University certificate
The world's largest faculty of medicine”
Description
You will master digital image processing thanks to the best digital university in the world, according to Forbes"
The Compton Effect is one of the most important processes to keep in mind when calculating radiation dose in treatments. The reasons lie in the implications it has on the generation of medical images and radiation dosage in different therapies. If experts were to make mistakes when measuring this process, this would lead to everything from incorrect diagnoses to radiation overdosage. This, in turn, could lead to side effects and damage to normal tissues.
In order to obtain proper education on fabric composition and density, TECH has implemented this advanced postgraduate diploma. In this way, nurses will be able to carry out safe clinical practices, using both X-Ray and Gamma Rays. In fact, the curriculum will address the interactions between photons and matter.
It will also delve into the weighting factors of organs according to their radiosensitivity, analyzing various tools for quality control in visualization systems. This will allow the graduate to identify the risks in the hospital area and to design structural shielding for the protection of both patients and personnel.
In order to consolidate these contents, the methodology of this program reinforces its innovative character. In this way, TECH offer a 100% online educational environment. to the needs of busy professionals looking to advance their careers. In addition, it will employ the Relearning methodology, based on the repetition of key concepts to fix knowledge and facilitate learning. In this way, the combination of flexibility and a robust pedagogical approach makes it highly accessible. In addition, learners will have access to an extensive library of innovative multimedia resources in different audiovisual formats, such as interactive summaries, explanatory videos, photographs, case studies and infographics.
You will delve into the interaction between photons and matter to irradiate tumors with high precision"
This postgraduate diploma in Radiophysics Applied to Diagnostic Imaging contains the most complete and up-to-date scientific program on the market. The most important features include:
- The development of case studies presented by experts in Radiophysics applied to Diagnostic Imaging
- The graphic, schematic and practical contents with which it is conceived gather scientific and practical information on those disciplines that are essential for professional practice
- Practical exercises where the self-assessment process can be carried out to improve learning
- Its special emphasis on innovative methodologies
- Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
- The availability of access to content from any fixed or portable device with an Internet connection
Looking to get the most out of Mammography equipment? Develop the most advanced tests in quality control, thanks to TECH"
The program’s teaching staff includes professionals from the sector who contribute their work experience to this program, as well as renowned specialists from leading societies and prestigious universities.
The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.
This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the academic year For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.
You will cover dosimeter calibration in detail to ensure reliable radiation exposure measurements"
With the Relearning system, pioneer in TECH, you will reduce long hours of study and memorization"
Objectives
This postgraduate diploma has an incisive focus on the understanding of radiation-matter interactions, dosimetry and quality control in diagnostic practice. In this way, it will seek not only to transmit in-depth knowledge, but also to foster critical skills to optimize medical imaging. In addition, it will aim to specialize experts committed to diagnostic excellence and radiological safety, preparing them to address the constant technological advancement and the growing demands of an accurate, ethical and safe medical practice.
With TECH you will acquire theoretical knowledge but also practical skills essential to meet contemporary challenges in the use of radiation in diagnostic imaging”
General Objectives
- Develop the physical basis of radiation dosimetry
- Distinguish between dosimetric and radiation protection measurements
- Determine the ionizing radiation detectors in a hospital
- Establish the basis of measurement quality control
- Delve into the physical elements of X-Ray beam collection
- Evaluate the technical characteristics of the equipment that can be used in a radiodiagnostic facility
- Examine the role of quality assurance and quality control systems in the achievement of optimal diagnostic images
- Analyze the importance of radiological protection, both for the professionals and for the patients themselves
- Investigate the risks derived from the use of ionizing radiation
- Develop the international regulations applicable to radiation protection transfer
- Specify the main safety actions in the use of ionizing radiation
- Design and manage the structural shielding against existing radiation in hospitals
Specific Objectives
Module 1. Interaction of Ionizing Radiation with Matter
- Internalize the Bragg-Gray theory and the dose measured in air
- Develop the limits of the different dosimetric quantities
- Analyze the calibration of a dosimeter
- Perform quality control of an ionization chamber
Module 2. Advanced Diagnostic Imaging
- Investigate the operation of an X-ray tube and a digital image detector
- Identify the different types of radiological images (static and dynamic)
- Analyze the international protocols for quality control of radiology equipment
- Delve into the fundamental aspects from the dosimetry in patients undergoing radiological tests
Module 3. Radiation Protection in Hospital Radioactive Facilities
- Determine the radiological hazards present in hospital radioactive facilities
- Identify the main international laws governing radiological protection
- Develop the actions carried out at the radiation protection level
- Establish the concepts applicable to the design of a radioactive facility
You will be able to implement innovative technologies, evaluate and ensure the quality of the procedures and equipment Used in Radiodiagnosis”
Postgraduate Diploma in Radiophysics Applied to Diagnostic Imaging
Radiophysics applied to diagnostic imaging focuses on the application of physical principles and advanced techniques to ensure quality and safety in diagnostic imaging procedures. Would you like to specialize in this innovative field? TECH Global University has the ideal option for you: the Postgraduate Diploma in Radiophysics Applied to Diagnostic Imaging. This online program will provide you with an in-depth understanding of the physical principles that drive diagnostic imaging technologies. You will delve into the physical principles that govern the formation of medical images using various technologies, from radiography to magnetic resonance imaging. In addition, you will learn about the most advanced equipment and technologies used in diagnostic imaging. From computed tomography (CT), to ultrasound and magnetic resonance imaging systems, you will be guided through the unique characteristics of each modality and their application in clinical practice.
Learn about radiophysics applied to diagnostic imaging
Only at TECH will you find the most up-to-date methods in the field, complemented by multimedia material and completely new dynamic classes. As you advance through the training, you will be immersed in image quality and dosimetry optimization. You will explore techniques and practices to ensure high-quality diagnostic images while minimizing radiation exposure, ensuring safe and accurate procedures. In addition, you will understand the principles of dosimetry specific to diagnostic radiology, gaining tools to measure and calculate the radiation dose delivered during diagnostic procedures, contributing to the safety and efficacy of studies. Finally, you will explore both quality control and radiation safety in diagnostic imaging, as well as technological developments and current trends in the field of radiophysics applied to diagnostic imaging. Upon completion, you will be ready to lead the field of diagnostic imaging. This program will equip you with advanced knowledge and specialized skills to contribute to the advancement and excellence in the science behind medical imaging. Enroll now and take your career to the next level!