Bachelor of Science in Biomedical Engineering

Last updated

A Bachelor of Science in Biomedical Engineering is a kind of bachelor's degree typically conferred after a four-year undergraduate course of study in biomedical engineering (BME). The degree itself is largely equivalent to a Bachelor of Science and many institutions conferring degrees in the fields of biomedical engineering and bioengineering do not append the field to the degree itself. Courses of study in BME are also extremely diverse as the field itself is relatively new and developing. In general, an undergraduate course of study in BME is likened to a cross between engineering and biological science with varying degrees of proportionality between the two.

Contents

Professional status

Engineers typically require a type of professional certification, such as satisfying certain education requirements and passing an examination to become a professional engineer. These certifications are usually nationally regulated and registered, but there are also cases where a self-governing body, such as the Canadian Association of Professional Engineers. In many cases, carrying the title of "Professional Engineer" is legally protected.

As BME is an emerging field, professional certifications are not as standard and uniform as they are for other engineering fields. For example, the Fundamentals of Engineering exam in the U.S. does not include a biomedical engineering section, though it does cover biology. Biomedical engineers often simply possess a university degree as their qualification. However, some countries do regulate biomedical engineers, such as Australia, however registration is typically recommended, but not always a requirement. [1]

As with many engineering fields, a bachelor's degree is usually the minimum and often most common degree for a profession in BME, though it is not uncommon for the bachelor's degree to serve as a launching pad into graduate studies. ABET does accredit undergraduate programs in the field. [2] However, even this is not a strict requirement since it is an emerging field and due to the young age of many programs.

Curriculum

The curriculum for BME programs varies significantly from institution to institution and often within a single program. In general, a basic engineering curriculum, including mathematics through differential equations, statistics, and a basic understanding of biology and other basic sciences are hallmarks of a BME program.

Many BME programs have a series of tracks that focus on a particular area of study within BME. Often, the tracks also coincide with a particular engineering or science field. Examples of tracks include:

Many other tracks may exist within specific programs as well as combinations of multiple tracks.

Another common feature of many BME programs is a capstone design project where students become involved in researching and developing technology in the field. At some schools, this culminates in the creation of medical devices and prototypes. Capstone design projects also often include exposure to issues like funding, regulatory issues and other topics that are related to careers in the field.

Research and Industry Experience

An important feature of many programs is the inclusion of research and/or industry experience into either the curricular or extracurricular work done by students. Since BME careers often focuses on research or industrial applications of the field, many programs have seen fit to either encourage or sometimes require experience outside of the standard curricular requirements. Many research universities offer chances for students to participate in faculty research at the undergraduate level. Other schools have an industry practicum or co-ops to give students relevant work experience before graduation.

Students that participate in either research or industry during the course of study often see advantages when they enter the job market, as many employers prefer experienced candidates or offer higher pay to those with prior experience. Also, research or industry experience is often a factor in graduate school admission.

Value of the degree

Recently, many universities, such as Case Western Reserve University have been implementing new initiatives to either create or expand upon undergraduate programs in BME. This is in part due to rising demand in the biotechnology sector and the increasing interest in biological research. A degree in BME instantly identifies a candidate as having training in both traditional engineering as well as biological science, which has become an increasingly desirable qualification as aspects of biology are permeating into other industries.

Since BME is a diverse field, many programs have a broad curriculum with students usually choosing to specialize in a particular aspect of BME. However, due to the diversity, some degree holders may find their education lacking in deep emphasis, which may prompt continuing studies in graduate school or by learning through experience.

Numerous rankings of undergraduate BME programs exist with highly varying basis for each ranking. As with many degrees, the reputation of a program may factor into the desirability of a degree holder for either employment or graduate admission. [3] The reputation of many undergraduate degrees are also linked to the institution's graduate or research programs, which have more tangible factors for rating, such as research funding and volume, publications and citations.

Related Research Articles

Biomedical engineering Application of engineering principles and design concepts to medicine and biology.

Biomedical engineering (BME) or medical engineering is the application of engineering principles and design concepts to medicine and biology for healthcare purposes. BME is also traditionally known as "bioengineering", but this term has come to also refer to biological engineering. This field seeks to close the gap between engineering and medicine, combining the design and problem-solving skills of engineering with medical biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy. Also included under the scope of a biomedical engineer is the management of current medical equipment in hospitals while adhering to relevant industry standards. This involves making equipment recommendations, procurement, routine testing, and preventive maintenance, a role also known as a Biomedical Equipment Technician (BMET) or as clinical engineering.

A bachelor's degree or baccalaureate is an undergraduate academic degree awarded by colleges and universities upon completion of a course of study lasting three to six years. The two most common bachelor's degrees are the Bachelor of Arts (BA) and the Bachelor of Science. In some institutions and educational systems, certain bachelor's degrees can only be taken as graduate or postgraduate educations after a first degree has been completed, although more commonly the successful completion of a bachelor's degree is a prerequisite for further courses such as a master's or a doctorate.

A Bachelor of Engineering or a Bachelor of Science in Engineering (BSE) is an academic undergraduate degree awarded to a student after three to five years of studying engineering at an accredited college or university.

A Master of Engineering is either an academic or professional master's degree in the field of engineering.

Business education is a branch of education that involves teaching the skills and operations of the business industry. This field of education occurs at multiple levels, including secondary and higher education institutes. Education in business has many forms, mainly occurring within a classroom of a school. Internships are also another way to receive this type of education. A business education has many components, as there are many different areas of the business industry as a whole. An education in business varies greatly in its curriculum and popularity around the world. Career development is often an integral part of an education in business.

Pre-medical is an educational track that undergraduate students in the United States pursue prior to becoming medical students. It involves activities that prepare a student for medical school, such as pre-med coursework, volunteer activities, clinical experience, research, and the application process. Some pre-med programs providing broad preparation are referred to as “pre-professional” and may simultaneously prepare students for entry into a variety of first professional degree or graduate school programs that require similar prerequisites.

A double degree program, sometimes called a dual degree, combined degree, conjoint degree, joint degree or double graduation program, involves a student's working for two university degrees in parallel—either at the same institution or at different institutions —and completing them in less time than it would have taken to earn them separately. The two degrees might be in the same subject area, or in two different subjects.

A biomedical scientist is a scientist trained in biology, particularly in the context of medical laboratory sciences or laboratory medicine. These scientists work to gain knowledge on the main principles of how the human body works and to find new ways to cure or treat disease by developing advanced diagnostic tools or new therapeutic strategies. The research of biomedical scientists is referred to as biomedical research.

Clinical engineering Modern medical technologies

Clinical engineering is a specialty within biomedical engineering responsible for using medical technology to optimize healthcare delivery.

The School of Engineering and Applied Science (SEAS) at the George Washington University in Washington, D.C. is a technical school which specializes in engineering, technology, communications, and transportation. The school is located on the main campus of the George Washington University and offers both undergraduate and graduate programs.

Favaloro University

The Favaloro University is a private university in the city of Buenos Aires in Argentina. It was founded by surgeon René Favaloro in 1992; it obtained its definitive authorization on October 23, 2003 by decree 963/03 of president Néstor Kirchner. Favaloro did not see his project completely realised, for he committed suicide a few years before completion.

Biological engineering Application of biology and engineering to create useful products

Biological engineering or bioengineering is the application of principles of biology and the tools of engineering to create usable, tangible, economically-viable products. Biological engineering employs knowledge and expertise from a number of pure and applied sciences, such as mass and heat transfer, kinetics, biocatalysts, biomechanics, bioinformatics, separation and purification processes, bioreactor design, surface science, fluid mechanics, thermodynamics, and polymer science. It is used in the design of medical devices, diagnostic equipment, biocompatible materials, renewable energy, ecological engineering, agricultural engineering, process engineering and catalysis, and other areas that improve the living standards of societies.

Electrical engineering technology

Electrical/Electronics engineering technology (EET) is an engineering technology field that implements and applies the principles of electrical engineering. Like electrical engineering, EET deals with the "design, application, installation, manufacturing, operation or maintenance of electrical/electronic(s) systems." However, EET is a specialized discipline that has more focus on application, theory, and applied design, and implementation, while electrical engineering may focus more of a generalized emphasis on theory and conceptual design. Electrical/Electronic engineering technology is the largest branch of engineering technology and includes a diverse range of sub-disciplines, such as applied design, electronics, embedded systems, control systems, instrumentation, telecommunications, and power systems.

Engineering education is the activity of teaching knowledge and principles to the professional practice of engineering. It includes an initial education, and any advanced education and specializations that follow. Engineering education is typically accompanied by additional postgraduate examinations and supervised training as the requirements for a professional engineering license. The length of education, and training to qualify as a basic professional engineer, is typically 5 years, with 15–20 years for an engineer who takes responsibility for major projects.

Biological systems engineering

Biological systems engineering or biosystems engineering is a broad-based engineering discipline with particular emphasis on biology and chemistry. It can be thought of as a subset of the broader notion of biological engineering or bio-technology though not in the respects that pertain to biomedical engineering as biosystems engineering tends to focus less on medical applications than on agriculture, ecosystems, and food science. It involves aspects of genetic engineering, particularly regarding the agricultural applications. The discipline focuses broadly on environmentally sound and sustainable engineering solutions to meet societies' ecologically-related needs. Biosystems engineering integrates the expertise of fundamental engineering fields with expertise from non-engineering disciplines.

The College of Engineering at Michigan State University (MSU) is made up of 9 departments with 168 faculty members, over 6,000 undergraduate students, 10 undergraduate B.S. degree programs and a wide spectrum of graduate programs in both M.S. and Ph.D. levels. Each department offers at least one degree program, however many include more than one degree, multi-disciplinary programs, certifications and specialties as well as other degree programs affiliated with other colleges at Michigan State University.

Linda Griffith American biological engineer

Linda Gay Griffith is an American biological engineer, and Professor of Biological Engineering and Mechanical Engineering at Massachusetts Institute of Technology, where she also directs the Center for Gynepathology Research.

Ravi V. Bellamkonda is an Indian-American biomedical engineer and provost of Emory University.

The Johns Hopkins University Department of Biomedical Engineering has both undergraduate and graduate biomedical engineering programs located at the Johns Hopkins University in Baltimore, Maryland,

Akhilesh K. Gaharwar American biomedical engineering researcher (born 1982)

Akhilesh K. Gaharwar is an Indian academic and an associate professor in the Department of Biomedical Engineering at Texas A&M University. The goal of his lab is to understand the cell-nanomaterials interactions and to develop nanoengineered strategies for modulating stem cell behavior for repair and regeneration of damaged tissue.

References

  1. National Engineering Registration Board – Areas Of Practice – NPER Areas
  2. ABET Accredited Bioengineering/Biomedical Engineering Programs Archived 2011-09-28 at the Wayback Machine
  3. U.S. News and World Report Rankings for Biomedical/Biomedical Engineering Undergraduate Programs
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.