Flexibility is key today, and at our institution we understand that. That's why we have structured this program so that you can participate in online classes, giving you the freedom to advance your studies without compromising your work schedule or personal responsibilities. In this postgraduate program, you will not only acquire solid theoretical knowledge, but you will also immerse yourself in the practical application of radiophysics in the context of oncology treatments. Our faculty, composed of experts and leaders in the field of radiotherapy, will guide you through an educational journey that seamlessly combines advanced theory, specialized practice and the latest technological innovations in medical engineering.

Learn about radiophysics and radiotherapy completely online

The online classes we facilitate at TECH not only offer convenience, but also the opportunity to connect with professionals from around the world, enriching your professional network and providing you with global perspectives in the field of radiotherapy. This program goes beyond radiotherapeutic dosimetry and applied technology; it will challenge you to explore the latest trends and advances in this exciting field. Upon graduating from the Postgraduate Diploma in Applied Radiophysics in Radiotherapy, you will not only earn a diploma; you will be equipped with the skills and knowledge necessary to lead in medical engineering and contribute to the advancement of radiotherapy worldwide. Take the next step in your professional career with TECH Global University and discover how this program can be the key to your success in the fascinating area of applied radiotherapy.