Biomedical Engineer Mataaro Rongoā Koiora

Biomedical engineers design, build and maintain medical equipment, artificial body parts and computer programs to help treat disabilities, diseases, or injuries.

Biomedical engineers may do some or all of the following:

  • consult and collaborate with doctors and other medical staff
  • conduct research and publish the results
  • keep up to date with biotechnical developments
  • design and develop products such as medical scanning devices, machines, artificial body parts and software
  • repair medical equipment
  • test products with patients or volunteers
  • train medical staff in how to use devices, and provide technical support when devices are in use.

Physical Requirements

Biomedical engineers working with electronics need to have normal colour vision so they can distinguish between different coloured electrical cables.

Useful Experience

Useful experience for biomedical engineers includes:

  • engineering work
  • work with computers and electronics
  • experience in the health care industry.

Personal Qualities

Biomedical engineers need to be:

  • practical and logical
  • accurate, with an eye for detail
  • creative and innovative
  • able to work well under pressure
  • problem-solvers
  • able to work alone or as part of a team.

Useful Experience

Useful experience for biomedical engineers includes:

  • engineering work
  • work with computers and electronics
  • experience in the health care industry.

Subject Recommendations

A tertiary entrance qualification is required to enter further training. Useful subjects include biology, chemistry, design and visual communication, digital technologies, mathematics and physics.

Biomedical Engineers can earn around $49K-$72K per year per year.

Biomedical engineers may move into managerial roles. Those who work in universities may become tertiary lecturers, assistant professors, or professors.

Biomedical engineers may specialise in areas such as:

  • biotechnology – developing commercial products using living material. For example, designing organisms to produce antibiotics
  • instrumentation – development of new instruments, such as heart monitoring systems, for diagnosis, treatment or measurement of body processes
  • medical software development
  • nanotechnology – research and development of tiny products, such as microscopic sensors, that can measure changes in body tissue
  • prosthetic and implant development – artificial replacements for body parts including limbs and internal organs
  • systems monitoring – monitoring and testing of health care systems
  • tissue engineering – repairing or making artificial replacements for tissues such as blood vessels and skin.
Biomedical Engineer

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