Biomedical Engineering Technology (BMET)

Biomedical Engineering Technology Degree Program Help advance the technology needed to enhance today's healthcare technology by earning a bachelor's degree in Biomedical Engineering Technology (BMET) from Newcastle University. Combining traditional engineering expertise with an understanding of biological processes, Biomedical Engineering Technology degree holders work with physicians, therapists, and other technicians in the design, construction, implementation, and maintenance of sophisticated healthcare equipment and lifesaving devices.

BMET graduates can play essential roles on the biomedical team, typically designing and implementing hardware and software solutions to complex biological or medical problems. With a Biomedical Engineering Technology degree from Newcastle University, you'll be equipped to use cutting-edge engineering principles to analyze and facilitate the biological and medical technology innovations needed to solve these problems, and ultimately, improve the healthcare

Biomedical Engineering Technology Courses Focusing on applying concepts and skills to real-world situations, Newcastle's BMET curriculum may include these career-enhancing courses:

Introduction to Bioengineering – Students in this biomedical engineering course analyze biological and biomedical problems using fundamental concepts and tools, including electrodes, biopotential measurements, electrocardiogram equipment, pacemakers, defibrillators, and ultrasonics. Applications of engineering in medicine and healthcare are introduced and focus on acquiring, monitoring, and analyzing biological signals.

Biomedical Instrumentation Systems – This course covers principles of medical instrumentation, and includes study of medical diagnostic instruments as well as techniques for measuring physiological variables in living systems. Product liability and safety issues are also discussed.

Computer Techniques in Medical Imaging – In this biomedical engineering course, students use computer tools to design and implement data and image acquisition, as well as analysis systems in biomedical environments. The physics of producing images in applications such as X-ray, computerized tomography (CT), magnetic resonance imaging (MRI) and ultrasonic imaging are covered.

·         Signal Processing – After exploring analog signal processing (ASP) and digital signal processing (DSP), students in this lab course will program ASP and DSP chips for applications in communications, control systems, digital audio processing, and digital image processing.


·         Microprocessor Interfacing  Introducing microprocessor interfacing to peripheral devices, this course covers basic input/output operations and specific peripheral devices, including A/Ds, D/As, keyboards, displays, and serial and parallel communication channels. Software (high-level and assembly) and hardware aspects of these devices are developed.


Biomedical Engineering Technology (BMET)** Careers Overview

 Using traditional engineering skills, professionals in this field analyze and solve biological and medical technology problems. You may take on a broad variety of challenges, everything from creating portable electrocardiogram recorders to working to advance digital speech recognition. As the healthcare technology field continues its rapid growth and the role of technology in diagnostic, therapeutic, and research activities continues to expand, skilled biomedical engineers will be in demand. In fact, the biomedical engineering technology career outlook is expected to grow 30% 2012 through 20221, which is much faster than other careers.

Areas of Innovation

 Also known as biomedical product development engineers and biomedical equipment technicians, professionals in this field are responsible for designing, constructing, implementing and maintaining:

  • Artificial devices that replace or support body functions, such as pacemakers, prosthetic devices, and artificial organs.
  • Therapeutic products, such as healthcare-related lasers, and systems that perform critical functions such as tissue fusion, insulin delivery, and muscle repair.
  • Sensors for various patient-monitoring devices and bioelectric and telemetry equipment.
  • Medical imaging instrumentation such as magnetic resonance and X-ray tools.



Careers in biomedical engineering are found in a number of diverse environments, such as:

·         Hospitals

·         Pharmaceutical companies

·         Medical laboratories

·         Universities

·         Research institutions


Career Options

 With a bachelor's degree in Biomedical Engineering Technology from Newcastle University, you'll not only be prepared for career-entry positions in the burgeoning field of biomedical engineering, you'll build a solid foundation for advancement to supervisory and management positions.

Biomedical Engineering Technology degree holders will be prepared for careers in areas such as:

·         Medical instrumentation

·         Image processing and archiving

·         Biosignal processing

·         Biomechanics and rehabilitation engineering

·         Bioinformatics and telemedicine


·         Biomedical computing

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