![Bio pic_barry](/system/interviewee_images/167/original/Bio Pic_Barry.jpg?1348785986)
Name Barry Cordero
- Education B.S. Bioengineering, University of California in San Diego, 2007
- Target Audience High School
Someone once told Barry Cordero that he wasn't cut out for college. Well, he didn't listen and the biomedical industry is better because of it. Read more to find out what ignited Cordero's interest in engineering!
I wish that was an easy question. In the biomedical industry scientists, physicians and engineers work together to invent, develop and test medical devices that improve people's lives. Sometimes device concepts come from a doctor and sometimes the concept comes from a scientist or engineer. I tried a lot of different professions in medical devices - starting with quality engineering, then manufacturing, project management, new product development and supplier development. I'm currently in a full time process improvement role and teaching and mentoring is the vast majority of what I do. I train engineers and non-engineers problem solving techniques so they are equipped to strategically solve problems that come up every day at work.
I wasn't really confident in what I wanted to do in college and I wasn't sure that I could afford it. I didn't know a lot about financial aid at the time. So, I went into the Navy and ended up working closely with a lot of engineers and helped with a lot of engineering work. I learned to operate the electrical systems on nuclear aircraft carriers: particularly the USS Nimitz and took a lot of engineering courses along the way - but, my true passion was helping people. When I was done with the Navy, I needed to figure out how to merge my engineering training with my passion for helping people and Biomedical Engineering was an obvious connection. I ended up taking pre-engineering courses at a community college for a year and later transferred to UC San Diego. Even though I still thought about being a doctor (the profession I wanted to pursue since I was 5), I really liked the idea of being on the front line of new technology and innovation - so I graduated with a bioengineering undergraduate degree. Engineering degrees are unique in that you can be very successful without a Master's or PhD. Engineering is a great investment, it is widely considered a professional degree without the extra school that most professional degrees require.
Average week - I wish there was such a thing. Working in process improvement, I spend a vast majority of my time teaching or coaching around problem solving. I teach anyone from entry level engineers and front line assembly workers to senior directors to solve problems, organize people and analyze projects. In the end choosing the right tool and following the right process is what matters. It's very empowering to be able to solve problems, rather than standing there helpless. It helps empower the problem solver and allows them to stay focused on our mission.
I like that Medtronic is focused on innovation and devices that help people live better. The company has a very science and engineering heavy staff. I work with some of the smartest people in the world, which is kind of cool. The big thing that keeps me engaged is patient visits. Once a quarter we have town-hall meetings where patients who have been impacted by Medtronic come into our office and talk about the improvements medical devices have made to their lives and how thankful they are. The coolest thing about devices, as opposed to pharmaceuticals, is that they're either on or off. When they are on - patients can take control of their lives and function normally. Medical devices literally give them back their lives with the flip of a switch. The town-hall experience is very rewarding and listening to patients' stories is re-energizing.
I wanted to be a doctor from the age of 5 because I liked helping people and I always thought biology was fascinating, but the first subject I really loved was physics - it made me start liking math. I was lucky that I had a young teacher that was really excited about physics, and in turn he excited us about the subject. Just by understanding the basic laws of physics, we could come up with problems or experiments and use math to solve them. That was really the first time I was excited about anything in school. I was not a great student - I was an in all honors classes, but had a C average.
I didn't know what engineering was until I was in the Navy. I didn't know that engineering was lucrative and you could earn twice as much with an engineering undergrad degree than other degrees - so it ended up being a good path for me to take. But I decided to go into engineering when I learned about bioengineering and medical devices. When I discovered how engineering is pretty much everywhere, it seemed like a good field to go into.
I think it was my second to last year of college. I was doing way too much and trying to keep all juggling balls in the air. I was doing research on artificial knee joints, just started an internship at Abbott, and 16 units in college at the same time. Not failing those couple of quarters in college was my biggest challenge. What benefitted me the most was learning how to develop business skills and social skills through SHPE, which is something that college doesn't often provide Engineers. Being successful is not just about being book-smart. You have to know how to interact with people, lead projects, maintain timelines and develop budgets - you have to be well-rounded and I got all of that from Society of Hispanic Professional Engineers. So I never really focused on getting a 4.0 GPA, but instead on being a well rounded engineer. This helped me get through college.
I would be lying if I said someone inspired me. I'm more of a self-motivated person and if someone tells me I cannot do something, it makes me want to do it more. My high school guidance counselor suggested I go to trade school, so that motivated me to apply for college. I guess having someone tell me I can't go to college made me want to go. When I was waiting on college acceptance letters, I decided to apply to the Navy and once I was in the Navy I started to learn engineering. No one inspired me - my interest in this field is from my own self-motivation.
SHPE Junior Chapters and Noche De Ciencias again target high school students as well. Of course there are many science and engineering camps out there that rarely have enough applicants. SHPE has a partnership with NASA for Space Camps and there are other camps with the Society of Civil Engineers and Intel (to name a few off the top of my head). Kids should check out shpefoundation.org and aAlso, check out local robotics leagues - like FIRST.
Mechanical engineering will give you the most options and people with those degrees can go into about any industry- I highly recommend that for students. Computer science and computer engineering would be good too - we do not have enough people with this educational background in the US and you get paid well. Every industry is relying more and more on computers. Other than that, chemical engineering will always be highly sought after because it's so difficult. You really want to be sure you're getting a meaningful degree - look for accreditation.
There is a big push to make medical devices MRI safe. That's a huge challenge as well - how do you make a device that withstands magnetic fields and keeps from heating up and damaging tissue around the implant site. Another big thing will be how long our devices last. Making devices that are more durable, more cost effective and more sustainable is important. Additionally, I predict a lot more utilization of enzyme based and fully implantable sensors for all kinds of applications from chronic illness to competitive sports. Sensors have played a big role in helping diabetics control their glucose levels. I personally find Type 1 diabetes very interesting, and I think we'll see within our lifetime the artificial pancreas.
(adapted from DOL.com, Medtronic.com)
Lucrative - Profitable or to make lots of money
MRI - Magnetic resonance imaging is a diagnostic test that is used to view internal structures that are not able to be detected by an x-ray.
Pharmaceuticals - Legal drugs (not street drugs)
(adapted from dictionary.com)
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