Ever since I can remember my father has worked for medical device companies. He would always bring home medical devices such as heart monitors, blood analyzers, and heart pumps. I would bother my father with tons’ questions about them and I remember always being amazed by them and how they worked which sparked my interest in biomedical engineering as a field to pursue my career in. I find its unique mix of engineering, medicine and life Sciences exciting. My goals for the future is to further understand prevention, diagnosis, and treatment of human injury, and using that knowledge to advance new technologies for better healthcare. During my time in university I want to challenge myself academically, join student organizations, and find internships in biomedical device companies to gain real world experiences in my field to solidify my choice for being a biomedical engineer.
The college I initially decided on was University of Massachusetts Lowell. I chose this university because I would be able to take core classes close to home, it was cheap, and they had the major I wanted. After being one of the first students in the biomedical engineering program for one semester and seeing what this new program had to offer I
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Hands-on experience in a university’s program is something that I highly value and UConn’s BME program offers more internship opportunities than most schools, provide research facilities and laboratories that help students gain experience using their lab equipment, and offer education abroad programs. These are all programs that I expect to use and are programs that are not present in my current university. Not only do they provide many opportunities for students in the BME program the campus life at UConn has a lot to offer. The wide range of academic and sports clubs is a plus for me and would help me transition smoothly into the
Stephanie Lee MS in Medical Device Innovation Personal Statement This past January, I had the most enriching opportunity to dissect and study the thoracic cavity of a human cadaver through the Advanced Cardiac Anatomy course held by the UMN. For the first time, I held a human heart within my hands, studied its anatomy, and was also able to closely examine the placement of a dual-chamber defibrillator. My company, Heraeus Medical Components, specializes in products for cardiac rhythm/heart failure management, so this was extra meaningful for me to not only see the leads, but also follow them to the sites of therapy within the heart. In a room of twenty-four cadavers, could I have somehow impacted any one of these patients’ lives?
The medical field offers a variety of job opportunities for people of any age, education and skill level. One of the many jobs offered by the medical field is that of a biomedical engineer. A biomedical engineer applies engineering principles to healthcare and the equipment used in the health field. Being a biomedical engineer, you can take very many paths as soon as you finish your schooling. Depending on where you work, you can have multiple duties such as designing equipment and devices used for diagnosing and treating medical problems. Biomedical engineers evaluate the properties of biomedical equipment, maintain, and provide technical support with proper training required to use the equipment. On the more scientific aspect of the job,
Biomedical engineering supports devices used in direct patient support services. Tasks include calibrating machines and replacing and testing batteries used in the equipment.
Biomedical engineering is a branch of science that connects engineering sciences with biological sciences that started around the 1940s (Citron & Nerem, 2004). Biomedical engineering is the discipline that promotes learning in engineering, biology, chemistry, and medicine. The objective for biomedical engineers is to enhance human health by incorporating engineering and biomedical sciences to solve problems. Some of the accomplishments made from biomedical engineering are prosthetics, robotic and laser surgery, implanted devices, imaging devices, nanotheranostics and artificial intelligence. As we head towards the future, biomedical engineering is anticipated to become an even greater part of the medical industry and bring about innovating
During my Junior year of high school, I started looking at nursing schools, and after comparing many nursing schools, the school that caught my eye was Clarkson College due to the fact that they have a lot to offer to the students. Clarkson has a one of a kind nursing program that will help me thrive as a nurse. A big factor for me in a nursing program is having a small class size to be able to have a closer relationship with my professor/instructor. Being that I am a fast learner, working hands-on with simulators at Clarkson I will be provided an excellent clinical feel of what I will be presented within the working world. I have always been fascinated by the anatomy and physiology of the human body and nursing, and attending Clarkson college will give me the education I need to be as successful a future nurse. My senior year of high school I wanted to get a head start in my health care career and I dual enrolled at Metropolitan Community College. It was an opportunity that I very much enjoyed and I gained much information from. Unfortunately, during my second semester in high school, my mother lost her job and I had to help support our household, so that left me with no other option than to drop the classes I was taking at Metro to be able to
These studies, in my opinion, hold to be necessary on my intended path to research breast cancer, and hopefully extend my investigations and findings to other types of cancerous diseases as well. Besides that, these degrees could not only be useful for research on cancer, but also in other types of disease research or development of modern technologies with the focus on sharpened imaging and detection, regenerative technologies, and biomechanics. That is why I also desire to apply my outstanding analytic and problem solving skills to extend my horizons. Therefore, I aim to earn a Bachelor of Science in Mechanical Engineer before completing graduate school or medical school, which would succor my future in research activities. Thus, I know that in order for to develop the latest technology additional fields of study remain necessary to create a cutting-edge and satisfactory solution to resolve a
My current area of interest is in the engineering and the biomedical field. After experiencing the rigorous AP Chemistry course, I was able to find my passion in the field of medicine. Furthermore, I had already developed an interest in engineering from my previous engineering courses and clubs, so a deeper understanding of what I wanted to do was discovered in a chemistry lab. Being involved with the Technology Student Association at our institution, I learned several different skills in a variety of technical fields. This led to my conclusion that I wanted to become a biomedical engineering. This field of engineering incorporates both the medical aspect and technical aspect of what I want to become in the future.
Meanwhile, I would transfer to attend the University of Texas at Arlington. Once I start the school year, I am going to surround myself with young people, who are motivated, caring and determined, too successful in their academics as well as their personal lives. I want to strengthen my communication skills, study harder, and improve my time management skills. And maintain myself there to obtain my Bachelor Science Degree and can go deeper and higher level status in my career field. I choose to apply to this Honors Program, because I like to be challenged and I work hard for what I want to
My passion for Science and the practice of Medicine goes far way back as my childhood days when my uncle who was paralyzed for ten years with acute spinal cord injury passed away. This incident paved the way for the
According to Bureau of Labor Statistics, biomedical engineers “develop devices and procedures that solve medical and health-related problems by combining their knowledge of biology and medicine with engineering principles and practices.” Biomedical engineers are expected to have employment growth of 72 percent over the projections decade, much faster than the average for all occupations. The employment growth is very high even compared to other engineers.
Looking at the history of this industry it has only grown sense it was first introduced. This is because societies are always sick and everyone wants to get better, which is where Biomedical Engineering comes in. The scientists work constantly to construct new medical devices; some of these devices include critical time instruments like a defibrillators or a disorder that is permanent like a pace maker. In both cases without them many people would not make it out of a hospital. There is one issues with the biomedical industry, as time goes on engineers are constantly pressured to come up with the next great device but they are limited by what has already been made. What this means is Engineers can only be as good as the equipment that is presented to them. A pro to this is that in return the engineers are paid fairly well and get ...
What drives me to pursue a career as a biomedical engineer is not only to help disabled patients, but also my love of the field itself. Biomedical engineering combines two subjects that have left strong impressions on me, biology and physics. Just learning these subjects from classes and textbooks does not suffice to quench my curiosity. I want to learn more through personal experience. At SIMR, I will be able to handle my own research project, and it will really help me gain an even stronger interest, and propel me forward into my career
My interest in the field of Automobile goes back to my early years in high school which is when I decided to pursue a career in engineering. As a child I was always fascinated by the very concept of automobile. Further, my father’s constant involvement in the automotive industry as an insurance claims assessor further enhanced my interests in automobiles. He was the one responsible for showing me the correct path to pursue my career in automobile field. Hence, after having completed my primary education, I decided to delve straight into the world of mechanics and engineering and pursued a diploma in mechanical engineering followed by a bachelor’s degree in mechanical engineering. Since there were very few options in India & there was no direct path to get into automobile field.
I am applying to the M.Sc. program in Medical Physics and Imaging within the Department of Medical Biophysics at the University of Toronto. Having majored in Electrical and Biomedical Engineering as an undergraduate, my primary interest lies in the field of medical imaging, in which I am fascinated in advancing and improving MRI methodology and technology, specifically with respect to in vivo spectroscopy. Improvements in medical imaging have provided a breakthrough in medicine, with the ability to noninvasively diagnose and treat patients. My primary concentration among the many medical imaging modalities is the MRI, due to the flexibility of its techniques and its safe use.
The multitudes of extracurricular and academic activities I participate in were chosen because of their focus on my interests. I want to pursue a career in computer engineering and/or biological engineering. In order to help me accomplish this I carefully consider how extracurricular and academic activities will assist me in the future. Currently I am participating in several rigorous academic courses such as AP Physics C and AP Calculus BC to gear me towards a college environment, as well as a variety of clubs that focus on engineering and the sciences. A vast majority of the classes I take are advanced placement, which gives me the chance to obtain college credit before entering college. Advance placement classes also challenge me with faster paced instruction, which prepare me for the speed and difficulty of college level courses. I am currently taking AP Biology, AP Computer Science A, , AP Literature and Composition, AP U.S. Government and Politics, Pre-AP Chinese IV, and Honors Independent Research. In terms of extracurricular activities, I currently participate in the Stock Market Club, Science and Engineering Club, our school’s FRC team, and Chinese Club. In my free time I enjoy building computers, putting together parts lists for computers, programming, playing video games, and learning about various technical jobs and new computing technologies such as server administrator and quantum computing.