Tag Archives: Biomedical engineering

BIOMEDICAL PROJECTS SITE LAUNCHED

IF YOU FEEL SOMETHING LIKE PROJECTS IS MISSING FROM THIS BLOG THEN YOU CAN VISIT MY NEW BIOMEDICAL PROJECTS SITE

TO

BME INDIA BY KUSH TRIPATHI

All biomedical engineering projects and all the requirements for successfully completing the biomedical projects in India
These biomedical projects are brand new and these projects are complete in themselves and easy to make and good to present before the college
these projects have been extensively searched through and researched on the internet
all the resources have been compiled in a suitable way

This information is thoroughly arranged you can get all the insight here

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HOW YOU FEEL WHEN SOMEONE ASKS YOU WHAT IS BIOMEDICAL ENGINEERING?

This is the most painful thing that i have to face a day after another.

Whenever i am upto somwhere and introduce myself as a person pursuing biomedical engineering then only very few of them acknowledge me and say ohh!!! yes i know what biomedical is about?

But most of them end up saying that “this would be somewhere near to biotechnology” and i get  frustrated with that thing.

i know that most of us face this thing and then we have to clarify adding up that biomedical engineering is different from biotech engineering and there is a lot that differs between two of them

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WHAT ARE THE KEY AREAS OF BIOMEDICAL ENGINEERING

According to surveys biomedical engineering field is most upcoming field all over the world

breakthroughs in biomedical field have been the most in last decade or so!

According to surveys
The “Healthcare Economy” is booming every day and after like the graph below:

Per Capita Healthcare spending (USA)  will increase by >10% in 2002 and is expected to be over 20% of GDP by 2025

What Will Be the 10 Hottest Jobs?

  • What sorts of companies hire biomedical engineers?
  • Should I plan on getting a PhD?
  • What is a typical career path in industry?
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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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MRI perilous for pacemaker patients:IMAGING STUDY

Exposure to an MRI magnetic field can cause unintended cardiac stimulation and considerably alter pulse in patients implanted with pacemakers–conditions that can have potentially devastating consequences–according to research published Dec. 15 in BioMedical Engineering Online.

Howard I. Bassen, a researcher with the FDA in Rockville, Md., and Gonzalo G. Mendoza, a biomedical engineer at Catholic University of America in Washington, D.C., measured the electric fields (E-fields) induced near the tips of pacemakers by a simulated MRI gradient system to assess the risks involved in patients with a cardiac device who undergo MRI.

According to the researchers, “patients are generally not allowed (by present practices) to undergo MRI procedures if they have implanted cardiac and neurological stimulations devices,” however, some clinicians “condone scanning patients” implanted with cardiac pacemakers. In addition, Bassen and Gonzalo noted that there has been a push to develop medical implants that are MRI compatible.

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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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