Our rigorous curriculum includes core courses, electives, and a thesis research project. Each student is assigned a faculty adviser who provides assistance in course selection, thesis topic determination and supervision, and career guidance.
Students can choose to explore a basic science, clinical, or public health research topic for their thesis project. They are expected to complete 10-15 hours of thesis-related work per week during the Fall and Spring semesters, and 10 weeks of full-time work during the summer.
Fall Required Coursework
Carbohydrate, lipid, protein, and energy metabolism are covered with an emphasis on understanding the integration of metabolic pathways and principles of metabolic regulation.
A focus on how nutrition affects growth and development throughout the lifecycle, from conception to old age, with attention to the special needs of each developmental stage.
Students are introduced to the theory, methodology, and terminology used in epidemiology, using examples related to nutrition and disease from the current scientific literature.
Current literature is examined with an emphasis on topics not covered in other courses, with the purpose of developing a critical approach to scientific information using student presentations and discussion.
Students are assisted in the development of the personal and professional skills needed to become a professional nutrition scientist. Information needed to successfully select a research setting and Master’s Thesis project is provided.
The course focuses on what people eat, what should they eat, factors that influence dietary intake, and how health promotion influences these factors. The primary goals of this course are to provide 1) an overview of dietary guidelines and the diversity of dietary patterns; 2) exposure to the breadth of programs and policies in the field of nutrition promotion; and 3) an opportunity to develop skills in assessment, literature review, and program planning.
Spring Required Coursework
The roles of vitamins and minerals are covered, helping to understand their sources, biochemistry, functions, and the nutritional standards and guidelines for their intake.
This course covers the physiological aspects of clinical disorders, including symptoms, risk factors, biological pathology, and clinical management, as well as the role of nutrition in their prevention and treatment.
Students present their thesis projects to the class and faculty, and critically evaluate the presentations of their peers.
Spring Elective Coursework (must total at least 5 credits)
The goal is self-sufficiency in biostatistics by analyzing real clinical research datasets: begin with Excel for data organization, and our own online resource for 2x2 and power analysis; proceed to R for advanced topics (linear and logistic regression, survival analysis by Kaplan-Meier and Cox modeling); discuss the thesis plan of every student in the course to understand when and how to use different statistical methods.
The basic tenets of health literacy, psychodynamics, behavioral, and motivational interviewing are covered, along with their application to medical nutrition therapy for nutrition-related conditions.
These seminars allow students to reflect upon and write about health, illness, and care from the perspective of different health professions. Each year, four to five seminars are offered. Spring 2020 seminars included Relationships of Care and the Spaces of Care, Aging and End-of-Life, Health Care Justice and the Care of Underserved, and Spirituality and Healthcare.
Prevention and treatment of obesity represent a tremendous challenge to the nutrition and allied health professions. The course provides 1) an understanding about the importance of the current epidemic of obesity and its impact on disease development throughout the lifespan; 2) translates basic science, clinical and public health findings related to obesity towards prevention and treatment in clinical settings; and 3) examines the roles and responsibilities of health care providers in the prevention and treatment of obesity and related co-morbidities.
This course critically reviews recently published research articles from scientific journals in emerging areas of nutritional biochemistry and biology through presentations and class discussions. Students will learn about the molecular and biological mechanisms that control nutrient metabolism and functions at the cell, tissue, and whole-body levels. This course will also help students gain knowledge of the current methodology employed in advanced nutritional biochemistry research.
This course will provide an introduction to critical communication skills necessary to translate scientific knowledge into clinical practice. The course will highlight how nutrition is integrated into the medical, behavioral, social and cultural factors that contribute to patient well-being, including prevention and treatment of disease.
This course examines programs and policies that have been developed to improve global public health, and the effects of food, nutrition, and nutritional diseases on the health of societies.
Students can choose any graduate-level course from any of Columbia's schools.
Summer Required Coursework
Each MS candidate is required to spend ten weeks of full-time work (350 hours or more) during the summer; any alternative plan must be completed within one year and must be approved by the Program Director.