Description

Get up to date with the different types of metallic, ceramic, synthetic and natural polymeric biomaterials used in cutting-edge biomedicine"

##IMAGE##

Advances in biomedicine itself are as important as in the materials used in a multitude of medical operations and interventions. Over the years, many of the implants and tissues used have been perfected, even incorporating cutting-edge technologies such as nanomaterials or shape memory.

This has led many engineers to dedicate their field of expertise to the study, development and research of these constantly evolving materials. For this reason, Artificial Biomaterials and Tissues in Biomedical Engineering has created this university program, in which leading engineers have contributed their theoretical and practical knowledge of the latest biomaterials.

As such, the engineering professional will review issues such as the properties and current challenges presented by the different types of biomaterials, as well as the multiple applications for each one of them.

The postgraduate certificate has TECH's quality guarantee, which is 100% online in a format that respects the engineer's personal and professional life. All the educational material is accessible from the beginning of the program and can be downloaded and studied from any device with an Internet connection.

Get up to speed with specific applications of biomedical micromachines, featuring artificial microneedles and contractile microactuators"

This postgraduate certificate in Artificial Biomaterials and Tissues in Biomedical Engineering contains the most complete and up-to-date program on the market. The most important features include:

  • Case studies presented by experts in Biomedical Engineering
  • 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 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

Delve into the research topics that attract the most attention in Biomedical Engineering, analyzing the applications of advanced nanomaterials and hydrogels of different types"

The program’s teaching staff includes professionals from 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 have the freedom to decide how to take on the course workload. You will be able to download all the teaching material and study it even offline, at your own pace"

##IMAGE##

You will have the support of a technical and teaching staff that will be ready to solve all the doubts and complications that may arise throughout the program"

Objectives

Since the issue of biomaterials is one of special urgency within Biomedicine, the objective of this program could not be other than to provide the best material for research, study and practice on the subject. Thanks to the TECH methodology, engineers will see their knowledge of biomaterials gradually updated, even before the end of the program.

##IMAGE##

You will meet your most ambitious career goals thanks to TECH's tireless effort to provide you with the most relevant academic materials for your career path"

General Objectives

  • Generate specialized knowledge on the main types of biomedical signals and their uses
  • Develop the physical and mathematical knowledge underlying biomedical signals
  • Fundamentals of the principles governing signal analysis and processing systems
  • Analyze the main applications, trends and lines of research and development in the field of biomedical signals
  • Develop expertise in classical mechanics and fluid mechanics
  • Analyze the general functioning of the motor system and its biological mechanisms
  • Develop models and techniques for the design and prototyping of interfaces based on design methodologies and their evaluation
  • Provide the student with critical skills and tools for interface assessment
  • Explore the interfaces used in pioneering technology in the biomedical sector
  • Analyze the fundamentals of medical imaging acquisition, inferring its social impact
  • Develop specialized knowledge about the operation of the different imaging techniques, understanding the physics behind each modality
  • Identify the usefulness of each method in relation to its characteristic clinical applications
  • Investigate post-processing and management of acquired images
  • Use and design biomedical information management systems
  • Analyze current digital health applications and design biomedical applications in a hospital setting or clinical center

Specific Objectives

  • 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
##IMAGE##

Artificial Biomaterials and Tissues in Biomedical Engineering puts at your disposal the most effective educational technology to make your professional development in the field of Biomaterials engineering as effective as possible"

Postgraduate Certificate in Artificial Biomaterials and Tissues in Biomedical Engineering

.

Biomaterials and artificial tissues play a key role in biomedical engineering by providing innovative solutions for the treatment of diseases and injuries. These materials are designed and manufactured with the purpose of interacting safely and effectively with biological systems. If you want to acquire specialized knowledge in one of the most innovative and promising fields in the medical industry, you've come to the right place. At TECH Technological University you will find the Postgraduate Certificate in Biomaterials and Artificial Tissues in Biomedical Engineering that will help you fulfill this purpose. The degree is delivered in online mode and is designed to provide you with the necessary skills and competencies that will make you a highly skilled and outstanding professional in the development of biomaterials and artificial tissues.

Become an expert in biomaterials and artificial tissues

.

At TECH we understand the importance of research and application of biomaterials and artificial tissues in the field of biomedical engineering. That is why we have created this program that will provide you with the most up-to-date knowledge and the most advanced techniques in the design, development and manufacturing of biomaterials and artificial tissues. Our virtual modality will give you the flexibility you need to study from anywhere and at your own pace. Throughout the training, you will explore fundamental topics such as biocompatibility, nanotechnology applied to biomaterials, mechanical properties and tissue engineering, among others. At the end of the program, you will be prepared to face the challenges and demands of the job market, both in the field of research, as well as in the development of biomedical products.