What are the most promising areas in biomedical engineering for future careers?

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Discussion Overview

The discussion revolves around the most promising areas in biomedical engineering for future careers, focusing on specialization choices, job security, and economic appeal within the field. Participants explore various subfields such as imaging, medical devices, and genetic therapies, as well as the implications of these choices on career prospects.

Discussion Character

  • Exploratory
  • Debate/contested
  • Career-related

Main Points Raised

  • One participant expresses a broad interest in multiple areas of biomedical engineering, including radiology, MRI imaging, and medical robotics, and seeks advice on the most advancing fields and job security.
  • Another participant suggests that the choice of specialization should align with personal interests and job availability in the local area, mentioning that a background in electrical engineering could be beneficial.
  • A different participant notes that many biomedical engineers pursue further education, such as a PhD or medical school, due to a perceived lack of job opportunities in the field.
  • One participant highlights the uncertainty in predicting which subfields will thrive over the next twenty years, but mentions the aging population and increasing healthcare demands as factors that may provide job security in biomedical engineering.
  • Another participant predicts growth in MRI imaging and discusses the relationship between job stability and the degree of clinical involvement, suggesting that positions further from direct clinical work may offer better stability and income.

Areas of Agreement / Disagreement

Participants express a range of views on the best areas for specialization, with no consensus on which subfields will provide the most job security or economic appeal. There are differing opinions on the necessity of advanced degrees for career success in biomedical engineering.

Contextual Notes

Participants mention various assumptions regarding job markets, the impact of educational background, and the evolving nature of healthcare demands, which may influence their perspectives but remain unresolved.

BBMauro
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Hello!

I'm a 3rd year biomedical engineering student, and I'm supposed to choose an area of interest in order to specialize.

I'm interested in a significantly broad range of areas, such as radiology, MRI imaging, cardiovascular assist devices, genetic therapy, neuro-cumputational applications, medical robotics, nanotechnology, among others.

My main questions are what are the most advancing areas nowadays, which areas constitute a secure investment in therms of job guaranties after finishing the course and what areas are more economically appealing. What is your advice concerning these matters?

I thank in advance to every contributions.
 
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Well you should first start from the career or job. What jobs are YOU looking for, which ones are more abundant in your area, but also with which emphasis area you are most happiest with. I also think that some emphasis in medical design or bioinstrumentation would be a good idea, generally, because they take a lot of electrical engineering classes. I've heard that lots of companies like EE's so maybe some background in it will help (but in other cases probably not). But then again I'm no expert and am not even an engineering student, so do whatever you discover is the best and whatever you want.
 
Anyone else want to bump this thread?
 
rouvem said:
Anyone else want to bump this thread?

Sure do! Similar person with a similar problem here.
 
what do you want to do? most bioEs i know had to go for a phd / med school due to lack of a job market. . .
 
It's difficult to say over the next twenty years or so which particular subfields will be the most fruitful in terms of research and development or career security. In general we know the population is aging and the demands for healthcare will increase and so biomedical engineering as a field that feeds into that will be reasonably secure.

I personally predict that you'll see a lot more imaging done over the next twenty years with MRI leading the way. That being said, to my knowledge you don't need a PhD BME MRI specialist on hand to conduct regular MRI scans.

Career stability comes with your degree of separation from the clinic. The more the clinic needs you for day-to-day operations, the more secure your job. So if you were to aim for a professional position as a medical physicist specialising in MRI, the job stability and income are going to be much better than a purely academic position working on potentially more exciting research.
 

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