Biomedical Imaging Master's Degree Programs

Biomedical imaging utilizes technology such as X-rays, digital radiography, and MRIs to better understand biological processes and tissue composition. Several general courses for a master's degree in this field and the admissions requirements will be detailed for prospective students. Schools offering Biology degrees can also be found in these popular choices.

Sample Coursework for Master's Degree Programs in Biomedical Imaging

Master's programs in biomedical imaging train students in a variety of scientific subjects and technologies like MRIs and CT scans. Students can expect to see coursework in areas such as statistics, magnetic resonance, neuroimaging, professionalism, and image processing.

Statistics

Master's programs in biomedical imaging offer training in statistics in order to better understand the benefits of image analysis. Some courses will focus on parametric and non-parametric processes that are utilized when working with CT scans or MRIs. Other programs may focus on the role of statistics in signal processing in relation to testing hypotheses and detection theory. Topics of study may include estimator properties, conditional mean estimates, filters such as Kalman, and adaptive filtering. It should be noted that some master's programs may require students to complete prerequisite coursework in mathematics with a minimum grade requirement prior to enrolling in their statistics course.

Magnetic Resonance

Magnetic resonance imaging, commonly known as MRI, is one of the technologies biomedical imaging students will need to learn. MRI coursework will introduce students to the technology and mechanics, with areas of study including pulse sequences, signal acquisition, and spectroscopy. Students may also study how the human spinal system can be manipulated by gradient pulses and the data that be collected and analyzed from it.

Neuroimaging and Neurological Imaging

Students enrolled in a course on neuroimaging or neurological imaging will learn about the various technologies available for diagnosing illness and conducting research experiments. They may learn about methods such as diffusion MRI fiber tracking, perfusion MRI, and magnetization transfer ration imaging. Students will learn how the brain operates, with topics of study such as cerebral blood flow and energy metabolism in the brain. They will also explore the magneto encephalography (MEG), various types of MRI technology, and positron emission tomography (PET), along with brain connectivity and tissue diffusion properties.

Professionalism

Master's students could have the opportunity to take courses on professionalism. The focus may be on going from the graduate program environment to a professional workplace, with topics ranging from how to conduct a job search and resume writing to interviewing skills and making connections in the field. Students will also need to know how to conduct themselves once they secure a position, so some programs could offer courses on performing ethical research studies, formally presenting study results, and interpersonal communication.

Image Processing

Biomedical imaging master's programs may provide training on utilizing the latest computer technologies in image processing and analysis. Students will learn about processes such as the following: shape representation and extraction, detecting motion and compensation, inverse issues in image processing, stereo imaging and camera geometry, and image modeling and transforms. Other courses could delve into the connection between imaging processing and bioimaging theory. In this type of course, students will be trained on how images are made, their meaning, and quality, along with the mathematical principles for image processing.

Admissions Requirements for Master's Degree Programs in Biomedical Imaging

Prospective students will typically need a bachelor's degree in either a scientific discipline or an engineering one, with some programs stipulating a minimum grade point average (GPA) of 3.0. The admissions process usually requires an online graduate application, with some programs charging an application fee that can range anywhere from $75 to $105. A common entrance requirement for master's programs is the submission of either GRE or MCAT test scores, with scores from the last 3-5 years considered current. Along with test scores, prospective students should anticipate providing materials that reflect their academic and other related experience. They may be asked to provide materials such as their official transcripts; letters of recommendation; a statement of purpose detailing items such as their educational background, interest in the program, and professional goals; and an overview of their related research experience.

Biomedical imaging master's programs usually require that students posses a bachelor's degree in a scientific or engineering field, with some students needing to meet a minimum GPA requirement and provide their recent GRE or MCAT test scores. Students will receive training in areas ranging from professionalism in the workplace and utilizing statistics in image processing to diffusion MRI tracking and signal acquisition.

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