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What are my post study career plans in biomedical science
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Overview of Biomedical Sciences
Biomedical sciences are the set of applied branch of life and natural sciences, which is used for diagnosis, prevention and treatment of human diseases. There are various streams of biomedical science including human biology, pathology, biochemistry, molecular & cell biology, genetics, pharmacology, immunology, applied or clinical chemistry, microbiology, epidemiology, and biomedical engineering. Modern advancements in medicine depends a lot on the work of biomedical scientists. However, the subject is NOT a substitute for Medicine.
Career Opportunities
Biomedical scientists usually work in the laboratory. They handle biological samples (blood, urine, cells and tissues) and use a wide range of laboratory equipments
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discovery of new biomarkers or a new method of detecting a biomarker) working towards discovery and development of treatments, which could be preventive (vaccines) and/or therapeutic (drugs and medicines) working closely with doctors and clinicians to invent new devices and technology in order to help in diagnosis and treatment of diseases
After studying biomedical sciences, one can be employed in various job roles within scientific research and development, bioinstrumentation, medical imaging, biotechnology, pharmaceuticals, drug design and delivery, medical equipment manufacturing and supplies, hospital and healthcare. It is possible for a graduate with a good degree in biomedical sciences to obtain a place on a four-year, fast-track, graduate entry course to study medicine - so you can be a Medical Doctor (M.D.) even if you couldn't have cracked medical entrance exam after your 10+2.
Required Education and
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Indian companies are actively collaborating with foreign ones to make world-class infrastructure and atmosphere for research. One perfect example is the partnership between Biocon and Bristol-Myers Squibb. Biocon and some other contract research organisations (CRO) have been quite active in recruiting foreign-return Indian biomedical scientists. Biocon also started a 16-month training program in partnership with California-based Keck Graduate Institute, with the objective of reducing skill gap and make young Indian bio-medical students
...in the fields of both science and medicine, future epidemics of any disease can be handled better. When a lethal disease begins to rampage a population, research on similar epidemics can help the world contain, cure, and prevent the disease to protect the world and its population.
In America today we have experienced the greatest advances in the fields of medicine since the middle ages. Diseases such as polio, the bubonic plague, and small pox have virtually been eradicated. With the advances in the pharmaceutical industry, drugs are being manufactured that offer relief and hope to patients that once had no hope. However with all of these advances, we still have a ways to go. We are still trying to find cures for diseases such as Crohn’s disease, Parkinson’s, diabetes and even cancer to name a few. So what can we do and how can we address these debilitating and often life threatening diseases? Are their possible cures and what measures do we need to take to get there? The answer, the missing component, is looking
Stem cell research is one of the most widely expanding areas of scientific research being conducted all over the world today. In basic terms, stem cell research is the research of stem cells; however in actuality is much more complicated. A stem cell is a cell with the ability to develop into any of the cell types that make up the tissues and organs of the body. This makes these cells highly useful and provides endless opportunities in the field of regenerative medicine.
The different models to health all use different principles. The biomedical model concentrates on the physical and biological aspect of a disease. Doctors and health professionals practice this model. This model is associated with the diagnosis, treatment and cure of the disease. This model evolves as times goes
Over the past decade, scientists have made significant advancements in the treatment of certain diseases. Unfortunately, just like any new product, the cost of developing these new technologies and treatments is extremely high. Plus, unlike other technology, heath technolo...
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,
My desire of studying biomedical sciences stems from my sciences interest, as it demonstrates a world not visible to the naked eye, plays a big role in everyday life. science specifically biology and chemistry are stimulating and challenging subjects , over the years of studying them ,my interest has increased because learning things about how our bodies function and how it relates to god’s creation is particularly interesting for me. I also find it very important because I’m Muslim. The biomedical science degree will open for me the door to learn more about the vast field of biology and its branches to a greater depth. I developed my knowledge in the science field by taking support classes in the lab at school; I was fascinated by how the body can function in different circumstances and the complexity of DNA, different organisms, chemical reactions, and also very importantly the mathematical aspect which gives me the chance to develop and use my logic and it inform me to new ways of looking at given problems.
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.
The basic research involves investigating fundamental science of human biology and pathobiology. People involved in basic science usually conduct research in the lab (bench work), which lead to identification of disease causing factors, drug targets (proteins or genes) and regulatory pathways (at genetic, molecular or cellular levels).
Vaccines are the contemporary medicine that is on the market to prevent many infectious diseases. About 80-93% of United States population have been
When Luke Skywalker's hand was sliced off by Darth Vader in the trilogy Star Wars, he received a new prosthetic hand which was fully functional in use and appearance.Today, this science fiction is becoming reality as an exciting new technology called Biomechatronics is promising revolutionary advances in the field of prosthetics.
Biology is the science of life, the mechanics deals with the design and production of machinery, and Engineering is the application of science and math to real life problems. Biomechanical engineering is mechanical engineering applied to biological systems. Using the combination of the scientific principles of biology, mechanics, and engineering, new advances in the healthcare field have been possible. Some of these advances include fabricating human tissue, improving the biomechanics of hearing with things like hearing aids, and robotics technology. The principle of biology is used because biomechanical is all about the body and fixing health problems that occur within it. Biology is very important for biomechanics, because without it, a biomechanical engineer wouldn’t be able to incorporate mechanical technologies to the body to help fix it. The principle of mechanical engineering is used because while you have to have an understanding of the body, you also have to understand the ways you can fix and improve it. The mechanical part of biomechanical engineering has to do with the technology that is improving the body and that machinery can be artificial devices that replace body parts, or machines for diagnosing medical
I have been keen on chemistry and biology throughout my time at secondary school. I have always been amazed by human anatomy and physiology. I am particularly interested in understanding methods for diagnosing, analysing and treating disease. Ihope to study biomedical sciences because I wish to pursue a degree which will enable me to explore the world of science in much greater depth and widen my understanding of the role of science in the modern world. I feel that a degree in biomedical sciences will broaden my perspectives and enable me to use my scientific skills in full. I enjoy reading widely on a range of scientific subjects, and look forward to the opportunity that a biomedical science degree will give me to pursue these interests further.
Thomas, Lewis. “The Technology of Medicine”. The McGraw Hill Reader. 8th ed. Ed. Gilbert H. Muller. New York: McGraw Hill, 2003. 581-585.