Biomedical science is a field of research that has grown exponentially in the past few decades. It’s now one of the most popular fields for professionals to enter with an undergraduate or graduate degree, and with good reason. Biomedical scientists are highly respected members of society who work to solve some of humanity’s most difficult problems with their expertise in biology, chemistry, physics, engineering, and computer science. This guide will give you all the information you need about this exciting career path.
Who Are They?
A biomedic is someone who engages in biomedicine, which is the application of medical knowledge and skills to the diagnosis, treatment, and prevention of disease. A biomedic is also known as a biophysicist, biotechnologist, or biomedical scientist.
A biomedic may work in research laboratories or other biotechnology companies, hospitals, colleges and universities, government agencies, pharmaceutical companies (pharmaceutical sales representative), insurance companies (medical underwriting), medical equipment manufacturing companies, anesthesiology offices, or veterinary clinics. Some bio pharmacists choose to specialize by storing more advanced therapeutic options that are often higher-cost medicines.
What do they do?
Biomedical scientists within the field of biochemistry study the chemical structure of biological molecules such as proteins and nucleic acids regardless of their sequence. Their professional roles can vary from clinical analysis to protein purification through biotechnology operations like cell culture for the production of protein therapeutics or monoclonal antibodies. Biomedical scientists are also involved in pharmacology, toxicology, and biotechnology product development.
Within the field of biochemistry, biochemists study the chemical composition of cells and their metabolic pathways, aiming to understand exactly how these chemical reactions are being carried out that enable life processes to occur.
They are leading researchers in biochemistry that have concentrated on particular functions within the body like gene replication, DNA repair, and carbohydrate metabolism. Some biochemists work with genetics (the science studying heredity) to research how certain genes produce proteins while others may study how pathogens interact with host cells to devise methods for treatment against diseases caused by viruses or bacteria.
Training And Work Environment
Biomedical scientists typically need a bachelor’s degree with coursework in biology and chemistry, with additional coursework in physics and math. Most entry-level biomedical scientists will have a master’s degree which is required for most research jobs or non-tenured teaching positions at universities.
More senior biomedical researchers may pursue careers outside science such as finance, patent law, business administration, or medicine where there is more job security.
Biomedical scientists work in academic or commercial settings. Academic biomedical researchers are mostly involved in basic research where they collaborate with biologists, chemists, mathematicians, computer scientists, and other types of engineers to develop new hypotheses and theories.
Commercial biomedical scientists focus on applied research which involves applying existing knowledge to the development of diagnostic tools, innovative therapies, or techniques for disease prevention.
Biomedical science is a field that is still growing very quickly. New sub-disciplines are being developed all the time as our understanding of biology becomes ever more complex requiring better technology to analyze its components. These days it’s not unusual for a biologist who has expertise in one particular area like genetics, pharmacology, or cell biology to work across multiple fields. For example, a scientist who has expertise in stem cell biology may work on neurobiology or diabetes research.
Biomedical science is not restricted to someone:
Biomedical science is not just for scientists. Every time you go to the doctor’s office and have your blood taken, the results are analyzed by biomedical scientists. The same goes for every lab test done in hospital laboratories, screenings for cancer biomarkers that detect early signs of diseases like prostate cancer, or tests for infectious diseases endemic to certain areas of the world such as malaria or dengue fever.
You’ll also find biomedical scientists working in industrial labs developing new drugs to treat infections caused by resistant bacteria (Methicillin-resistant Staphylococcus Aureus), mood disorders, or high blood pressure among many other things.
Biomedical science is truly an exciting field. Because this is such a new and rapidly growing discipline, you’ll find that there are so many areas to specialize in which will allow you to work on all sorts of interesting projects.