Bachelor in Biomedical Engineering

Top 24 Bachelor Degrees in Biomedical Engineering 2017

Biomedical Engineering

By enrolling in a bachelor’s degree program, students put down roots that act as an anchor and foundation to the future of their careers and educations. Undergraduate instructors and courses provide an introduction to a specific industry or specialty area. After completing a degree program, graduates may decide to start their careers or continue their studies in a graduate degree program. 

What is a Bachelor in Biomedical Engineering? Such a degree program is structured to teach students about the intersection of science and technology and how they both relate to biotechnology, biology and medicine. Courses often touch on subjects such as mathematics, engineering and fundamental science. Professors and instructors usually provide students with guidance on ways to enhance human health, society and health care through biomedical engineering.

Benefits of taking courses in a biomedical engineering degree program include becoming an asset to professional groups and communities. Graduates might also be interested in using their education in other related professions, such as law, management or medicine. A bachelor’s degree is often necessary for qualifying for certain job positions and securing a higher salary.

Those interested in knowing how much it costs to complete a degree program in biomedical engineering would be better off getting in direct contact with the schools in which they are interested in attending. Costs vary according to program length, books required for classes, geographic region and whether a student learns on-campus or online.

After successfully completing a Bachelor in Biomedical Engineering program, an individual might be intrigued at the idea of using his or her education to create devices, software and instruments to solve clinical issues or create new clinical procedures. Industries in which engineers are commonly employed include medical supplies and equipment manufacturing, surgical hospitals, medicine manufacturing, and scientific development services.

Start engineering your future career today. Biomedical engineering programs are offered in various countries around the world, and many of them feature online programs. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form. 

Read More

Bachelor in Medical Technology

University of Central Missouri
Campus Full time September 2017 USA Warrensburg

Medical Technology offers you exciting educational and career opportunities. As vital members of the health care team, medical technologists perform laboratory tests used to prevent, diagnose and treat disease. [+]

Bachelors in Biomedical Engineering. Medical Technology offers you exciting educational and career opportunities. As vital members of the health care team, medical technologists perform laboratory tests used to prevent, diagnose and treat disease. Why Choose Medical Technology at UCM? Technologist have diverse career opportunities in hospital, university, government and industrial laboratories. This program gives you access to the Molecular Science Research Lab and Animal Research Facility. Medical technology is an excellent foundation in diagnostic medicine for those interested in professional school. What will I study? As a student in the Medical Technology program, you will learn how to collect, analyze and apply information to solve problems and to use various laboratory techniques and instruments with understanding, accuracy, precision and safety. Courses include: Biological Perspectives Clinical Biochemistry Clinical Hematology Clinical Immunology What can I do with a degree in Medical Technology? Blood Analyzer Clinical Laboratory Technician Cytotechnician Molecular Scientist Phlebotomist How can I get involved outside the classroom? At UCM, we value engaging learning experiences that include student involvement and service-learning projects. In Medical Technology, there are several involvement opportunities: Para Medico Pre-Vet The Wildlife Society Tri-Beta [-]

Bachelor in Biomedical Engineering

Oral Roberts University
Campus Full time 4 years September 2017 USA Tulsa

The biomedical engineering major is designed to provide an engineering background for students planning to pursue advanced studies in biomedical engineering, medicine or other health professions The biomedical engineering major places emphasis on the theory and principles of biosystems and biomedical instrumentation. [+]

Program Overview The biomedical engineering major is designed to provide an engineering background for students planning to pursue advanced studies in biomedical engineering, medicine or other health professions The biomedical engineering major places emphasis on the theory and principles of biosystems and biomedical instrumentation. ORU Distinguishing Features A distinguishing feature of the engineering program at ORU is its broad liberal arts base. This foundation equips students in the application of science and technology for the improvement of the world and enables graduates to enter the engineering and scientific communities and contribute to the healing of the human condition. At ORU you have the opportunity to apply what you learn and test the theories in the real world. Students at all levels are involved with creative cutting-edge projects such as creating a full-sized composite aircraft, a remote-controlled mine-sweeping robot or a shark-bite meter. Outcomes Engineering graduates are in high demand and typically receive high starting salaries. Some ORU graduates choose to use their education in the mission field or to pursue graduate studies at major universities. Many also work for a wide range of industries including Baker Hughes, Danaher, Boeing, G.E., Cessna and Toyota. [-]

Biomedical Engineering Major

Western New England University
Campus Full time September 2017 USA Springfield

Biomedical engineering (BME) is a revolutionary and rewarding field: Biomedical engineers are on the forefront of medical breakthroughs that improve the quality of life for millions of people worldwide. Some of the innovations they've created include artificial organs, medical imaging systems, laser surgery, blood analyzers, automatic patient monitoring, and rehabilitation devices and procedures... [+]

Bachelors in Biomedical Engineering. Biomedical engineering (BME) is a revolutionary and rewarding field: Biomedical engineers are on the forefront of medical breakthroughs that improve the quality of life for millions of people worldwide. Some of the innovations they've created include artificial organs, medical imaging systems, laser surgery, blood analyzers, automatic patient monitoring, and rehabilitation devices and procedures. Specialty areas include cell and tissue engineering, biomechanics, bioinstrumentation, orthopedic engineering, clinical engineering, biomaterials, rehabilitation engineering, medical imaging, and systems physiology. The program is centered on student success and our educational objectives describe what graduates of the major do after graduation. Biomedical Engineering Quick Facts Western New England University students produce award-winning research and design projects. All of our Senior Design Projects over the past nine years have been published and presented at regional or national technical conferences. Nationally, 20 percent of biomedical engineering graduates go to medical school. At Western New England University, required pre-med courses fit directly into the BME curriculum. Thirty-eight percent of students studying biomedical engineering at Western New England University are women. Many of our students compete for and are awarded prestigious summer internships across the country. ABET Accreditation: A Benchmark of Quality The Biomedical Engineering undergraduate program is accredited by the EAC Commission of ABET, www.abet.org. Flexibility Within the Curriculum Biomedical Engineering offers a broad range of areas of specialization, including tracks in medicine and manufacturing. Recognizing this, we offer flexibility in our curriculum that lets you choose electives that interest you most. An Ideal Pre-medical Degree If your career plans include medical school, Biomedical Engineering is the major for you. We offer excellent pre-medical advising and opportunities to gain clinical exposure at local hospitals. Premedical courses fit directly into the Biomedical Engineering curriculum. Senior Design Projects All students must complete a Senior Design Project in order to graduate. The range of topics is incredibly wide. Some projects are sponsored by industry and some are initiated by faculty members. Perhaps the best senior projects are those initiated by the students themselves! Aside from being excellent networking opportunities with future employers, the Senior Design Projects involve proposals, review, formal presentations, and ordering necessary parts (not to mention having to plan for contingencies if parts do not arrive). View some examples of the quality Senior Design Projects that our students take on. Six-year Engineering/Law program New and complex medical technologies are being invented all the time. There is an increasing demand for people educated in both engineering and law to handle intellectual property issues that surround these new inventions. At Western New England University, we give qualified students the opportunity to earn both a Bachelor of Science in Engineeringdegree and a Juris Doctorate in just six years, saving both time and money. [-]

Bachelor in Bio-medical Engineering

Michigan Technological University
Campus Full time September 2017 USA Houghton

You have an interest in medicine and a desire to impact lives and make a difference. Realize your goals with a biomedical engineering degree from Michigan Tech. You’ll work closely with [+]

You have an interest in medicine and a desire to impact lives and make a difference. Realize your goals with a biomedical engineering degree from Michigan Tech. You’ll work closely with faculty (our classes are kept small for a reason) and get involved early with hands-on research—studying the effect of materials on expression of vascular growth factors, the application of biomedical engineering in rural health care, or our ongoing study of bone metabolism and osteoporosis in black bears (which has received recognition by the national news media) — pretty crazy, right? Choose your Focus As a biomedical engineering major you can focus on technical areas such as: - Biomechanics - Biomaterials/tissue engineering - Cardiovascular engineering - Medical instrumentation - Medical imaging/optics - Pre-professional health What You Need to Know About This Program With an undergraduate degree in biomedical engineering, you’ll find work in a wide range of growing fields including the biomedical device industry, the emerging biotechnology industry, government/regulatory agencies, and hospitals/medical centers. You and Michigan Tech really can make the world better—one biomedical engineer at a time. [-]

Bachelor in Biomedical Science

SUNY Cortland
Campus Full time 4 years September 2017 USA Cortland

You’ll explore course work specific to the biomedical field, gain knowledge and experience through internships and have the cognitive course work to promote success on entrance examinations to graduate programs. [+]

Bachelors in Biomedical Engineering. Studying the Bachelor in Biomedical Science degree at SUNY Cortland, you will explore course work specific to the biomedical field, gain knowledge and experience through internships and have the cognitive course work to promote success on entrance examinations to graduate programs. With a degree in biomedical sciences, you’ll be able to successfully pursue a variety of careers. Why Study at SUNY Cortland? Career Potential Chiropractor Dentist Doctor of osteopathic medicine Medical imaging technician Optometrist Physician assistant Physical therapist Physician Veterinarian Internships and Research You’ll engage in internship and job shadowing experiences that contribute to credentials for medical program applications. Opportunities are available with: Chiropractors Hospitals Pathology laboratory Physicians Physical therapists Veterinarians Special Features Faculty dedicated to providing quality education and research opportunities include: Christa Chatfield, microbiology and biofilm development of Legionella Patricia Conklin, molecular genetic of vitamin C pathways in Arabidopsis Theresa Curtis, mammalian wound healing responses Louis Gatto, histology and pulmonary science Christian Nelson, cell biology and virology John Straneva, pathology and parasitology If you participate in a research project, you may find yourself presenting your scientific findings at local and regional professional meetings. Study and work in our state-of-the-art classroom and research facility. Get Involved College is more than a classroom. Enhance your experience with extracurricular opportunities. Student Clubs Biology Club Pre-Med Club Environmental Club - CSAVE Honor Societies Beta Beta Beta, National Biological Honor Society See the Student Center [-]

BEng Medical Engineering

Swansea University
Campus Full time 3 years August 2017 United Kingdom Swansea

Medical Engineering at Swansea University draws on the exciting medical research taking place within the College of Engineering and the College of Medicine. The research success in the two colleges led to the creation of the £22 million Centre for NanoHealth (CNH), a unique facility linking engineering and medicine. [+]

Medical Engineering at Swansea University draws on the exciting medical research taking place within the College of Engineering and the College of Medicine. The research success in the two colleges led to the creation of the £22 million Centre for NanoHealth (CNH), a unique facility linking engineering and medicine. Cutting-edge research informs our medical engineering courses Medical Engineering is the application of engineering principles to both the human body and to a broad range of instrumentation used in modern medicine. Why study Medical Engineering at Swansea University? As a student on the BEng Medical Engineering course, you will learn about the design of prosthetic devices, new biocompatible materials, and the behaviour of complex bio-molecules and fluids with the body. Our Medical Engineering degrees have three engineering themes: Biomechanics and materials: the development and analysis of materials in terms of strength and biocompatibility Instrumentation: advanced diagnostic and therapeutic techniques Bioprocesses: physical and chemical processes occurring in the human body Spend a semester in Texas! Entry Requirements The entry requirements for the BEng Medical Engineering degree are: BBB at A level (including Mathematics). Other recommended subjects include: Physics Further Mathematics Chemistry Design Technology IT/Computing Biology BBB is our standard offer for students who are studying 3 A levels, but we recognise the individual nature of each application and so the standard offer should be viewed only as a guide. In some circumstances we may make different offers or points offers where appropriate, e.g. ‘300 UCAS points including 100 in Mathematics’. Or 32 at IB (preferably including good HL marks in Mathematics). Students studying for BTEC qualifications require DDD - DDM plus B grade at A level Mathematics. Studying A level Mathematics alongside a BTEC qualification is our strongly recommended entry pathway for those studying BTEC qualifications. Students not studying A level Mathematics, alongside their BTEC qualification, require D*DD-DDD with D in ‘Mathematics for Technicians’ and D in ‘Further Mathematics for Technicians’, plus minimum GCSE grades of B in Mathematics and 2 x B grades in Science/Engineering/Manufacturing. [-]

Bachelor of Biomedical Science

La Trobe University
Campus Full time 3 years March 2017 Australia Melbourne

La Trobe's Bachelor of Biomedical Science explores human health and disease along with the underlying molecular basis of illnesses like Alzheimer's, malaria and cancer. [+]

Bachelors in Biomedical Engineering. La Trobe's Bachelor of Biomedical Science explores human health and disease along with the underlying molecular basis of illnesses like Alzheimer's, malaria and cancer. First year foundational science subjects focus on biology and chemistry. Second year subjects - biosciences, medical science, biochemistry, genetics, anatomy, physiology and microbiology - will lead you towards your third year specialisation and postgraduate studies. You'll learn about the human body in health and sickness, and gain knowledge of medical biochemistry, microbiology, pharmacology, cell and molecular biology, anatomy, physiology, infectious diseases and neuroscience. You'll discover the symptoms of disease, learn how to analyse scientific and medical data, and do practical lab work. Third year advanced biochemistry and medical sciences internships and lab courses give you more hands-on experience. We'll also show you how to read, research and interpret scientific publications and teach you to meaningfully convey scientific and biomedical science information in writing. Through this degree, you'll have access to the La Trobe Institute for Molecular Science - our $100 million teaching and research facility. With our industry cadetship program, you can also gain workplace experience, building on your skills and industry connections. First year students may be eligible for the Dean's Scholarship for Academic Excellence or other undergraduate scholarships. We also offer overseas study opportunities, including clinical placements and volunteering. You can apply to study this course through our Hallmark Scholars Program. See the listing for Hallmark Course Group C for more details. English Language Requirements IELTS (Academic) score of 6.0 with no individual band score less than 6.0; TOEFL Paper-based Test - a minimum overall score of 550 with a score of 5 or more in the Test of Written English; TOEFL Internet-based Test - a minimum overall score of 60 with a minimum for SLR 18; W 22; Satisfactory completion of the English for Further Studies Advanced Stage 5B (EFS5 UG minimum 60 per cent) which is available from La Trobe Melbourne; for more information please visit the La Trobe Melbourne website. La Trobe Melbourne Foundation Studies: 60 per cent final result in a course; English as the language of instruction in tertiary studies may be accepted. Please note: English as the language of instruction in previous study will not be accepted as a basis of admission (English) for courses where the approved test score requirement is above an IELTS 6.5 with no band score lower than 6.0. Pearson Test of English (Academic) (PTE): a minimum score of 57 with no communicative skill score less than 50. Cambridge Certificate of Advanced English (CAE): a grade of B or higher. Cambridge Certificate of Proficiency in English (CPE): a pass grade of C or higher; or approved international equivalent. Academic entry requirements LTM Foundation Studies - 80 Aust. Yr 12 (ATAR) 2015 (indicative only) - 80.05 International Baccalaureate - 26 GCE A Levels - 8 HKDSE - 2 x Level 5 Sri Lankan A Levels - BBC STPM - 8.67 Norway Upper Secondary Certificate - 4 Sweden Slutbetyg - G/VG All Indian Sen SC (Best 5 Subjects) - 75 Vietnam (Year 12) - 8 Indonesia (SMA) - 8 GAC Cert. IV - GPA 2.6 GAOKAO - see: the website. If you do not meet these entry requirements you might be interested in La Trobe's Foundation Studies and Diploma Programs, which provide an alternative pathway to La Trobe's undergraduate program. For more information please visit the La Trobe Melbourne website. Subject prerequisite Units 3 and 4: a study score of at least 30 in English (EAL) or 25 in English other than EAL; and a study score of at least 25 in Chemistry. Additional costs Depending on the subjects chosen, extra costs can include a laboratory coat - about A$30 - and a dissecting kit - about A$40. Students can buy these items from any supplier; they remain students' personal property. Career opportunities Graduates find work in medical research institutes or government and private sector laboratories in hospitals, universities and pharmaceutical companies. Other areas you could choose include careers in administration or education that require biomedical science knowledge. Alternatively, a biomedical science degree is a prerequisite for postgraduate medicine and dentistry, and can be your stepping-stone to these courses. [-]

BEng(Hons) Bioengineering

University of Kent, School of Engineering and Digital Arts
Campus Full time 3 years September 2017 United Kingdom Canterbury

This cross-disciplinary course is designed for students with a strong interest in engineering and bio-medicine. [+]

This cross-disciplinary course is designed for students with a strong interest in engineering and bio-medicine. Drawing from our established expertise in developing medical-electronic systems and from the research synergies with the School of Biosciences (e.g. Systems Biology), the course will form engineers with a solid knowledge in biology and medical science. Course variants: - Bioengineering, BEng - Bioengineering with a Year in Industry, BEng The School is an IET Academic Partner. Accreditation for this new programme will be applied for from the Engineering Council. This three-year, full-time BEng programme is offered jointly with the School of Biosciences. It draws on The School of Engineering and Digital Art’s established expertise in developing medical-electronic systems and its research synergies with the School of Biosciences. The course will produce engineers with a solid knowledge in biology and medical science, opening up career opportunities in the bioengineering industry and the NHS. [-]

Biomedical Engineering with Foundation - BEng (Hons) full-time

University of Bolton
Campus Full time 4 years August 2017 United Kingdom Bolton

The BEng (Hons) Biomedical Engineering programme at the University of Bolton will provide you with an advanced understanding of the key topics involved in meeting the engineering needs of the healthcare industry. Biomedical engineering is a rapidly growing field, applying the principles of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients... [+]

Bachelors in Biomedical Engineering. Biomedical Engineering with Foundation - BEng (Hons) full-time The BEng (Hons) Biomedical Engineering programme at the University of Bolton will provide you with an advanced understanding of the key topics involved in meeting the engineering needs of the healthcare industry. Biomedical engineering is a rapidly growing field, applying the principles of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients. The course offers you the opportunity to become one of the next generation of engineers needed to meet the demands of this highly technological industry. It will educate you in the design and development processes needed for new specialist medical healthcare processes, problems and technological advances involving materials, imaging, monitoring, simulation and microelectromechanical systems. Initially you will develop a fundamental understanding of the key principles of engineering, mathematics and human biology. You will then pursue a specialised biomedical engineering focused curriculum, studying topics such as biomechatronics, biomaterials, biomedical devices and systems biology. The course is run in collaboration with the University’s Sport department, who offer expert teaching in topics such as biomechanics and rehabilitation technology, as well as access to working with elite sportspeople. You will work with the latest technological developments related to engineering and material design solutions, and will have the opportunity to study across disciplines related to health, engineering and sports. About the course The Foundation Year is the first year of the course and offers a transitional period of study for those students who do not have the necessary qualifications for direct entry on to the main engineering degree courses. The foundation year is an integral part of many of our four-year engineering-based courses; it will provide you with an excellent grounding in the fundamentals of science and mathematics and prepare you for degree level study. During your foundation year you will study the key engineering subjects, including Foundation Mathematics, Foundation Mechanics, Electrical & Electronic Principles, Thermal & Environmental Studies, Engineering Principles and Engineering Systems & Investigations. International students will have the option to study the English language. In addition to learning about the theories and principles of engineering, you will have the opportunity to develop valuable practical and investigative experience in our specialist engineering laboratories. During your BEng (Hons) studies you will gain an advanced understanding of engineering design, sports rehabilitation and biological systems. The course will be delivered through a mixture of practical laboratories, computer simulation sessions, group activities and demonstrations supported by lectures. Assessment is a mixture of coursework, practical tests and examinations. The course is delivered via a cross-departmental partnership between the departments of engineering, materials, biology and sports. The University of Bolton has a strong pedigree in these areas, and the sports department has recently undertaken a significant expansion, culminating in the opening of the new £31m Bolton One building. The University has recently embarked on an ambitious enhancement agenda as a “Teaching Intensive and Research Informed” University. To this end, ten new lecturers, with expertise in a variety of engineering and scientific disciplines, have been recruited by the Engineering, Sports and Sciences academic group at the University. Many of these lecturers will play a significant role in delivering the Biomedical Engineering degree programme, complementing the significant expertise and experience of staff already in place at the University. Special features Opportunities to work with internationally recognised research teams (in areas such as materials and medical devices, as well as biological systems) at the University, through both group and individual projects Study real life applications of biomedical devices in a sports science and rehabilitation context, for both elite athletes and members of the public Access to new bespoke facilities such as a state-of-the-art 3D motion capture system (with ground reaction force platforms), isokinetic dynamometer and medical simulation patient The project is recognised and supported through grants by the Royal Academy of Engineering as following the Engineering Gateway programme endorsed by the Engineering Council Strongly employer informed, with a medical focus due to the industrial base in the UK North West region Use of a brand-new bespoke biomedical sensors laboratory Industrial links for students reinforced by industrial work placements What you will study In the first year of your BEng (Hons) studies you will be provided with a strong foundation in mathematics, engineering and biology. In the second and third years of your BEng (Hons) studies you will pursue a specialised biomedical engineering focused curriculum, including imaging, biomaterials, bionics, computational modelling, biomechatronics, signal processing, and systems biology. You can see a list of the modules you will study below. The University’s Sport department will also play an active role in the delivery of this course, offering teaching expertise in topics such as biomechanics and rehabilitation technology, as well as providing access to working with elite sportspeople. Level 0 (Foundation Year) Foundation Mathematics 1; Foundation Mechanics; Electrical and Electronic Principles; Thermal and Environmental Studies; Engineering Principles; Engineering Systems and Investigations; English Language (international students only). Level 1 Introduction to Biomedical Engineering; Molecular Principles of Biomedical Engineering; Introduction to Biomechanics; Medical Sensory Devices and Measurement; Clinical Anatomy and Physiology; Fundamentals of Systems and Synthetic Biology. Level 2 Biomedical Engineering Modelling & Analysis; Biomechatronics; Intermediate Biomechanics; Technology in Advanced Musculoskeletal Diagnosis and Treatment; Group Project and Investigation; Biomedical Devices Design & Product Development. Level 3 Simulation of Medical Engineering Systems; Advanced Biomechatronic Systems; Genomics, Environment and Athletic Performance; Biosignal Processing; Advanced Biomechanics; BEng Individual Project; Tissue Engineering and Regenerative Medicine. Careers & professional development A degree in Biomedical Engineering is highly valued in both the UK and worldwide job markets. You will gain the analytical, technical and professional skills required to begin a career in biomedical engineering. The ageing population is increasing demand for more advanced and effective medical devices and therapeutic strategies. As a result, the need for professional biomedical engineers with the appropriate skills, knowledge and experience has never been greater. Entry requirements 120 UCAS points from least one A2-level (or equivalent) in any subjects. You should also have five GCSEs at grade C or above (or equivalent) including mathematics and science. Applications from students with alternative Level 3 qualifications (e.g. City & Guilds) are welcomed. An interview may be used to assess your suitability or entry point onto the programme. If English is not your first language you will also normally need IELTS 5.5 (or equivalent). If you do not have the required English level, you can study English with us from IELTS 4.0 (or equivalent). [-]

Biomedicine

UNESC
Campus Part time 4 years March 2017 Brazil Criciúma

The Biomedicine course is in line with the ideals of teaching excellence of UNESC. All teachers are highly qualified (doctors, teachers or specialists), both in the course of basic training and in vocational. The excellent physical structure and fully equipped laboratories enable communication between theoretical and practical from the earliest stages. [+]

Differentials The Biomedicine course is in line with the ideals of teaching excellence of UNESC. All teachers are highly qualified (doctors, teachers or specialists), both in the course of basic training and in vocational. The excellent physical structure and fully equipped laboratories enable communication between theoretical and practical from the earliest stages. The teaching laboratories include anatomy, chemistry, food science, physiology, microscopy, microbiology, parasitology, among others. Academics are encouraged from the beginning of the course, the scientific production and participation in national and international events. Facilities for completion of the course The student integrates the course activities can participate in research and extension programs, according to the esditais Research and Extension of UNESC. Additionally, you may rely on grants and research funding programs. What you will learn Throughout the course, academic Biomedicine will develop skills and competencies in the exercise of activities relating to cytology analysis, haematological, molecular analysis, production and analysis of bio-based, chemical analysis, environmental analysis, bioengineering and image analysis. The Biomedical egress of UNESC will generalist, humanist, critical and reflective, to work in all health care levels, based on scientific and intellectual rigor and guided by ethical principles and understanding of the social, cultural and economic their means directing its activities to the transformation of reality for the benefit of society. thematic Professional biomedical studies capable of assisting techniques in the diagnosis and prophylaxis of the ills that affect the human being. Professional operates in several complementary activities of diagnostics, including molecular, environmental analysis, food, and other images. Job market The biomedical labor market has been growing and attracting young people to the profession, both in the area of ​​services as in the technological area, the importance that the profession has gained in recent years. The Biomedical labor market includes: Acupuncture, Environmental Analysis, Bromatological Analysis, Audit, Blood Bank, Biophysics, Molecular Biology, Biomedicine Aesthetics, Biochemistry, Cytology, Embryology, Pharmacology, Physiology, General Physiology, Human Physiology, Genetics, Haematology , Human Histology, Imaging (excluding interpretation), Immunology, Health Informatics, Microbiology, Food Microbiology, Parasitology, Pathology, Extracorporeal Perfusion, Psychobiology, Radiology, Human Reproduction, Toxicology and Virology. For all of them, the Biomedical may act in public and private institutions and companies may be the responsible technician, engineer or performer respecting the specific legislation for each Qualification. Professional Profile Biomedical, a generalist, humanist, critical and reflexive training to act in all health care levels, based on scientific and intellectual rigor. Able to exercise activities related to cytology, haematological, molecular analysis, production and analysis of bio-based, chemical analysis, environmental analysis, bioengineering and image analysis, based on ethical principles and understanding of social, cultural and economic reality of their means directing its activities to the transformation of reality for the benefit of society. Subjects 1st Phase Human anatomy Bioethics and Biomedical Law Cytology Community interaction Aplicated math Scientific Methodology and Research I General and Inorganic Chemistry 2nd Phase Biostatistics Biophysics Tissue Biology Epidemiology Scientific Methodology and Research II Organic chemistry Sociology Stage 3 Molecular biology Biochemistry I biosecurity Human physiology Imaging and Radiation elective I Health Surveillance and Public Health Phase 4 Biochemistry II bromatologia Communication and Cell Signaling Pharmacology pathophysiology genetics Management and Quality Control Toxicology Stage 5 Environmental analysis I bacteriology Biochemistry III hematology I immunology I Body fluids Mycology and Virology elective II I parasitology Health Research Stage 6 Bacteriology II cytopathology Embryology and assisted reproduction hematology II hemotherapy immunology II elective III parasitology II Work Completion of course I Stage 7 Forensic science Supervised Internship I Environmental Microbiology elective IV Work Completion Course II 8th Stage Supervised Internship II Optional subjects Acupuncture Oxidative Stress in Biological System Introduction Biomedicine Aesthetics Introduction to Study Pounds Laboratory Animal Management and Cell Cultivation Microbiology and Food Toxicology Neurosciences Production and Reading Comprehension Basic suport of life Advanced Topics in Biomedicine I Advanced Topics in Biomedicine II Biomedicine and Environment Afro-Brazilian culture and Indigenous Appetizer Entry in summer and winter vestibular. Selective process It is accomplished through buccal and when the availability of jobs also via UNESC SIM program - Join Merit System in the institution. They are offered 50 vacancies every six months. [-]

Bachelor in Biomedical Science

Brawijaya University
Campus Full time July 2017 Indonesia Malang

University of Brawijaya (UB) is located in the city of Malang, East Java province, Indonesia. UB was officially declared by the President of the Republic of Indonesia January 5th 1963. There are 11 faculties and 1 program held in UB. [+]

Bachelors in Biomedical Engineering. University of Brawijaya (UB) is located in the city of Malang, East Java province, Indonesia. UB was officially declared by the President of the Republic of Indonesia January 5th 1963. There are 11 faculties and 1 program held in UB. Vision: To be an outstanding university and play an active role as an agent of change to the society through education, research and community services complies with the national and international standard. Mission: To conduct professional teaching-learning process. To promote awareness to the existence of God's creations and appreciation of human and other creatures rights. To conduct academic process that educates the students to be highly competent graduates and qualified professionals. To innovate, develop, and disseminate sciences and technologies, to empower community welfare and enhance the national culture. Eligibility for Admission: You will be regarded as an international applicant if you do not hold Indonesian citizenship. To be able to get admission, candidates must demonstrate good academic competence which is proven with high academic merit. International applicants should apply directly to Universitas of Brawijaya by submitting a set of necessary documents (see the flow chart of admission procedure). International applicants are generally not required to sit for the entry test for admission unless a special condition occur. The eligibility for admission is based on a desk evaluation carried out by the UB’s admission test committee on your academic achievement. International applicants must meet the academic, language requirements and commit to comply with particular regulations of Indonesian government related to education policy in order to apply for a degree at University of Brawijaya. [-]

B. Eng. (Hons) in Medical Electronic Engineering

MAHSA UNIVERSITY
Campus Full time 4 years January 2017 Malaysia Kuala Lumpur

The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. [+]

The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. In line with this the curriculums have been designed to incorporate the required objectives and outcomes. OBJECTIVES OF THE ENGINEERING PROGRAMMES Graduates are able to apply the broaden and in-depth knowledge of Engineering to analyse the practical problems and think creatively to generate innovative solutions using appropriate technologies. Graduates are able to adapt to different roles and responsibilities and demonstrate leaderships in solving emerging engineering problems within the organization and society at national and international levels. Graduates sustain intellectual curiosity and know how to continue to learn not only in areas that are relevant to Engineering, but also that are important to society ENGINEERING PROGRAMME OUTCOMES Ability to apply knowledge of mathematics, science, and engineering fundamentals to engineering problems. Ability to identify and formulate engineering problems and solve by applying basic engineering principles Ability to identify and apply appropriate tools and techniques for engineering practical applications. Ability to apply research based knowledge for analyzing complex engineering problems. Ability to design solutions for complex engineering problems. Ability to prepare reports and communicate effectively and professionally through effective presentations. Ability to follow current good practices of engineering for sustainable development. Ability to demonstrate safety, health, social, cultural and environmental responsibilities relevant to professional engineering practices. Ability to execute the responsibilities of an Engineer professionally and ethically. Ability to function and manage effectively as an individual or in a team. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Entry Requirements Bachelors (Hons) Degree Programme Good principal passes at STPM level in Mathematics and Physical Sciences and 4 credits at SPM; or Good passes at ‘A’ Levels in Mathematics and Physical Sciences and 4 grade C passes at ‘O’ levels / GCE; or The MAHSA Foundation or equivalent; or A qualification that MAHSA accepts as equivalent to the above Direct Entry to Year 2 of the Degree Students with Diploma or Higher National Diploma in Engineering from any college Successful completion of studies in another recognized institute with academic credits equivalent to Year 1 of an Honours degree (Subject to the approval of the MAHSA Academic Board) INTAKES January April July October Career Prospects Engineering is central to an exciting range of businesses and industries, including space, construction, transport, cosmetics, medicine, food, fashion and much more. With engineering, you can follow your interests – if you like sport, you can work as an engineer improving the performance of new tennis rackets. Engineers work in offices, laboratories, film studios, in the outdoors and underground. Engineering today is closely linked with technology, and plays a major role in many technological advances and new device production. You might be reading this on your phone, and that will be thanks to engineers. As an engineer you could be designing colour-matching technology to determine the best make-up for different skin tones or working as part of a team to improve the performance of artificial hip joints. This is about the application of engineering principles to the medical field. This area of engineering combines design and problem solving skills with biological sciences to find solutions to a variety of medical problems, such as improving the efficiency and effectiveness of a range of artificial limbs, the diagnostic equipment that is used in hospitals e.g. MRI scans and the latest drugs. It is a relatively new discipline but one that is constantly expanding to include new areas of research and recent medical advances. Medical engineers may work in hospitals or research and development companies. Medical engineering roles are varied and are likely to involve working with health professionals and a range of suppliers from pharmaceutical companies to the manufacturers of scalpels! [-]

Biomedical Science

International University Alliance
Campus Full time Part time September 2017 USA Boston

The biomedical science degree program instructs students on the integrative scientific study of biological issues related to health and medicine. [+]

Bachelors in Biomedical Engineering. Biomedical Science The biomedical science degree program instructs students on the integrative scientific study of biological issues related to health and medicine. Students who graduate from the biomedical science degree program may follow a career path in areas such as healthcare administration, forensic science, genetic counseling, biomedical engineering, hematology, molecular geneticist, and more. Courses include basic medical sciences on the research level, biological science research in biomedical faculties, and general studies related to biomedical disciplines. Get more details below including other Alabama colleges that offer biomedical science degrees. Career Options for Graduates Students who have completed the Biomedical Science program at AU, have entered into some of these more popular career paths listed below: Biologists Description: research or study basic principles of plant and animal life, such as origin, relationship, development, anatomy, and functions. Medical Scientists, Except Epidemiologists Description: conduct research dealing with the understanding of human diseases and the improvement of human health. Engage in clinical investigation, research and development, or other related activities. Includes physicians, dentists, public health specialists, pharmacologists, and medical pathologists who primarily conduct research. Career Outlook & Projects According to the BLS, medical scientists, except epidemiologists employment is expected to grow at a rate of 36.4% from 2010 to 2020 Source: Job descriptions, estimated salary and wages, and projected job growth are taken from the Bureau of Labor Statistics (BLS). [-]

Bachelor In Biomedicine

Grupo Tiradentes
Campus Full time 8 semesters March 2017 Brazil Aracaju

Combat invisible enemies, agents of diseases, will be your daily work. The biomedical studies the causative microorganisms of diseases, identifying drugs to fight them. [+]

Combat invisible enemies, agents of diseases, will be your daily work. The biomedical studies the causative microorganisms of diseases, identifying drugs to fight them. The expansion of participation Knowledge area biomedical academic life of the region in research and extension activities in the SUS and own social need justifies the formation of Biomedical professionals in the State of Pernambuco. Job market The labor market is large and constantly growing. The biomedical may work in hospitals, public and private laboratories, research centers, higher education institutions. The most sought after areas of biomedicine are clinical testing, cytology, molecular biology and imaging exams (Nuclear Medicine and Magnetic Resonance Imaging). This professional can perform the research activity, developing biotechnological processes and developing new products using the latest features and techniques of genetic engineering and molecular iologia. It also operates in the biological treatment of waste industrais in automation and control of bioprocesses. Also can exercise quality control of food, animals and transgenic microorganisms in the food and beverage industry, especially where the products are obtained by fermentation. You can also act on the increase and improvement of plant and animal production, sanitation and control of zoonoses, use agencies to mitigate agents and polluting substances, conducting technical and environmental report and environmental projects and consulting. Occupation area The Biomedical can act professionally in clinical laboratories, clinical human reproduction, nuclear medicine clinics, blood banks, universities, research centers, environmental analysis, food analysis and criminalistics area. Goals General: Form biomedical citizens with technical and scientific expertise, political, social, educational, administrative, investigative and ethics for professional practice of medicine in the context of the provision of the health service, ensuring comprehensive care and quality and humanization of assistance to the population . specific: • Provide the essential elements contained in the curriculum through theoretical activities, practices, complementary, completion of course work preparation and supervised internship, integrated and creative way, considering the social realities, cultural, health and national epidemiological, state and municipal; • Develop general and specific competencies and skills necessary for professional practice articulated to the socio-political and cultural contexts national, state and municipal; • Develop curricular activities in the pursuit of interdisciplinarity, with the base construction of the desired profile the integration of education, scientific research and extension; • Exercise scientific research as a fundamental activity in the whole of health care; • Promoting the integration of teachers and students in health actions promoted by the state and local health systems; • encourage the development of entrepreneurial skills and understanding of the technological process, its causes and effects; • Encourage the production and scientific and technological innovation, and their applications in the workplace; • To promote the understanding and evaluation of social, economic and environmental impacts of the production, management and incorporation of new technologies; • Promote the ability to keep learning and keep up with changes in working conditions, as well as provide further study in graduate courses. [-]

Biomedical Informatics

Duoc UC
Campus Full time 4 years February 2017 Chile Santiago

A Technician in Biomedical Informatics is a trained professional that can work in health institutions in the public and private sector. These professionals will design information systems linked to the decision making applying national and international health standards for coding, imaging, supply, and system development, among others. [+]

Bachelors in Biomedical Engineering. School of Health The School of Health at Duoc UC offers careers with a human, modern, dynamic, innovative and decisive vision of health problems, with a strong ethical basis and using the most modern clinical simulation centers of the country. The school also delivers the tools that allow students to become the best specialist in the area. Biomedical Informatics A Technician in Biomedical Informatics is a trained professional that can work in health institutions in the public and private sector. These professionals will design information systems linked to the decision making applying national and international health standards for coding, imaging, supply, and system development, among others. These professionals can also advise on the development of health information applications and computing architecture. Likewise, they can serve in consulting and project implementation organizations related to health issues as process analyst, project manager, planning and implementing of health systems. Professional Title: Degree in Biomedical Informatics How to apply First, check that your home university or polytechnic institute has an ongoing exchange agreement with Duoc UC. Thoroughly research your prospective courses. Most of our programs are in Spanish; therefore make sure you have sufficient proficiency in this language for your classes. We do offer a free 44 hour Spanish course for all non-native Spanish speakers, but in order to successfully complete your courses we advise at least an intermediate Spanish level. For non-Spanish speakers, Duoc UC also offers the Tourism and Hospitality Program, fully taught in English Required documents Download and fill in the application form Transcripts Letter of motivation Copy of your passport Enrollment certificate Nomination letter from home institution Once you have all the documentation, please have the coordinator of international relations at your home institution send a digital version to Maria Jimenez mjimenezt@duoc.cl Please bear in mind that after receiving your documentation it can take up to a month for us to process it and send you an answer, due the large amount of documentation we receive during the admission periods. Application deadlines 15 August– 15 October*: application for the first semester, March – July term 15 February – 15 April*: application for the second semester, August – December term *We advise students with Chinese nationality to apply as soon as the application period begins since the visa procedure can take up to six months. Acceptance letter A month after the application period ends, students will be informed via e-mail whether they have been accepted or not. In the case of being accepted, a hard copy of the acceptance letter will be sent to the International Student Officer of the student’s home institution. [-]