Environmental Biomedical Science Degrees
Biomedical environmental science is the study of applied sciences that applies natural and formal science to research and develop technology to use within healthcare, public health, and environmental health and welfare.
There are more specific disciplines, including epidemiology, biomedical engineering, and biotechnology. Individuals who enjoy science and its application in healthcare, technology, and related research often find rewarding careers in the biomedical sciences. Biomedical scientists study all of life’s processes to better understand how to diagnose, analyze, and treat various diseases and ailments.
With so much versatility and a growing need for highly skilled biomedical scientists, more and more of today’s talented students are choosing to pursue biomedical environmental science degrees.
Biomedical Science Degrees
Bachelor Degree in biomedical environmental science
A Bachelor of Science in Biomedical Science prepares an individual for a future career in the field of medical research that will lead toward innovative and revolutionary discoveries in the world of medicine. This undergraduate degree is a four-year program that is offered at top universities throughout the world, some of which will be highlighted in this article. First, we will address the definition of biomedical environmental science as well as what a Bachelor’s Degree in it entails.
If you are considering studying biomedical environmental science, this article will help you form a solid understanding of the field, the degree’s program structure as well as the various options for future careers that will await you post graduation.
What is a Bachelor of Science in Biomedical Science?
A four-year undergraduate degree, the Bachelor of Biomedical Science introduces students to the world of biomedical fields and lays a solid foundation in the core subjects needed to excel in the future. Through expensive research-based studies, students won’t just take in a wealth of rich academic content, but will also accumulate hours of hands-on experience that further reinforces their core studies.
The program stresses on developing a deep understanding of human biology through the study of subjects such as biomedical environmental sciences, physiology, pharmacology and pathology. In short, biomedical science aims to understand how the human body’s cells, organs and systems function in order to better comprehend and improve upon the treatment of human diseases.
What does the Bachelor of Science in Biomedical Science look like?
The undergraduate degree follows a traditional four-year outline of study that combines both detailed classroom instruction with laboratory work. The core courses that students studying biomedical environmental science include biomedical chemistry, a cells, tissues and organisms course, medical biophysics, cell biology, basic neurobiology, human genetics, molecular medicine and biotechnology and more.
Students pursuing an undergraduate degree in biomedical environmental science also select a specialization that they usually begin to study intensively their third year of school. The concentrations offered may vary among institutions, however the general rage includes disciplines such as immunology, infectious disease, medical and behavioral genomics and psychophisology.
The research requirements of a degree in biomedical environmental science demands the student to dedicate hours each semester to various lab exercises that involve elements of chemistry, anatomy, molecular biology, endocrinology and more.
The Best Schools to Earn a Bachelor in Biomedical Science
There are several major universities in America that do not offer biomedical science as merely a discipline but instead provide a detailed and accredited undergraduate program that will provide students with the academic foundation and lab experience that they will need to move on to have successful careers in labs, hospitals and research facilities or to pursue a graduate program.
Stanford University is a world-renowned college in California and offers both undergraduate and graduate degree opportunities for those interested in biomedical science. The concentrations available include cellular biology and anatomical sciences, ecology and evolutionary biology, general biology, genetics, microbiology and immunology, molecular biology, biochemistry and biophysics as well as others such as pharmacology and toxicology.
The biomedical science department contains 15 programs, all of which incorporate the core requirements as well as specifications needed to excel in each.
The various degree options at the University of Pennsylvania’s campus in Philadelphia range from associate’s to master’s as well as certifications. Students who select UPenn can choose from an offering of bioscience disciplines that include bioinformatics, cellular biology and anatomical sciences, general biology, pharmacology and toxicology, molecular biology, biochemistry and biophysics and more.
The various degree options and the school’s acclaimed bioengineering program that expands to provide extensive and rewarding post-graduate opportunities makes the University of Pennsylvania a competitive candidate when selecting a school to pursue an undergraduate in biomedical science.
Law, medicine and science facilities at the Ivy League school of Harvard in Cambridge, Massachusetts are world-renowned and provide students with a fundamental education that incorporates both the traditional and proven academia with innovative and progressive technology. Undergraduate as well as doctorate, master and postbaccalaureate degrees can be obtained from the school and all instruction is based out of the university’s School of Engineering and Applied Sciences.
The bioengineering undergraduate program features such focus areas as cell & tissue engineering, biomaterials & drug delivery, neuroengineering and biomechanics. Laboratory and research experience are stressed in the curriculum to prepare students for a demanding and lab-based career post-graduation.
Careers with a Bachelor of Biomedical Science
A biomedical environmental science degree does not provide any medical training or certification, but those who receive a diploma still move on to work in laboratories in hospitals and other medical and research facilities as scientists and researchers. The majority of students who pursue a Bachelor of biomedical environmental science choose to continue their education and obtain a master or doctorate degree to further develop their degree’s focus and expand their career opportunities.
Other careers that one may consider with a Bachelor in Biomedical Science include positions at laboratories, hospitals, universities and pharmaceutical companies. Those who want to move on to medical positions can use their bachelor’s as a stepping stone to earn a graduate degree that will provide them the opportunity to work as a chiropractor, sports medicine doctor, a general medicine practitioner, nutritionist, public health specialist, toxicology consultant, bioinformatics researcher and more.
Whether a student wishes to work immediately post-graduation or move on to earn an advanced degree in a more focused field, a Bachelor of Biomedical Science is one that incorporates the major scientific fields such as biology and chemistry and merges them together to enable graduates to contribute to the research, diagnoses and development of advanced treatments for human diseases.
Master’s Degree in Biomedical Science
Graduate work in biomedical environmental science from an accredited college or university prepares a student for a variety of interesting, exciting careers. This type of credential enables someone to work in settings as diverse as a boardroom, a classroom or a private industry laboratory.
If you prefer, you can use this degree to help you pursue advanced training in a selective academic program. Additional study might enable you to train to provide direct care to patients in a clinical capacity, or to teach in a prestigious research university setting.
Preparation For a Masters Degree in Biomedical Science
biomedical environmental science incorporates areas of the biological and physical sciences within a health context. To excel in this field, students study subjects such as Biology, Chemistry, Physics, Biochemistry, Microbiology, Cell Biology and Genetics. Participating in these programs will require a solid background in Mathematics and Statistics. Some knowledge of Computer Science also proves helpful today.
Most students prepare to apply for admission to an accredited program in biomedical environmental sciences by completing an undergraduate Bachelors of Arts or Bachelors of Science degree from an accredited four year college or university. A Master’s Program in this field typically involves one to two years of intense advanced study beyond the undergraduate level.
Since you will likely spend a considerable portion of your time in a laboratory setting, it usually proves helpful to take some undergraduate level courses which include laboratories as you prepare to enroll in a Master’s Degree program in biomedical environmental science. It is also sometimes useful to study foreign languages, since you may want to consult research studies published in other parts of the world.
Careers in the Biomedical Sciences
What types of professionals work in the biomedical environmental sciences today? This field incorporates a challenging, exciting variety of employment settings. It includes:
- Business Researchers
- Pharmacology Company Researchers and Marketing Personnel
- Research Laboratory Workers
- Health Educators and Nutritionists
- Food Safety Testing Company Personnel
- Government Agency Specialists
With a Master’s Degree in Biomedical Sciences, you enjoy many career options. Master’s Degree students often concentrate on a specialty within this broad field and take courses enabling them to pursue their interests when they graduate. Whether you hope to work for a Department of Fish and Game as a Wildlife Biologist or you prefer developing infant formula in a nutritional company’s products laboratory, a Master’s Degree in Biomedical Sciences offers you a rewarding future.
Additional Academic Training
This type of degree also strengthens your application to certain advanced academic programs. When you graduate with a Master’s Degree in biomedical environmental sciences, you might want to consider seeking admission to a formal program of higher education in one of these areas:
- Seek admission to a Physician training program to become an MD
- Or seek admission to a Veterinarian training program to become a DVM
- You may pursue a doctoral degree program in Biomedical Science to become a Ph.D. of Biomedical Sciences
- Enroll in a PA training program and become a Physicians Assistant
- Pursue admission to a training program in Dentistry to practice as a DDS
- Seek admission to a Physical Therapy training program to become a Physical Therapists, or PT
Although students sometimes apply directly for admission to these highly competitive advanced training programs after graduating from college, holding a Master’s Degree in Biomedical Sciences may help your application stand out. You will already have demonstrated aptitude in a rigorous scientific subject.
Some students seek a Master’s Degree in biomedical environmental sciences in order to transition into a new, more scientifically oriented career. For example, if you work as a police officer, obtaining a Masters Degree in Biomedical Sciences may assist you in pursuing a career in a Forensics Laboratory. Or if you enjoy working in sales, by obtaining a Masters Degree in Biomedical Sciences, you may find that you can more easily obtain a position as a marketer for a pharmaceutical company or biomedical research organization. A Masters Degree program in this field may enable you to obtain a teaching position at the two year community college level.
Just consider many of the interesting types of positions filled by people who hold Masters Degrees in this field:
- Work as a nutritionist and formulate new, healthy beverages and food items
- Help develop cutting edge pharmaceutical products
- Advise expecting parents about genetic diseases that might impact their offspring
- Perform statistical research for insurance companies
- Evaluate the performance of new health products
- Write educational articles for popular science-oriented media and films
- Help a government agency track down the source of an environmental toxin
- Work in the beauty industry developing anti-aging skin creams
With a Master’s Degree in Biomedical Science, you will enjoy the ability to perform many different types of jobs that relate to both biology and health. You will also possess an advantage if you seek additional advanced training in a medical discipline.
Students looking to further their education in the biomedical environmental sciences have many options in today’s educational climate. Biomedical science encompasses a wide variety of disciplines and several job prospects. While many students who choose to pursue a Ph.D.. in a biomedical science discipline are looking to become instructors or researchers, there are many other lucrative occupations available to doctoral degree holders. Here are some of the best Ph.D.. majors in biomedical sciences:
Overview of the Biomedical Sciences
Individuals interested in all areas of medical science might want to consider a Ph.D.. in general biomedical science. A Ph.D.. in biomedical science is a research focused degree program with courses in cell biology, biochemistry, biophysics, genetics, and human anatomy.
Individuals with a Ph.D. in biomedical environmental science will work in research facilities performing studies to improve healthcare practices. They will often perform clinical trials for experimental treatments. The US News and World Report indicates that these researchers earn about $76,000 per year.
Northwestern University, a nationally ranked university by the US News and World Report, offers a Ph.D.. program in biomedical sciences. Students in the program are expected to perform extensive research as part of their program. The program is ranked in the top 100 globally.
A Ph.D.. in biomedical engineering can lead to the best jobs in the biomedical engineering industry, but it is also sought by experienced engineers looking to become experts and teachers in their field. Biomedical engineers study biology concepts such as cell biology, histology, and pharmacology; however, they also must be experts in physics, math, and engineering concepts.
With a biomedical engineering Ph.D.., the BLS estimates you can make over $130,000 per year. Johns Hopkins University has the number one program in the country for a doctorate in biomedical engineering. The program offers multiple research opportunities and professional development roles.
Microbiologists need a Ph.D.. in order to work in colleges and universities or work in labs perform independent research. Microbiologists work with bacteria, fungi, and viruses to determine how they grow, spread, and interact with the environment.
The pay for microbiologists with a doctorate is above $100,000 annually, as indicated by the BLS. Washington University in St. Louis has a top ten doctoral program in microbiology. This program is highly specialized and usually takes at least five years to complete. Students are expected to attend full time.
A Ph.D.. in public health will make you eligible to pursue teaching positions at universities in public health programs and other health sciences. In addition, a doctorate in public health will make you the perfect candidate to oversee public health and health education programs for your community.
According to the BLS, individuals in Public Health can make over $80,000 a year. The University of Michigan in Ann Arbor has the number four ranked Ph.D.. in public health in the nation. The program requires six semesters of study beyond a master’s degrees and ends with a dissertation.
A Ph.D.. in exercise science usually translates to a career in exercise therapy or research. With exercise therapy, individuals devise athletic training programs to help individuals recover from injuries. Researchers discover new ways to help people recover.
Exercise science students take courses in human anatomy, biological systems, statistics, and kinesiology. The BLS indicates that exercise physiologists make close to $70,000 per year. The University of Utah offers a top ranked program in exercise science. A doctoral degree from the University of Utah includes plenty of research and teaching experiences.
Have you ever wished you had been part of the team that cracked the human genome? With a Ph.D.. in genetics, you can be part of the next big thing. If research isn’t your main focus, then you can also work as a genetic counselor helping people assess their risks of inherited diseases or defects.
Genetic counselors earn close to $85,000 with a Ph.D.., according to the BLS. There are several great universities that offer doctoral programs in genetics. Boston University is a top fifty global university that offers a doctoral program in genetics. The program is a dual Master of Science and a Doctor of Philosophy degree program in Genetics. Students are required to conduct research and serve as instructors.
A Ph.D.. in biological education will prepare you to be an expert college biological science instructor and supervisor. A program like this will give you the courses you need to become an expert in biological science as well as courses in how to teach it effectively.
College professors need a Ph.D.. to succeed in the field. The median annual earning for college professors are around $86,000 per year, as listed on the BLS website. Ph.D.. programs in Biological Education are somewhat rare, but the University of Northern Colorado offers a high-ranking program in biological education that prepares students to be excellent professors in the biological sciences.
Biomedical science has a growing curve in both terms of job availability and salary. Individuals can find work in a variety of settings. Furthermore, it is one of the most growing fields in industry at the moment with many occupations (including research and education) growing at a faster than average rate. Now is definitely the time to continue education in the biomedical environmental sciences.
A master’s degree in biomedical science opens up a wide range of career possibilities, everything from the practice of medicine to the design of medical devices.
While obtaining a graduate degree used to require an expensive program on a limited schedule at an on-site university, online programs have become much more prolific in recent years. There are now options available for nearly any schedule or budget.
These programs are with accredited schools, and usually offer a range of financial aid and financing options.
Online Master’s of Biomedical Science Program Reviews
We’ve reviewed some of the largest and most inexpensive online master’s programs in the field of biomedical environmental science and have presented them here.
Master’s in Medical Sciences (Health Concentration)
The program offered at the University of South Florida consists of four semesters covering the basics of medical biochemistry, microbiology, neuroscience, pathology and pharmacology among other topics.
The program is 100% online and taught by the same College of Medicine faculty members that teach courses in person. The only mandatory log-in times are for certain exams.
MS in Biomedical Sciences
Liberty University offers a Master of Science program from a Christian perspective. The program is tailored to those looking to move on to advanced medical programs and places a special emphasis on preparation for the Medical College Admission Test (MCAT).
Medical fundamentals such as cell biology and biochemistry are covered as well as the role of Christian ethics in medicine. Students can transfer in up to 15 of the program’s 39 total credit hours.
Master’s in Biomedical Sciences (Veterinary Surgery)
Students looking to use their degree to work as a veterinarian will definitely want to take a look at this online master’s program. The degree program covers biomedical research with an emphasis on veterinary medicine and animal surgery. While it’s most ideal for aspiring veterinarians working on their residency or specialty boards, it can also be used as an entry into other doctoral studies fields in biomedical environmental science. Core courses are in clinical chemistry, cell biology and physiology among other subjects.
Master of Arts in Biomedical Laboratory Sciences
This program is conducted by the College of Natural Science at Michigan State and serves to prepare applicants for a wide range of advanced medical programs. Required classes of the program include biomedical laboratory diagnostics, advanced clinical laboratory practice and experimental design and analysis. Students also choose from 12 elective courses including cell biology, molecular biology and biomedical laboratory operations.
MS in Biomedical Diagnostics
This program is delivered online and takes one year to complete. Biomedical diagnostics is a new and emerging field that helps to further personalize medicine by more accurately matching patients with the drugs they need for treatment.
The program is the first of its kind and shares assets between Arizona State and Dublin City University. The core curriculum covers the science, technology, business and application of diagnostics.
Master of Engineering (Biomedical Engineering Specialization)
Colorado State’s master’s program in biomedical engineering focuses heavily on design and data analysis, with courses on the structure and function of biomaterials and how they are applied in design.
Students also cover the fundamentals of phsyiology and biology along with cell and tissue engineering, bioengineering and mathematical statistics. The program mirrors the one offered on campus in Fort Collins.
Master’s in Biomedical Engineering
Purdue’s graduate biomedical engineering program is conducted online, though students may need to visit the campus at least once to develop their plan of study. Students can choose from classes including biomedical engineering, regulatory engineering, life science, professional ethics, and multivariate analysis. The program consists of 30 credit hours and it is possible to complete it in one year.
Master’s in Bioengineering
This program offered through the Clark School of Engineering at the University of Maryland is made up of seven core courses and three electives. Students are required to take courses in biological systems, cellular and tissue biomechanics and modern methods of drug delivery among others.
There is no thesis work required, with the elective courses designed to fit that need instead. The program focuses on preparing students for work as technology professionals in biotechnology, health care, defense and chemical industries among others.
Master of Science in Biomedical Engineering
This fully online program consists of 27 credit hours and can be finished in a year. The program offers a little more flexibility than others, allowing students options in all of their required course areas. Students select from a range of classes in engineering and BME as well as two translational classes and either one capstone project or an equivalent elective course.
The program offers two start dates per year and has been consistently highly regarded by U.S. News and World Report.
These courses represent some of the best online master’s degree options in biomedical science, although it is not meant to be completely comprehensive. With the greatly increasing need for medical professionals, these course options should only continue to expand and become even more flexible.
What is Biomedical Science?
According to the Institute of Biomedical Science, biomedical science is the application of biology-specific sciences for medical use in the research, diagnosis, and treatment of diseases. As sophisticated advances in medicine and healthcare continue to grow and evolve in the 21st century, demand for skilled biomedical scientists is growing exponentially.
With the ability to perform a wide variety of technical procedures, conduct important research, and analyze the results, many biomedical scientists work in hospital laboratories and are responsible for performing blood and genetic tests, diagnosing tumors, analyzing metabolic disorders, identifying infectious organisms, and more. Therefore, biomedical scientists must have sound knowledge of microbiology, pharmacology, medical biochemistry, cell and molecular biology, cytology, pathology, physiology, and other related disciplines.
Biomedical scientists investigate a myriad of medical conditions, including:
- Blood disorders
From clinical virology and genetic epidemiology to medical microbiology and biomedical engineering, a bachelors or masters degree in biomedical sciences can open up a variety of career paths depending on your specialty of choice.
Biomedical Science Specialties
Most biomedical science students continue their professional development by obtaining specialized training in any number of disciplines, including:
- Medical Microbiology – Biomedical scientists specializing in microbiology study bacteria, parasites, and other micro-organisms capable of causing disease. In addition to identifying these dangerous micro-organisms, they develop the antibiotics needed to kill them and stop the disease.
- Clinical Chemistry – In the clinical chemistry field, individuals with a masters or bachelors degree in biomedical sciences analyze blood and biological matter to aide in the diagnosis of diabetes and other diseases. Clinical chemists also perform toxicological studies and play an active role in testing liver or kidney functions and monitoring therapies.
- Transfusion Science – Biomedical scientists specializing in transfusion science identify donation blood groups, match patients to the correct blood groups, and ensure there is always blood on hand for emergency accidents and operations.
- Hematology – Responsible for studying the formation and functions of blood-related diseases, hematologists research, analyze, diagnose, and treat a number of potentially deadly diseases.
- Histology – In the histology discipline, individuals with biomedical science degrees microscopically study tissue samples taken post mortem or during surgery in order to determine the cause of illness. Cancer is often diagnosed by histologists who identify abnormal tissue cell features.
- Virology – As the study of viruses and viral diseases, virology is the discipline responsible for diagnosing, researching, and developing vaccines to treat chickenpox, HIV, and the German measles.
- Immunology – Biomedical scientists specializing in immunology deal with conditions related to the body’s immune system and the role it plays in fighting infectious diseases.
The Role of Biomedical Scientists
Doctors and surgeons treat patients based on vital research and test results performed by biomedical scientists in many fields, including cancer, AIDS, and diabetes research. Without highly trained biomedical scientists possessing biomedical science and biomedical engineering degrees – emergency rooms, operating rooms, and healthcare as we know it would not function properly. Since patient’s lives often depend on their training and skill, biomedical scientists must work accurately and efficiently while continually striving to increase their knowledge as cutting-edge science transforms into practiced medicine.
Education Roadmap for Becoming a Biological Scientist
- Earn a Bachelor’s Degree – Anyone aspiring for a career in biomedical sciences may want to earn a Bachelor of Biomedical Sciences degree or complete a specific undergraduate program for a graduate degree in biomedical sciences.
- Consider a Master’s Degree – Many students pursue a master’s degree after earning their bachelor’s in biomedical science. While many Ph.D.. programs don’t require a master’s degree, many universities require students to complete a Graduate Record Exam, or GRE, before applying. Some universities may also require the completion of the MCAT exam. Most master’s degree programs take two years to complete and many of the classes may involve immunology, pharmacology, biochemistry, and cellular biology.
- Pursue a Postdoctoral Program – A career in biomedical science typically requires a Ph.D.. degree. Ph.D.. programs combine coursework with specialized research students would like to pursue, such as infectious disease or cancer research. Most Ph.D.. programs take a minimum of five years to complete, but graduates can look forward to a financially and emotionally satisfying career in the healthcare field when done.
Coursework You May See throughout Your Degree Program
- Organic Chemistry: Often accompanied by a laboratory requirement, this course seeks to help students understand the different chemical compounds of carbon. These compounds may be reviewed in depth to help show how their principles and properties are relevant to biological processes. Students may also learn more about how these compounds can be used in an industrial or manufacturing setting, which can help to broaden overall knowledge of Organic Chemistry beyond biological conditions. In a laboratory setting, students may have the opportunity to see how these compounds react in a natural environment or in those with controlled conditions.
- Intro to Biomedical Science: This course is a generalized introduction to the field of Biomedical Science. Colleges offering this course open it to students from various medical science disciplines, due to its relevance to different areas of science. While mostly lecture in form, students are encouraged to use independent thinking and personal attributes to gain more from the information given. Students may begin by learning about the different areas that are influenced by professionals in this field, as well as the different career opportunities. The relationship between biology and medical science may be discussed briefly in this course, as well as the different ways that Biomedical Science has made a difference in the healthcare industry.
- Biochemistry: Biochemistry is a branch of science that blends ideas from both chemistry and biology. In order for students to truly understand the human body and its functions, they must take into consideration the chemical components of the human body and how they change under certain circumstances. Some specific topics that may be discussed throughout this course include metabolism and a look into the role and influence of the mitochondrion. Students can gain better insight into the body’s functions by learning more about Biochemistry from a biomedical standpoint. Some independent study may be required throughout this course.
- Pathophysiology: This course can provide widespread attention to the diseases that plague the human race and the methods available for treatment and prevention. Students that enroll in this course may be accompanied by students from different disciplines, since pathophysiology is a part of many different branches of medical science. Instructors of this course can help students gain more knowledge by allowing for independent projects and assignments throughout the duration of the course. Beginning at the smallest level, instructors of this course seek to teach students about immunity and methods for increasing it. Further into the curriculum, students may learn how different diseases are affected and prevented through the immune systems, as well as reasons for prevention failure in some instances.
- Epidemiology: Epidemiology is an important course for students that are interested in Biomedical Science. This course can help students learn how to identify, organize, and research different diseases from a proactive standpoint. Students may learn to identify prevalence of different diseases within society, consider methods for reducing the prevalence, and present their findings to the proper health-related agencies. Consistent review of public health statistics may be included in this course.
- Hematology: Students that enroll in this course can learn more about the blood forming organs and their relevant functions. Some of the topics that students may see throughout this course may include malignant disorders of white blood cells, diagnosis of hematologic disorders and the human body and treatment methods, and the overall function of the human circulatory system in relation to these disorders. This course may also include concepts that are related to interpersonal transmission of these diseases and the efforts to prevent further transmission.
Due to the constantly evolving nature of patient care and the healthcare field in general, biomedical science is a dynamic profession with ample career opportunities in management, education, research, and specialized laboratory settings.
As the foundation for a career in healthcare, biomedical science majors find themselves employed in a wide array of healthcare-related roles, including veterinary sciences, health and safety administration, forensic and university lab research, and product and pharmaceutical development.
Moreover, some individuals with biomedical science and biomedical engineering degrees choose to leave a life less ordinary and use their training to work for governments and private organizations on healthcare projects around the world.
Although most biomedical science majors choose to pursue graduate degrees at the Mayo Clinic, Yale, and other prestigious medical education facilities, some choose to immediately enter the workforce in the marketing, science writing, and pharmaceutical sales fields as well. In truth, the versatile major provides a solid foundation for a number of professional degrees, such as:
- Veterinary medicine
- Chiropractic medicine
- Physician assistant
- Occupational therapy
- Nurse practitioner
- Osteopathic medicine
In addition to these popular professional degrees, many biomedical scientists pursue the following graduate studies:
- Biomedical engineering
- Forensic science
- Public health
- Genetic counseling
- Healthcare administration
From molecular genetics and environmental science to nutritional research and pharmacology, there are multiple career opportunities for those with biomedical science degrees. Regardless of one’s interests and career goals, a bachelors or masters degree in biomedical sciences can open up a wealth of opportunity.