Senior Content Specialist | Updated On - Aug 8, 2024
The M.Sc in Physiology is a post-graduate program that takes two academic years, which is more focused on the scientific aspects of the functions and mechanisms in various structures that comprise living organisms. The topics for this course include Comparative physiology, Endocrinology, Cardiovascular physiology, Neurophysiology, Reproductive physiology, Renal physiology. This includes knowledge such as, higher level ideas, comprehensive theories, biology of systems, disease and treatment of various physiological systems in animals and humans. The learning process which is employed here entails theoretical lectures and practical performances, lab work, field work, research projects and case studies. The M.Sc Physiology program provides education to carry out research, teach and practice physiology with regards to various physiological processes and functions. This master’s degree course normally takes 2 years as it is structured with 4 semesters.
The entrance exams accepted for admission into the M.Sc Physiology course are: UG/PG/NET: CSIR-UGC NET for JRF, ICMR JRF, GATE with Biology as the subject, University conducted state or national level entrance exams like JAM, JNUEE, BHU-PET etc Some institutes offer admission depending on the marks obtained in the qualifying examination. The criteria for applying for the course are that the candidate must possess a Bachelors degree in Physiology/Biology/Allied sciences with minimum 55%-60% marks in aggregate from any University. This is initiated depending on the performance of the candidate in aptitude tests, qualifying and entrance examinations, and interviews.
Explores the fundamental concepts and principles of physiology, introducing the structure and function of the human body at the cellular, tissue, and organ levels.
Cellular Physiology
Delve into the intricate workings of cells, examining cellular metabolism, transport, signaling, and communication.
Biophysical and Biochemical Principles
Investigate the physical and chemical basis of physiological processes, including nerve conduction, muscle contraction, and fluid and electrolyte balance.
Blood and Body Fluids
Understand the composition, functions, and regulation of blood, lymph, and other body fluids, exploring their roles in maintaining homeostasis.
Cardiovascular System
Analyze the structure, function, and regulation of the heart, blood vessels, and circulation, focusing on cardiovascular dynamics and disorders.
Respiratory System
Investigate the respiratory system's anatomy, physiology, and regulation, understanding gas exchange and respiration.
Neurophysiology
Delve into the intricate workings of the nervous system, covering neural signaling, transmission, and sensory perception.
Endocrine System
Explore the structure, function, and regulation of the endocrine system, understanding hormone production, secretion, and action.
Digestive System
Examine the anatomy, physiology, and regulation of the digestive system, from ingestion to absorption.
Renal Physiology
Investigate the structure, function, and regulation of the kidneys, understanding urine formation, fluid balance, and electrolyte homeostasis.
Musculoskeletal System
Understand the structure, function, and regulation of the musculoskeletal system, including muscle contraction, skeletal mechanics, and movement control.
Environmental Physiology
Explore the adaptations of organisms to different environmental conditions, including temperature regulation, acclimatization, and high-altitude physiology.
Physiological Research Methods
Gain proficiency in various physiological research methods, including experimental design, data collection, and analysis.
Practical Physiology Lab
Apply theoretical knowledge to practical laboratory exercises, conducting experiments to investigate physiological processes.
