Unit 1

The principles and logics of cellular to systemic integration using murburn concept: simple multicellular life to more complex beings with hormonal/neuronal controls, etc.

Unit 2

Molecular to macroscopic electrochemical & electromechanical outcomes: bone-muscles & neurophysiology.

Unit 3

Complex human systems: circulatory/lymphatic, endocrine, reproductive, excretory, respiratory, digestive, etc.

Unit 4

Brain and central nervous system: cybernetics

Course Objectives:

• Develop a comprehensive understanding of the principles and logics governing cellular to systemic integration in multicellular organisms with a focus on hormonal and neuronal controls.
• Explore the molecular to macroscopic electrochemical and electromechanical outcomes, specifically in the context of bone-muscle interactions and neurophysiology.
• Understand the intricacies of complex human physiological systems, including circulatory, lymphatic, endocrine, reproductive, excretory, respiratory, and digestive systems.
•   Gain insight into the functioning of the brain and central nervous system, exploring the principles of cybernetics and their role in systemic physiology.

Course Outcomes:

After completing this course, students should be able to
CO1: Analyze the integration of cellular processes into systemic functions, considering
the influence of hormonal and neuronal controls.
CO2: Correlate molecular-level electrochemical and electromechanical outcomes with macroscopic
physiological phenomena, particularly in bone-muscle interactions and neurophysiology.
C03: Describe the functioning of complex human physiological systems, including
circulatory, lymphatic, endocrine, reproductive, excretory, respiratory, and digestive systems.
CO4: Analyze the principles of cybernetics and their application in understanding the brain and
central nervous system’s role in regulating physiological processes.

CO-PO Mapping

1. A K Jain, A textbook of Physiology. Avichal, 2007. ISBN
   8177391186
2. Hall, J., 2016. Guyton and Hall textbook of medical physiology, Elsevier.
3.  ichael Weitz and Brian Kearns. Ganong’s Review of Medical Physiology. Cenveo® Publisher
4. Murburn concept in cellular function and bioenergetics: Part 1: Understanding murzymes at the molecular level. https://doi.org/10.1063/5.0171857 Manoj etal.
5. Murburn concept in cellular function and bioenergetics: Part 1: Understanding integrations-translations from molecular to macroscopic levels. https://doi.org/10.1063/5.0171860 Manoj etal.