In general, neuroscience is a broad subject which branches off into many other disciplines that students can study such as cellular neuroscience, the study of neurons, their form, and their physiological properties. Clinical neuroscience graduate programs are ideal for students who have an interest in further studying why disorders occur in the nervous system.
Clinical Neuroscience Graduate Program Info
A Master of Science in Clinical Neuroscience typically consists of core courses, laboratory rotations, electives of your choice, and a supervised clinical residency in a real-world practice approved by the university. Below are some typical core courses you will take in order to complete this degree.
Although requirements vary by school, students will often need to complete two neuroscience seminars. The purpose of these seminars is to give students a collaborative perspective on clinical neuroscience through their presentations on specific topics related to the subject. Students critique each other's research papers and get the opportunity to learn more about the profession through guest speakers and their published or unpublished works.
Physiology covers the structures of membranes and analyzes its permeability, while also touching on the receptivity, coding, and signaling of neurons in auditory function and cognitive usage. This course may dive deeper into additional sensory information related to neurons and their function within the human anatomy.
Since clinical neuroscience involves detailed research, it is vital for graduate students to understand how to interpret and analyze their own statistics while performing field work. Students are typically required to take at least one statistics course, aimed at giving them an idea of what kinds of statistical data they will need to include in research dissertations, such as random variables and experimental design.
This course focuses primarily on the functionality and physiology of neurons. Because clinical neuroscience studies the disorders of neurons, it is important for graduate students to know the ins and outs of the structure of neurons and how they cause disorders within the nervous system. Graduate students will be able to examine clinical examples and medical case histories concerning what can go wrong with these neuroanatomical systems. In most cases, these courses will cover the central and peripheral nervous systems with an emphasis on the brain stem, cranium nerves, cerebral cortex, and so on.
Biologically, cells are the basic units of every living organism. Because of this, cell biology teaches how damaged cells occur, how cellular and molecular receptors respond to injuries within the human body, and the structure of cellular biology in terms of the glia, neurons, and synapses, and other neurological aspects of modern science. In this course, instructors will prepare you for a multi-disciplinary perception of modern neuroscience and how it relates to injuries and the reformation of cells.
Program Admission Requirements
In order to gain admission into a clinical neuroscience graduate program, students will need a 4-year undergraduate degree in an applied science, mathematical studies, or equivalent discipline, a 3.0 GPA or higher, a personal statement discussing your career and academic objectives, and a research statement explaining research capabilities and experience. Depending on the university, a GMAT or GRE score may be necessary. If a university requires a GMAT or GRE score, there will likely be a recommended minimum score of 450 on the GMAT or a minimum of 1350 on the GRE. Additionally, applicants should have at least a B average in any applied science prerequisite, such as anatomy or biology.
Clinical neuroscience graduate programs challenge and enhance students' research skills and understanding of applied sciences. With combined courses of laboratory work, clinical residencies, and neuroscientific seminars, graduate students can gain an in-depth understanding of clinical neuroscience and its principles.