Best Biomedical Science Degree Programs of 2022
Learn more about the top Biomedical Science programs, what to expect, job prospects, and how to choose the program that’s right for you.
Learn more about the top Biomedical Science programs, what to expect, job prospects, and how to choose the program that’s right for you.
Biomedical science is the study of the structure and function of the human body. Biomedical science degrees can prepare students for a variety of careers in the medical field, including doctor, nurse, and medical researcher.
Biomedical science degrees offer a broad overview of the human body, covering topics such as anatomy, physiology, and pharmacology. Students in biomedical science degree programs learn about the different systems of the human body, and how those systems work together. They also learn about the different diseases and disorders that can affect the human body, and the ways in which those diseases can be treated.
When it comes to choosing the right biomedical science bachelor’s degree program, there are many factors to consider. Cost, location, and time to degree are all important factors to keep in mind. Additionally, students should research the specializations offered at each program to find the best fit for their interests and career goals.
The cost of a biomedical science degree varies depending on the institution. When considering costs, students need to research tuition, fees, and associated expenses such as housing, commuting, and parking. Public schools offer a lower tuition rate for in-state residents. Location can also affect the ability to gain internship opportunities and network for jobs after graduation. Finally, the time to degree may make an expensive program less costly if students can transfer in college credits.
In addition to these factors, prospective biomedical science students also need to consider the specializations available at each program. Students interested in research, for example, may only wish to consider programs that offer a track in research. Students can also research the graduation requirements to learn how many general science classes they must take versus the specialized courses in their track.
The best programs for Biomedical Science ranking is based on key statistics and student reviews using data from the U.S. Department of Education. Some of the metrics influencing how the rankings are determined include graduation rate, average salary for graduates, accreditation, retention rate, and cost.
The biomedical sciences (BMS) major at Grand Valley State University is designed to help students gain a comprehensive understanding of the life sciences with a focus on the human body. The major provides a strong foundation in the sciences that prepares students for careers in science and medicine, and for entry into masters and Ph.D. programs.
Students in the BMS major will study a variety of topics, including chemistry, physics, microbiology, nutrition, immunology, anatomy, physiology, pharmacology, and neuroscience. The major also provides opportunities for students to gain real-world laboratory experience through research projects.
The Bachelor of Science in Biomedical Science from Nazareth College is an interdisciplinary life sciences degree with a focus on human health. The program is designed to prepare highly skilled and adept bachelor-level scientists for careers in healthcare, industry, government, and academia. The program offers four defined career tracks (Pre-medicine/Veterinary/Dental, Pre-Pharmacy, Pre-Physician Assistant and Science Business) as well as a “flexible” career track that allows students to tailor a course of study to their specific interests and career aspirations.
The Bachelor of Science in Biomedical Science from North Park University is a hands-on program that prepares students for careers in the medical field. The curriculum includes coursework in anatomy, cell biology, physiology, and other sciences, as well as hands-on laboratory experience. Students also have the opportunity to take elective courses in topics such as medical microbiology, immunology, and exercise physiology.
The Biomedical Sciences program at Marquette University is designed to prepare students for careers in medicine, dentistry, and other health professions. The curriculum provides students with a solid foundation in the anatomical sciences, biochemistry, and physiology, with courses taught from a clinical, human perspective. In addition to the core coursework, students can choose from a wide range of electives to tailor the degree to their interests and career goals. The flexibility of the program allows students to pursue areas of interest such as neuroscience, head and neck anatomy, public health, genetics, microbiology, pharmacology, and research.
The Bachelor of Science in Biomedical Sciences at University at Buffalo enables students to take a variety of courses from different departments within the Jacobs School of Medicine and Biomedical Sciences. The core courses for this major prepare students for professional programs such as medicine, dentistry, optometry, and veterinary medicine. The program also provides students with the opportunity to participate in experiential learning opportunities such as research, internships, and service projects.
The biomedical sciences bachelor’s degree program at Buena Vista University is focused on the health sciences as a whole but leaves ample room for development of outside interests. The program includes coursework in a variety of health sciences disciplines, as well as opportunities for hands-on learning in cutting-edge labs and research facilities. The program also offers an internship program that gives students the opportunity to gain real-world experience in a variety of healthcare settings.
The Bachelor of Science in Biomedical Sciences from Auburn University is a 120-hour program that prepares students for careers in the biomedical sciences. The curriculum includes coursework in chemistry, biology, physics, math, and psychology, as well as electives in the humanities and social sciences. Students also have the opportunity to participate in undergraduate research. The program culminates with a capstone course in which students apply their knowledge to a real-world problem.
The Bachelor of Science in Biomedical Science from SUNY College at Plattsburgh is a great choice for students interested in a career in healthcare. The program provides a strong foundation in biology, including the core sciences required for entrance to medical school. The program offers a wide variety of healthcare-related courses, allowing students to specialize in their area of interest. The pre-health tracks offer students the choice of 10 different health fields to specialize in, with dedicated pre-health advisement to help them make the strongest applications to medical school.
The Rochester Institute of Technology’s Bachelor of Science in Biomedical Science degree prepares students for advanced study in various areas of health care or research. The diverse curriculum includes a broad array of elective courses and offers students career-relevant experiential learning opportunities where they can apply the knowledge they gain in the classroom to real-world experiences. Comprehensive academic and faculty advising is complemented by a pre-medical/pre-health professions advising system that provides guidance to students in their selection of course work and in completing the requirements necessary for admission to advanced degree programs.
The University of West Florida’s Bachelor of Science in Biomedical Science degree provides students with the fundamental biology concepts involved in the biomedical sciences, including genetics, microbiology, cell biology, human anatomy, immunology, and biochemistry. Students also have the opportunity to get involved with student organizations focusing on pre-health professional professions, which provide opportunities for health-related community service, support networking opportunities, and sponsor talks by recruiters from professional schools.
Students in a biomedical science program can expect to take classes covering a wide range of topics related to the human body. These may include classes on anatomy, physiology, microbiology, immunology, pharmacology, and biochemistry. In addition, students will likely take classes on medical ethics and the history of medicine.
Most programs also require students to complete an internship or other type of hands-on experience. This can give students the opportunity to apply what they have learned in the classroom to a real-world setting.
Biomedical science programs typically lead to a bachelor of science (BS) degree. However, some schools offer a bachelor of arts (BA) in biomedical science. The difference between these two degrees is typically the number of science and math courses required. BS programs usually require more credits in these areas, while BA programs may require more liberal arts courses.
Prospective students should make sure they have strong math and science skills before enrolling in a biomedical science program. They should also be prepared to do a lot of reading and writing, as most courses will require extensive research papers.
Biomedical science degree programs typically offer a combination of coursework in the sciences, mathematics and engineering. The specific classes offered will depend on the school, but many programs include the following courses.
This course covers the study of the chemistry of living systems with an emphasis on the structure and function of biomolecules. Topics include water and solution chemistry, acid-base and redox reactions, protein structure and function, nucleic acids, carbohydrates, lipids, and enzymes. Laboratory work emphasizes the use of biochemical techniques to purify, characterize, and study the properties of biomolecules. Upon completion, students should be able to apply the principles of chemistry to the study of biological systems and use biochemical techniques to purify, characterize, and study biomolecules.
This course covers the structure and function of genes at the molecular level. Topics include the chemical composition of DNA and RNA, gene replication, transcription, translation, and genetic regulation. Emphasis is placed on the role of genes in health and disease, and on the ethical, legal, and social implications of molecular biology. Upon completion, students should be able to explain the structure and function of DNA and RNA, describe the process of gene replication, transcription, and translation, and apply molecular biology techniques to the study of genes and gene function.
This course covers the study of genes and their function in living organisms. Topics include the structure and function of DNA, RNA, and proteins; Mendelian genetics; molecular genetics; chromosome structure and function; DNA replication, transcription, and translation; gene regulation; and genetic engineering. Upon completion, students should be able to apply the principles of Mendelian genetics to monohybrid and dihybrid crosses, understand the role of DNA and RNA in protein synthesis, and explain how genes are regulated.
This course is a study of the structure of the human body with an emphasis on the integumentary, skeletal, muscular, nervous, and endocrine systems. Three-dimensional models, X-rays, and dissected specimens are used to study the form and function of the human body. Upon completion, students should be able to demonstrate an understanding of the structure and function of the human body systems and how they work together to maintain homeostasis.
This course covers the study of the immune system, including the cells, proteins, and organs that work together to protect the body from infection and disease. Topics include the structure and function of the immune system, the mechanisms of immunity, the cells and molecules involved in immunity, the types of immunity, and the diseases caused by immune system dysfunction. Upon completion, students should be able to explain the structure and function of the immune system, describe the mechanisms of immunity, identify the cells and molecules involved in immunity, and explain the types of immunity and the diseases caused by immune system dysfunction.
Graduates of biomedical science programs work in a variety of fields and industries, including healthcare, research, and education. They may also work in fields such as biotechnology, pharmaceuticals, and medical devices.
Biomedical engineers work at the intersection of engineering and medicine, using their skills in engineering to solve problems in biology and medicine. They might design artificial organs, develop new medical imaging devices, create software to help doctors and patients, or develop biomaterials to replace or support damaged tissue. Biomedical engineers often work in teams with doctors, biologists, and other engineers to create new medical technologies.
Biochemists conduct research to better understand the chemical and physical processes that occur in living organisms. This research can have a wide range of applications, from developing new pharmaceuticals to improving crops. Biochemists typically have a bachelor’s degree in biochemistry, chemistry, or a related field, and many have a graduate degree. They work in laboratories and use a variety of scientific equipment and instruments to conduct their research.
Pharmacologists study the effects of drugs on living organisms. They conduct research to develop new medications and to test the safety and efficacy of existing ones. Pharmacologists also work to understand how drugs work in the body and what side effects they may cause. In addition to working in laboratories, pharmacologists may also work in clinical settings, where they may administer drugs to patients and monitor their effects.
Biomedical scientists conduct research to develop new ways to treat or prevent disease. They use their knowledge of biology and chemistry to develop new drugs or therapies, study the effects of environmental factors on human health, or develop new diagnostic tests. Biomedical scientists typically specialize in a particular area, such as immunology, pharmacology, or toxicology.
Medical laboratory technicians work in healthcare settings—hospitals, clinics, and doctor’s offices—to support the work of medical laboratory scientists. They collect and process samples, prepare reagents, perform routine tests, and report results. The job requires a high degree of accuracy and attention to detail, as well as the ability to follow complex instructions and procedures.
Sylvia Fry is a Research Technician at Boston Children’s Hospital. She has a bachelor’s degree in biomedical science from the University of Massachusetts. Sylvia has over 3 years of experience in research and development.
ClimbtheLadder: How did you make the most of your Biomedical Science degree program so that it prepared you for post-graduation jobs?
Sylvia Fry: I made the most of my Biomedical Science degree program by taking advantage of the research opportunities that were available to me. I was able to work in a research lab starting my sophomore year, and I continued to work in research labs throughout my time in college. This gave me the opportunity to gain experience in the field and to learn new techniques. I also took advantage of the opportunity to present my research at national conferences. This gave me the chance to network with other scientists and to learn about different areas of research.
ClimbtheLadder: What type of person is successful and thrives in a Biomedical Science career?
Sylvia Fry: I would say that a person who is successful in a biomedical science career is someone who is passionate about the work that they do. They are also someone who is constantly learning and keeping up to date with the latest advancements in the field. Additionally, they are able to work well both independently and as part of a team.
ClimbtheLadder: Was there anything about your Biomedical Science program that you didn’t expect or anticipate?
Sylvia Fry: I expected my Biomedical Science program to be very challenging, and it was. I was also surprised by how much I enjoyed the program. I loved learning about the human body and how it works. I also enjoyed the lab work and the research projects.