Fall Courses
This on-line course provides definition and appropriate use of common medical terminology and abbreviations. It is especially beneficial for students who are newly committed in medical sciences and who have foreign culture background.
A major physiology course taught by various faculty in the Physiology Department. This course covers most important concepts in medical physiology, along with updated information and in-depth discussion in all fields of interest related to physiological function.
A series of seminars which covers various important protocols of research.
Seminars in physiology present cutting edge research scientists of national prominence and Tulane Faculty. A one-page report is required at the end of each seminar.
Physiology course that aims to apply recent advances in molecular and integrative physiology to clinical cases.
The course aims to improve the knowledge and skills that are important for taking MCAT test successfully. Particularly, the course will cover the aspects of General Chemistry, Organic Chemistry, Physics, Math & Statistics, Psychology/Behavior, and CARS.
Research thesis under the direction of faculty. Students are required to Independently choose topics, conduct experiments, and analyze and report data. A concise thesis based on experimental data is also required.
The objectives and content of the Human Medical Cellular Biochemistry course are designed to provide students with a comprehensive understanding of cellular structure and function and the manner by which cellular processes are normally integrated and regulated. This course stresses normal cellular function and why disease states occur if normal cellular processes are disrupted.
This course introduces all major aspects of cellular structure and function. It specifically covers cytoplasmic membranes, protein trafficking, cellular signaling, and cell proliferating mechanisms.
This course is designed to provide a basis of terminology relevant to the basic concepts of immunology including important components (cells, tissues, antibodies, and immunoglobulins) involved in host defense against infectious agents. It specifically covers cellular interactions, T cell activation and regulation, autoimmunity and autoimmune diseases, hypersensitivity reactions, including atopic disorders and asthma, mechanisms of transplant rejection, and immunodeficiency disorders.
An advanced survey of cellular neuroscience, including topics on neuronal electrogenic properties, synaptic transmission and neuromodulation, signal transduction, neurotransmitter systems, synaptic plasticity, blood-brain barrier, glia, and neuropsychiatric disorders. The objective of the course is to achieve a fluency in neuroscience that will provide a foundation for pursuing further graduate-level neuroscience study and research.
Spring Courses
This advanced course covers in-depth topics in cardiovascular physiology and its association with other systems to regulate body function. The objective of the course is to provide the students with comprehensive knowledge of cardiac and vascular function and its regulation by neural, hormonal, and other systems.
This course provides students with hands-on experiences performing classical physiological experiments with the human body, animals, and computer simulation modeling systems.
Seminars in physiology present cutting-edge research scientists of national prominence and Tulane Faculty. A one-page report is required at the end of each seminar.
This course provided current molecular mechanisms for cellular signal transduction pathways and hormone action, including membrane receptors and downstream pathways, second messenger systems, receptor-ion channels, kinase/phosphatases, extracellular matrix signaling, signaling and cell death, Wnt signaling pathways, and nuclear receptor signaling.
Physiology course that aims to apply recent advances in molecular and integrative physiology to clinical cases.
The course covers the major structure and function of ion channels, the basic physiological mechanisms of voltage gated ion channels, and transmitter gated ion channels. Also a brief consideration will also be given to certain pathophysiological mechanisms leading to disease.
This course provides updated information regarding renal function and renal/hormonal control of blood pressure. The roles of kidney function in hypertension, diabetes mellitus and other human diseases are also covered.
Research thesis under the direction of faculty. Students are required to Independently choose topic, conduct experiments, analyze and report data. A concise thesis based on experimental data is also required.