A program as innovative as E-Health , thanks to which you will be able to implement the most effective and innovative Big Data and artificial intelligence strategies in your physiotherapy practice and 100% online”

Physiotherapy, like other branches related to the healthcare field (medicine, nursing, nutrition, etc.) has greatly benefited from the development of eHealth and its tools for even more patient-centered care. And it is that the evolution of , artificial intelligence and Internet of Things (IoT) applied to this sector has motivated the creation of techniques such as non-invasive neuromodulation or the improvement of strategies related to diagnosis through images (ultrasound, tomographies, resonances, etc.), which, in addition to facilitating the praxis of the professional, has allowed them to expand their treatments, as well as their effectiveness and efficiency.

For this reason, interest in this area has grown in recent years, which is why TECH Technological University has considered it necessary to develop a program through which specialists can learn in detail about the novelties in this field and apply them to their practice. daily. And it is that this Master's Degree includes 1,500 hours of an exhaustive analysis of E-Health and its applications in the current sector, from the management and direction of centers based on the most innovative technology, to the best recognition and intervention techniques through images in biomedicine.

You will also be able to delve into the creation and management of databases, as well as their massive processing and will place special emphasis on the most important and effective surgical and biomechanical devices, also focusing on the application of artificial intelligence to the physiotherapeutic field. All this through 12 months of a 100% online program, custom designed by experts in bioengineering and biomedicine that includes, apart from the best theoretical agenda, hours of diverse additional material, which will be available on the virtual campus from the beginning. of the program and can be downloaded to any device with an internet connection.

Thus, TECH Technological University guarantees an academic experience perfectly compatible with any other work activity, which will allow the specialist to update and improve their professional skills in a guaranteed manner and based on the latest scientific evidence in the field of E-Health and the Big Data.

Thanks to the specialized knowledge that you will acquire with this program, you will be able to include diagnostic techniques in your offer most innovative and effective imaging”

This professional master’s degree in E-Health and Big Data contains the most complete and up-to-date scientific program on the market. The most important features include:

• Practical cases presented by experts in Information and Communication Technology focused on the healthcare services 
• The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the 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 for the expert, debate forums on controversial topics, and individual reflection assignments 
• Content that is accessible from any fixed or portable device with an Internet connection 

Would you like to keep up to date with the news related to the management and direction of health centers? With this professional master’s degree you will be able to work in your business based on successful trends and strategies”

The program’s teaching staff includes professionals from the sector who contribute their work experience to this educational program, as well as renowned specialists from leading societies and prestigious universities. 

Its multimedia content, developed with the latest educational technology, will allow professionals to learn in a contextual and situated learning environment, i.e., a simulated environment that will provide immersive education programmed to prepare in real situations.

The design of this program focuses on Problem-Based Learning, by means of which professionals must try to solve the different professional practice situations that arise during the academic year. For this purpose students will be assisted by an innovative interactive video system developed by renowned experts. 

The best program in the university sector to update yourself on techniques for research in health sciences, from wherever you want and without pre-established schedules"

The program includes 1,500 hours of diverse content, from avant-garde and innovative syllabus to a variety of high-quality additional material. Everything will be available from the beginning of the program"

The qualitative leap that the physiotherapeutic sector has taken with the application of the most innovative and sophisticated technologies related to E-Health has increased the demand on the part of its specialists for qualifications that allow them to update their knowledge in this field, as well as implement the most cutting-edge and effective strategies in their praxis. Based on this, the objective of this professional master’s degree is to provide the graduate with the necessary information to update himself in this field, as well as to implement the diagnostic and treatment techniques that are currently having the best results in relation to technological development. 

Are you looking for a program with which to learn in detail the most effective strategies to obtain funding for scientific research?” Enroll in this professional master’s degree and reach even your most ambitious goals”

General Objectives

• Develop key concepts of medicine that serve as a vehicle to understand clinical medicine 
• Determine the major diseases affecting the human body classified by apparatus or systems, structuring each module into a clear outline of pathophysiology, diagnosis, and treatment 
• Determine how to obtain metrics and tools for healthcare management 
• Understand the basics of basic and translational scientific methodology 
• Examine the ethical and best practice principles governing the different types of research in health sciences 
• Identify and generate the means of funding, assessing and disseminating scientific research 
• Identify the real clinical applications of the various techniques 
• Develop the key concepts of computational science and theory 
• Determine the applications of computation and its implication in bioinformatics 
• Provide the necessary resources to practically apply all the concepts in the modules 
• Develop the fundamental concepts of databases 
• Determine the importance of medical databases 
• Delve into the most important techniques in research 
• Identify the opportunities offered by the IoT in the field of E-Health 
• Provide specialized knowledge of the technologies and methodologies used in the design, development and assessment of telemedicine systems 
• Determine the different types and applications of telemedicine
• Delve into the most common ethical aspects and regulatory frameworks of telemedicine 
• Analyze the use of medical devices 
• Develop the key concepts of entrepreneurship and innovation in E-Health 
• Determine what a business model is and the types that exist 
• Collect E-Health success stories and mistakes to avoid 
• Apply the knowledge acquired to an original business idea 

Specific Objectives

Module 1. Molecular Medicine and Pathology Diagnosis

• Understand the diseases of the circulatory and respiratory systems 
• Determine the general pathology of the digestive and urinary apparatus, of the endocrine and metabolic systems and of the nervous system 
• Generate expertise in diseases affecting the blood and the locomotor system 

Module 2. Health system Management and Administration in Health Centers

• Determine what a health system is 
• Analyze the different healthcare models in Europe 
• Examine how the healthcare market functions
• Develop key knowledge of hospital design and architecture 
• Generate specialized knowledge of health measures 
• Delve into resource allocation methods
• Compile productivity management methods
• Establish the role played by Project Managers 

Module 3. Research in Health Sciences 

• Determine the need for scientific research 
• Interpret scientific methodology 
• Specify the need for types of research in health sciences, each in their context 
• Establish the principles of evidence-based medicine 
• Examine the needs to interpret scientific results 
• Develop and interpret the basics of clinical trials 
• Examine the methodology used to disseminate scientific research results and the ethical and legislative principles that govern it 

Module 4. Techniques, Recognition and Intervention using 

• Biomedical Imaging
• Examine the fundamentals of medical imaging technologies 
• Develop expertise in radiology, clinical applications and physical fundamentals 
• Analyze ultrasound, clinical applications and physical fundamentals 
• Delve into tomography , computed and emission tomography, clinical applications and physical fundamentals
• Determine how to manage magnetic resonance imaging, clinical applications and physical fundamentals 
• Generate advanced knowledge of nuclear medicine, differences between PET and SPECT, clinical applications and physical fundamentals 
• Discriminate noise in the image, reasons for it and image processing techniques to reduce it 
• Present image segmentation technologies and explain their usefulness 
• Gain a deeper understanding of the direct relationship between surgical interventions and imaging techniques 
• Establish the possibilities offered by artificial intelligence in recognizing patterns in medical images, and thus deepen innovation in the field 

Module 5. Computation in Bioinformatics

• Understand the concept of computation 
• Break down a computer system into its various parts 
• Distinguish between the concepts of computational biology and bioinformatics computing 
• Master the most commonly used tools in the field 
• Determine future trends in computing 
• Analyze biomedical datasets using Big Data techniques 

Module 6. Biomedical Databases

• Understand the concept of biomedical information databases 
• Examine the different types of biomedical information databases  
• Study data analysis methods in depth 
• Compile models that are useful in predicting outcomes 
• Analyze patient data and organize it logically 
• Report on large amounts of information 
• Determine the main lines of research and testing 
• Utilize tools for bioprocess engineering 

Module 7. Big Data in Medicine: Massive Medical Data Processing

• Gain specialized knowledge of massive data acquisition techniques in biomedicine 
• Analyze the importance of data preprocessing in Big Data
• Determine the differences between the data derived from different massive data collection techniques, as well as their special characteristics in terms of pre-processing and handling 
• Provide ways of interpreting results from massive data analysis 
• Examine the applications and future trends in the field of Big Data in biomedical research and public health

Module 8. Applications of Artificial Intelligence and the Internet of Things (IoT) in Telemedicine

• Propose communication protocols in different scenarios in the healthcare field 
• Analyze IoT communication, as well as its application areas in E-Health 
• Substantiate the complexity of artificial intelligence models in its use in healthcare 
• Identify the optimization brought by parallelization in GPU-accelerated applications and its use in healthcare 
• Present all the Cloud technologies available to implement E-Health and the IoT products, both in computing and communication 

Module 9. Telemedicine and Medical, Surgical and Biomechanical Devices 

• Analyze the evolution of telemedicine 
• Assess the benefits and limitations of telemedicine 
• Examine the different types, use and clinical benefits of telemedicine 
• Assess the most common ethical issues and regulatory frameworks surrounding telemedicine 
• Establish the use of medical devices in healthcare in general and in telemedicine specifically 
• Determine the use of the Internet and the medical resources it provides 
• Delve into the main trends and future challenges in telemedicine 

Module 10. Business Innovation and Entrepreneurship in E-Health 

• Analyze the E-Health market in a systematic and structured way 
• Learn the key concepts of innovative ecosystems 
• Create businesses using the Lean Startup methodology 
• Analyze the market and competitors 
• Find a solid value proposition in the marketplace 
• Identify opportunities and minimize rates of error 
• Handle practical tools to analyze the environment and to quickly test and validate business ideas

The objective of TECH with this degree is that you reach even your most demanding academic goals. That is why it will put at your disposal all the material you need to achieve it”