Delve, from the latest scientific postulates, into the most recent developments in Biomedical Implants and In Vivo Devices” 

The  most recent novelties on biomedical implants and the different in vivo devices have made it possible to address numerous pathologies in a very effective way. This type of implant has provided an answer to major clinical challenges, allowing the professional to accurately monitor patients. Thus, this postgraduate diploma in Biomedical Implants and In Vivo Devices offers a great opportunity to the physician who wishes to be updated in this important and complex field. 

Throughout the degree, the professional will be able to get up to date with the mechanics of biofluids, types of biomaterials and their respective applications, medical devices and nanotechnology, biomaterials for tissue engineering and bioactive molecules, nanoparticles, stem cells and biosensors, among many other relevant issues. 

The doctor will also be able to keep up to date thanks to a high-level teaching staff made up of specialists in this field who are familiar with the most advanced techniques in Biomedical Engineering. They will also have numerous multimedia resources, such as videos, theoretical and practical exercises and master classes. All this, through an online learning methodology specially designed for working professionals, since it allows them to combine their work with their studies. 

TECH's 100% online methodology will allow you to combine your professional work with this program, which offers you a complete update in the application of biomedical implants" 

This postgraduate diploma in Biomedical Implants and In Vivo Devices 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 Biomedical Engineering
• The graphic, schematic, and eminently practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies
• Theoretical lessons, questions to 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

This program will bring you up to date on issues such as natural polymeric biomaterials or Tissue Engineering”   

The program’s teaching staff includes professionals from the sector who contribute their work experience to this training 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 training programmed to train 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 student will be assisted by an innovative interactive video system created by renowned and experienced experts.   

You will have the best teachers and the best didactic resources to facilitate your learning"

The latest advances in nanotechnology and gene therapy applied to biomedical implants are here

The objective of this postgraduate diploma in Biomedical Implants and In Vivo Devices is to provide physicians with the latest advances in this growing area, so that they can integrate them into their professional practice. They will thus be able to respond to the many current challenges posed by certain complex pathologies that require very active and precise monitoring. Monitoring that only this type of implants and devices are capable of performing. 

Get up to date with this innovative degree, which will bring you, following the latest scientific evidence, the most recent discoveries in biomedical implants"  

General Objectives

• Examine the different tissues and organs directly related to tissue engineering
• Analyze tissue balance and the role of the matrix, growth factors and the cells themselves in the tissue microenvironment
• Develop the basis of tissue engineering
• Analyze the relevance of biomaterials today
• Develop a specialized view of the types of biomaterials available and their main characteristics
• Examining the variety and use of biodevices

Specific Objectives

Module 1. Biomechanics

• Generate specialized knowledge on the concept of biomechanics
• Examine the different types of movements and the forces involved in them
• Understanding the functioning of the circulatory system
• Develop biomechanical analysis methods
• Analyze muscle positions to understand their effect on resultant forces
• Evaluate common problems related to biomechanics
• Identify the main lines of action of biomechanics

Module 2. Biomaterials in Biomedical Engineering

• Analyze biomaterials and their evolution throughout history
• Examining traditional biomaterials and their uses
• Determine the biomaterials of biological origin and their applications
• Deepen the knowledge of polymeric biomaterials of synthetic origin
• Determine the behavior of biomaterials in the human body, with special emphasis on their degradation

Module 3. Biomedical Technologies: Biodevices and Biosensors

• Generate specialized knowledge in the conception, design, implementation and operation of medical devices through the technologies used in this field
• Determine the main technologies for rapid prototyping
• Discover the main fields of application: Diagnostic, therapeutic and supportive
• Establish the different types of biosensors and their use for each diagnostic case
• Deepen the understanding of the physical/electrochemical functioning of the different types of biosensors
• Examine the importance of biosensors in modern medicine

Module 4. Tissue Engineering

• Generate specialized knowledge on histology and functioning of the cellular environment
• Review the current status of tissue engineering and regenerative medicine
• Address the main challenges facing tissue engineering
• Present the most promising techniques and the future of tissue engineering
• Develop the main trends of the future of regenerative medicine
• Analyze the regulation of tissue engineered products
• Examine the interaction of biomaterials with the cellular environment and the complexity of this process

You have at your fingertips the most updated program on the market in this field of Biomedical Engineering"