There are many Biomedical Science Specializations as Biomedical science is a vast and continuously evolving field of study. Biomedical scientists work to improve existing medical interventions and create new ways to enhance the medical community’s ability to deliver treatment to patients.
Biomedical science, like medicine, is a discipline that naturally lends itself to heavy specialization. For example, biomedical science graduate students might choose to focus on learning how to develop new medicines to treat cancer patients; they can focus on learning how to create prosthetic limbs that are more comfortable for children born with birth defects, or they can focus on figuring out new ways to prevent the spread of diseases.
A field of study that offers so many options may be exciting, but it can also be overwhelming. One approach to navigating the complex world of biomedical research might be to first decide upon a general area of specialization.
This specialization involves the application of engineering principles to biological systems. Biomechanical engineers must have a strong grasp of biology as well as mechanical and engineering principles. They may find potential career opportunities in research labs, surgical hospitals and for medical device manufacturing companies in the private sector.
Biomedical engineering involves the application of engineering principles to biology and medicine programs for improving public healthcare. This specialization requires coursework in biology, engineering and public health and often involves work in hospitals, clinics and research centers upon graduating.
This specialization focuses on the study of chemical processes and their effect on biological organisms and how it can be harnessed for medical and healthcare aims. Clinical biochemists must study biochemistry as well as public health and often work in research labs and universities upon graduating.
Vascular science focuses on cardiovascular health and how it can be improved through the application of biomedical science principles. Vascular scientists typically work in hospitals and medical centers and require training in areas such as public health, medicine and physiology.
Clinical engineering involves the application of medical technology to improve the delivery of healthcare services. Clinical engineers often find work in clinics, hospitals and universities and must complete coursework in subjects such as engineering, biology, public health and medicine.
These Biomedical Science Specializations focuses on how medical devices can be used for medical diagnostics, health monitoring, therapy and rehabilitative care. Those looking to enter this field often find employment in hospitals, surgical centers and research and development labs and must complete courses in subjects like public health, medicine, technology, clinical care and engineering.
Microbiology involves the study of microscopic organisms. Microbiologists must study subjects like biology, applied science and medicine and often find work in research labs, universities and for private sector firms.
There are many other Biomedical Science Specializations and disciplines that individuals interested in pursuing a graduate degree or career in the field of biomedical science might explore, and opportunities for hyper specialization within each field are abundant. Taking the time to explore these options prior to enrolling in a graduate program is an important part of the process of applying to a biomedical sciences graduate degree program.
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