Students that have completed their undergraduate degrees have the option to continue studying and earn a master’s degree. This allows them to be far more prepared when entering a career and to jump right into a more advanced position. Additionally, some jobs are only available to graduate school students.
What is an MSc in Medical Technology? Professionals in the medical field rely heavily on modern technology to successfully treat, diagnose, and care for patients. By studying medical technology, you will be preparing for a career as a technician, researcher, or technologist. Because there are many different fields that each requires a different specialization, there are many ways students can choose to tailor their studies. Possible courses include microbiology, biochemistry, clinical techniques, immunology, molecular biology, and epidemiology.
The field of medical technology is an advanced area of focus, meaning completing an extensive education in this field makes students highly sought after. Graduates are able to thrive in a fulfilling career in the medical field.
Before you enroll in a program, it is wise to learn as much as you can about the related fees in advance. The school, program, and country that you choose to study in will all help determine tuition and other fees. Take all these elements into consideration when making your decision.
The most common career for those that earn an MSc in Medical Technology is technologist. These professionals work in medical laboratories and develop and test the machines that physicians and other medical professionals use every day. This field is growing quickly, and experts are becoming more and more desirable. Alternatively, it is possible to become a technician and use these machines while practicing medicine.
To begin a career in the field of medical technology, find the best program for you. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
The master's in healthcare informatics from the College of Nursing and Health Care Professions can help you use information technology, both hardware, and software, for better decision-making and better patient outcomes.[+]
Offered By: College of Nursing and Health Care ProfessionsOverview
Integrate Technology to Improve Patient CareHealthcare informatics is a rapidly emerging discipline that offers new frontiers requiring innovative leadership. Emerging technology provides an understanding of the value of health informatics and how it can reduce healthcare costs, increase access and improve the quality of healthcare services.
The master's in healthcare informatics from the College of Nursing and Health Care Professions can help you use information technology, both hardware, and software, for better decision-making and better patient outcomes.Degree Outcomes
Learn to Make Better Healthcare DecisionsThroughout the masters in health informatics degree program, you have the opportunity to learn how to integrate information technology with healthcare to support continuous improvement in patient-care systems, project management, decision-making, quality assessment and healthcare system operations.... [-]
The George Washington University offers an online master in health informatics that prepares graduates to analyze data to optimize healthcare delivery. [+]
The healthcare industry is ever-changing, and the need for health information technology specialists is growing rapidly. The Milken Institute School of Public Health at the George Washington University is prepared to meet this increasing need for skilled executives with our online Master of Science in Management of Health Informatics and Analytics program, HealthInformatics@GW.
Graduates will be able to improve the efficiency of healthcare organizations and optimize technology to positively influence decision-making in the field. Designed for professionals with a minimum of three years of experience in healthcare, the program prepares students with the skills they need in entrepreneurial and business principles, leadership, project management, and technology to become innovators in health care.... [-]
The master’s degree programme in biomedical sciences – molecular biotechnology and diagnostics specialization track will equip you for a career in the exciting field of biotechnology and translational research. [+]
masters.utu.fiMASTER THE EXCITING FIELD OF BIOTECHNOLOGY!
The master’s degree programme in biomedical sciences – molecular biotechnology and diagnostics specialisation track will equip you for a career in the exciting field of biotechnology and translational research.
Here you will obtain extensive theoretical and practical expertise on central concepts and techniques in modern molecular biotechnology and diagnostics.
You will also learn to apply the acquired knowledge in practice for the development of novel tools and methods for the detection molecular substances. The education is focused on the key technologies of diagnostics and molecular biology with opportunities to apply this knowledge both to medical and other areas of diagnostics.... [-]
The MSc in (Environmental) Engineering provides education and training to those eager to pursue a career in the protection of the Environment. The course explores the important societal challenges of water, air and soil pollution and how we may develop solutions to these challenges to protect our environment and society. [+]
The MSc in Bioengineering provides education and training to the next generation of biomedical engineers. Bioengineering is defined as the application of the principles of engineering to advancements in healthcare and medicine.
Students of the MSc in Bioengineering in Trinity College Dublin take lectures from experts in a variety of biomedical engineering subjects and carry out research in world class, state of the art research laboratories and facilities. The Trinity Centre for Bioengineering has extensive clinical research in all the five teaching hospitals. As a member of this biomedical community, you would have the opportunity to learn from activities in the Trinity Centre for Bioengineering, and relate your course material to the real clinical challenges that are being researched and the solutions being generated. The Centre has over 20 academics from the School of Engineering, School of Medicine, Dental School, School of Natural Sciences and over 100 PhD and MSc researchers.... [-]
Enter the rapidly expanding field of health informatics and position yourself at the forefront of efforts to improve the nation’s healthcare system. [+]
Through our MS in Health Informatics program, you can gain an understanding of how to integrate advanced digital technologies into the field of healthcare. Learn how to use electronic data to improve the effectiveness and efficiency of healthcare delivery as you explore the critical competencies that can help reduce healthcare costs; increase patient access to care; and improve the diagnosis, treatment, and outcomes of disease. Prepare to take your healthcare experience to the next level as you step into a management or leadership role in this evolving field.[-]
Biomedical engineering is a relatively new discipline that is up-and-coming. Modern technology has become an inextricable part of medicine and healthcare. That means there is a growing need for both the technological and the healthcare side for people with a grasp of increasingly complex biomedical problems.[+]
Biomedical engineering is a relatively new discipline that is up-and-coming. Modern technology has become an inextricable part of medicine and healthcare. That means there is a growing need on both the technological and the healthcare side for people with a grasp of increasingly complex biomedical problems.Profile of the biomedical engineer
Biomedical engineers specialize in solving technological problems that require an understanding of how the human body functions. They combine a knowledge of the synthetic and analytic methods of physics and chemistry, computational methods of mathematics, and measurement and control systems of electrical engineering with a thorough medical and biological foundation.... [-]
Deepen your technical skills while gaining the industry-specific knowledge you need to develop technologies that can make health care safer, more effective and more affordable.[+]
DEGREE: MS INFORMATION SYSTEMS (CORNELL) & MS APPLIED INFORMATION SCIENCE (TECHNION)
Doctors, hospitals, insurance companies, government agencies—all are looking for ways to make healthcare more effective, accessible, and affordable. And they're turning to technology for solutions. The Technion-Cornell Dual Master’s Degrees in Health Tech gives students the technical and entrepreneurial skills needed to create new digital technologies for patients, clinicians, and communities.
Get a Hands-On Immersion in Health Technologies
From data-mining techniques that track public health trends to apps that facilitate the connection between patients and providers, technology has the potential to transform how healthcare is delivered and experienced.... [-]
The International Master’s Degree Program in Biomedical Engineering (BME) is a two-year interdisciplinary program focusing on biomechanics and medical imaging as well as biomedical signal and image processing.[+]
The applicant can select from the two alternatives. Degrees to be obtained:Master of Health Sciences, with focus on biomechanics, medical imaging, and health technology applications Master of Science (Technology), with focus on biomedical signal and image processing, machine learning, and measurement and analysis of biomedical data ... [-]
Medical Diagnostic Technologies is a multidisciplinary Master's programme which makes use of new laboratory and analysis techniques for medical diagnostics. Medical diagnostics profits on a continual basis from new findings and technologies deriving from the classic natural sciences. These often lead to faster results and more successful treatment in established natural science technologies including the field of medicine. [+]
Medical Diagnostic Technologies is a multidisciplinary Master's programme which makes use of new laboratory and analysis techniques for medical diagnostics. Medical diagnostics profits on a continual basis from new findings and technologies deriving from the classic natural sciences. These often lead to faster results and more successful treatment in established natural science technologies including the field of medicine. The Medical Diagnostic Technologies study programme was thus designed to meet the demand for experts in the field of molecular diagnostics.
Students decide individually which area of molecular diagnostics they wish to specialize in. Typical areas are high throughput analysis, personalized medicine with immunological methods or the use of biomarkers, then validated by means of clinical studies.... [-]
Medical Engineering, branch of study Medical Imaging and Data Processing [+]
in the fields development, quality assurance, sales and consultancy, technical service and trainingInternational Semester(s) abroad (only available in German) Partner universities of the Faculty of Engineering Qualification requirements ... [-]
This postgraduate course enables students to reinforce, deepen and expand their theoretical and factual knowledge to meet the requirements of modern research and development fields in the telematics, telemedicine and e-health industries, as well as in service provider fields in national or international health networks. [+]
To apply online, please visit: Apply Online - Deggendorf Institute of Technology
The health system is characterized by a high IT infiltration - most clinical, nursing and therapeutic processes are supported by digital network documentation systems that are used by professionals involved in all these treatment processes. Throughout these processes, private individuals and health insurance companies are billed using digital transference. This postgraduate course enables students to reinforce, deepen and expand their theoretical and factual knowledge to meet the requirements of modern research and development fields in the telematics, telemedicine and e-health industries, as well as in service provider fields in national or international health networks.... [-]
The MSc is a modular conversion course which provides broad training in biomedical engineering to help you progress with a career in research, industry or in the NHS. We bring together engineering, medicine and the life and physical sciences to enable the development of relevant clinical and industrial research... [+]
The MSc is a modular conversion course which provides broad training in biomedical engineering to help you progress with a career in research, industry or in the NHS.
We bring together engineering, medicine and the life and physical sciences to enable the development of relevant clinical and industrial research.
The programme explores advances in technology and engineering to generate applications and solutions to clinically relevant problems.
As part of the course you’ll go on visits to local clinical centres and attend lectures from industrialists and visiting experts from the UK and overseas. You’ll also have the opportunity to meet our many industrial and clinical partners to help advise and further your career.... [-]
Our MSc in Biomedical Engineering delivers state-of-the art knowledge and understanding of Biomedical Engineering at postgraduate level. [+]
Our MSc in Biomedical Engineering delivers state-of-the art knowledge and understanding of Biomedical Engineering at postgraduate level. Our advanced modules are informed by the active research expertise of our academic staff, and prepare students for careers in advanced technology. Warwick provides a study environment that fosters stimulation and permits students to advance their knowledge and skills.
This programme in Biomedical Engineering enables students to develop expertise in an exciting and expanding area. Topics covered include:Biomedical imaging techniques (whole body with a focus on the brain) Compartmental modelling in physiology and medicine Biomechanics, including at the cell level Properties and design of the materials employed in medical applications, as well as tissue engineering Healthcare technologies, their design and applications Signal processing and data analysis techniques for physiological data ... [-]
Health Care Technology (HCT) is a unique Master’s programme in Europe and Estonia is the first country to start teaching Health Care Technology in such an all-inclusive form. [+]
Health Care Technology (HCT) is a unique Master’s programme in Europe and Estonia is the first country to start teaching Health Care Technology in such an all-inclusive form. HCT focuses on combination of academic and practical skills and the lecturers are mostly from the industry, bringing the latest knowledge and experience to the students.... [-]
The M.Sc. Program in Biomedical Technology offers in-depth knowledge and practical skills in the crossroads of molecular biology, cell technology and bioinformatics with a focus on human health.[+]
Apply between 1 December 2017 and 17 January 2018Degree: Master of Science Duration: 2 years Extent: 120 ECTS Start date: August 2018 Tuition fee for non-EU/EEA students: 12 000 € / year
Read more about Scholarships
Biomedical technology is a multi-disciplinary field that builds on a molecular level understanding of biological systems with a goal to develop new approaches to advance medical and biotechnological applications. The Master’s degree program in Biomedical Technology at BioMediTech, University of Tampere, provides interdisciplinary education that combines natural sciences and technology with a specific focus on subject areas that have potential to advance human health. The programme brings together the expertise and methods in a large spectrum of natural, medical, and engineering sciences, including biology, chemistry, medicine, genetics as well as statistics, computational and data sciences.... [-]