The work of biomedical engineers is booming, especially after the Covid 19 health crisis. In fact, this has been essential to give visibility to health technologies and their specialists, and to make society aware of their importance.
Moreover, from studies that have been carried out lately, it seems that this will not end here and that this profile is a profession with a great future projection. For example, a report published by the US Bureau of Labor Statistics predicts that biomedical engineering work will experience a growth of 23% between 2014-2024 .
Forecasts like this are very good news. This means that the demand for graduates of the Degree in Biomedical Engineering will skyrocket and, consequently, that their employability rate will be one of the highest.
Do you want to know more about this branch of Engineering that has grown so much and that currently has the best employment prospects in the Industry and Research areas? Keep reading that we give you all the details.
WHAT IS THE JOB OF A BIOMEDICAL ENGINEER?
A biomedical engineer is a professional who applies all the principles and techniques of Engineering to the field of Medicine to improve the health and well-being of people.
To do this, they dedicate their effort and time to research, design and development of health technologies such as drugs, biocompatible prostheses, imaging equipment for the diagnosis and treatment of patients, biomaterials and tissues, pacemakers, medical information systems, lasers. surgical, dialysis machines, etc.
And how do they get it? Thanks to the solid knowledge base on Computer Engineering and Electronic Engineering and a complement of topics related to the branches of Life Sciences (Medicine, Pharmacy, Biology and Biotechnology) that they acquire when studying the Degree in Biomedical Engineering. And all this under a project-based learning methodology that manages to connect such diverse topics with real impact plans.
CAREER OPPORTUNITIES OF A BIOMEDICAL ENGINEER
The career paths of biomedical engineers are very varied and interesting.
For this reason, and to make it more practical, we have made a compilation of the 3 main environments in which a person with this training can develop their professional career and we have included, roughly, what functions they can perform in each of them:
- Maintenance and use of biomedical equipment.
- Assistance in the diagnosis and treatment of patients. To do this, they work in collaboration with doctors and may even be present in the operating room during the most complicated operations to verify that the biomedical device is working correctly and configure any of the parameters if necessary.
- Control of the operational functions of the Clinical Engineering department of a hospital.
- Management and administration of the technical resources that a hospital has.
2. PUBLIC AND PRIVATE COMPANIES
Biomedical technology; of diagnostic equipment, monitoring and medical therapy; evaluation and transfer of health technology; health service providers; pharmaceuticals; etc.
- Design and development of medical equipment: prostheses and joints, cardiovascular devices, surgical robots, diagnostic imaging equipment, Nuclear Medicine, etc.
- Identification of possible new drugs from the analysis of the database of genetic variations.
- Development and implementation of software or digital platforms for the management of medical records or large amounts of medical data (Medical Informatics), Telemedicine and home care.
- I work in a multidisciplinary team in solving problems that arise in the medical field and that can be solved through technology, as well as in the anticipation of future setbacks that may arise in society.
3. RESEARCH INSTITUTES OR UNIVERSITY
- Study of Artificial Intelligence and Data Science applied to Biomedicine to promote innovative adapted solutions and respond to the needs that currently exist in the field of Human Health ( Machine Learning ).
- Training and teaching.