Tag Archives: Engineering

BIOSTEC 2010-BIOMEDICAL CONFERENCE

3rd International Joint Conference on Biomedical Engineering Systems and Technologies

Venue:

Valencia-Spain

Event Date:

20-23 January, 2010

The purpose of the 3rd International Joint Conference on Biomedical Engineering Systems and Technologies is to bring together researchers and practitioners, including engineers, biologists, health professionals and informatics/computer scientists, interested in both theoretical advances and applications of information systems, artificial intelligence, signal processing, electronics and other engineering tools in knowledge areas related to biology and medicine.
BIOSTEC is composed of three co-located conferences, each specialized in at least one of the aforementioned main knowledge areas.

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BIOMEDICAL ENGINEERS ARE GIFTED ONES ALWAYS

There’s Smart, and then there’s Mega-Smart

Biomedical engineers are smart people; this is a universal truth. As a rule, dim-witted people do not develop bioartificial organs or design pacemakers. But then there are the pioneers who have taken the biomedical field by storm over the past century, earning more awards and patents and inventing more devices than any mere mortal should. You could refer to this rare breed as The Ridiculously Smart Bioengineering Club, a league of gifted souls with DNA like Einstein’s.

What Do They Have in Common?

Let’s start with biophysicist Otto Schmitt. Though his parents weren’t scientists, Otto was exposed at the age of 16 to the work of his older brother Frank. Frank became a professor of zoology in 1929, and Otto was allowed to “gadgeteer” in Frank’s laboratory and create instrumentation (www.thebakken.org). Otto would also do experiments at home, much to his mother’s chagrin. His mom fainted when she went into his bedroom one day and saw Otto with sparks flying out of his nose and fingers; he had crafted his own rudimentary Tesla Ball out of spare parts to make his hair stand straight up. Despite his crazy antics with electricity, Otto survived his youth and went on to invent devices like the cathode follower.

Leslie Geddes has taught one-fifth of all biomedical engineers currently in practice. He’s patented everything from a baby pacifier that delivers medication to biomaterials (www.mit.edu). As a kid, Leslie’s dad would bring home radio parts from work for his son to tinker with. Because some relatives were physicians, Leslie decided he would like to combine electronics with medicine.

Extraordinary curiosity is a common theme in the early years of the genius bioengineers. Robert Langer, currently Professor of Chemical Engineering at MIT in Cambridge, received a Gilbert chemistry and microscope set from his parents as a young boy. He was fascinated watching chemical color changes, and enjoyed watching shrimp grow with his little microscope (www.thebiotechclub.org). This young chemist would grow up to receive more than 600 patents and 160 major awards, and be the most cited engineer in history. His controlled drug delivery developments have alleviated human pain for countless patients. The stubborn Langer is oft-quoted as saying, “A lot of times somebody will tell you that your idea, or your invention, can’t be done. I think that’s very rarely true. If you believe in yourself and if you really work hard and stick to it, I believe there is very little that is impossible.”

This stubbornness gene can be found in Alfred E. Mann, entrepreneurial physicist and philanthropist billionaire. He’s said, “To say we can’t do something because other people have failed is not good enough for me” (www.inhealth.org).

It seems the formula for biomedical engineering mega-success is one part insatiable curiosity, one part influence by mentors, two parts giftedness, and three parts stubbornness.

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HOW TO DESIGN A CAREER IN BIOMEDICAL ENGINEERING-FROM IEEE PAPER

ABSTRACT

What kind of career do you imagine for yourself? Doctor? Lawyer?
Scientist? Engineer? Teacher? CEO? Manager? Salesperson?
A university degree in biomedical engineering will prepare you for
all of these professions and more. Biomedical engineers use their expert-
ise in biology, medicine, physics, mathematics, engineering science and
communication to make the world a healthier place. The challenges cre-
ated by the diversity and complexity of living systems require creative,
knowledgeable, and imaginative people working in teams of physicians,
scientists, engineers, and even business folk to monitor, restore and
enhance normal body function. The biomedical engineer is ideally
trained to work at the intersection of science, medicine and mathematics
to solve biological and medical problems.

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FUTURE OF BIOMEDICAL ENGINEERING IN INDIA PERTAINING BRAIN DRAIN

As we know today in India we think that only those branches of engineering are important which are job oriented and others have no meaning for us.This has acted like a sabotage for the development of biomedical in the country

: Image via Wikipedia

We can see easily that today people prefer to go outside the country after doing biomedical engineering for the purpose of p ost-graduation so that they can secure a good job there as in the world of developed nations people of our country are ready to mould themselves according to the circumstances present there. I personally feel that brain drain of biomedical engineers to west is taking place because of the lack of resources in our country and laziness of our leaders as well as students for the promotion of the resources available in the country

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DIFFERENT ROLES OF A BIOMEDICAL ENGINEER IN JOBS

Biomedical engineers are an important part of the medical community. The knowledge, inventions, and people that are behind many biomedical engineering jobs are responsible for improving lives across the globe by creating new theories on life systems or designing medical instruments.

The contributions made by those employed in biomedical engineering jobs are countless: minuscule devices to inhibit cell growth; artificial bones, tendons, and discs; highly sensitive monitors and medical imaging systems; artificial hearts; synthetic blood; medical robotics; and tissue engineering – to name just a few.

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Biomedical Systems Integration Engineer-Biomedical Jobs

Company Description:

Rhythmia Medical, a venture-backed company designing an innovative system to treat cardiac arrhythmias, is targeting one of the fastest growing fields in medical devices.

The system includes state of the art signal processing, 3D imaging and catheter fabrication technologies. We are extremely selective in our hiring and employ a small team of super talented individuals whose aim is to have a major impact on developing a breakthrough life-saving technology.

Job Description:

The Biomedical Systems Integration Engineer will participate in the hardware and software development at the company and be involved in the test, design and development of the company’s bioinstrumentation platform.

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