Masters In Medical Science Of Life : Human Physiology

Vital functions : Understanding Human Physiology

What you'll learn

General Physiology

Understand the physiology of human body systems

Blood and Body Fluids

Hemeostasis

Muscle Physiology

Requirements

You will learn everything you need to know.

Description

The science of life Human PhysiologyThis course offers a comprehensive explanation  to human physiology, focusing on the fundamental mechanisms that govern the function of the body’s major systems. Students will explore cellular processes, tissue structure, and the coordinated activities of the muscular, nervous, cardiovascular, respiratory, renal, digestive, and endocrine systems. Special emphasis will be placed on understanding how these systems work individually and together to maintain homeostasis.Throughout the course, students will develop a strong foundation in key physiological principles such as membrane transport, signal transduction, energy metabolism, and the integration of organ system functions. Case studies and clinical correlations will help bridge basic science with real-world applications, preparing students for advanced studies in health sciences, medicine, and related fields.The course combines lectures, discussions, laboratory exercises, and problem-solving sessions to encourage active learning and critical thinking. Students will also engage in experiments and simulations to reinforce theoretical concepts and develop practical skills.By the end of the course, students will be able to explain the physiological concepts of health and disease, apply physiological knowledge to new situations, and critically evaluate physiological information. No prior background in biology is required, though a basic understanding of high school biology is recommended.

Overview

Section 1: General Physiology

Lecture 1 Introduction

Lecture 2 Cells

Lecture 3 Tissues

Lecture 4 Understanding organs in the body

Lecture 5 Systems of the body

Lecture 6 Cell Structure

Lecture 7 Lipid bilayer

Lecture 8 Cell Membrane Protien Layers

Lecture 9 Carbohydrates Cell Membrane

Lecture 10 Cytoplasm and Organelles

Lecture 11 Golgi Apparatus

Lecture 12 Lysosomes

Lecture 13 Peroxisomes in Cells

Lecture 14 Mitochondrion Overview

Lecture 15 Ribosomes

Lecture 16 Overview of the Nucleus

Lecture 17 DNA Structure and Function

Lecture 18 RNA Structure and Function

Lecture 19 Growth Factors

Lecture 20 Necrosis Cell

Lecture 21 Atrophy and Hypertrophy

Lecture 22 Cell Degeneration

Lecture 23 Cell Junction

Lecture 24 Gap Junction

Lecture 25 Anchoring Junction

Lecture 26 Transport through Cell membrane

Lecture 27 Protein channels

Lecture 28 Diffusion

Lecture 29 Active transport

Lecture 30 Primary Active transport

Lecture 31 Secondary active transport

Lecture 32 Vesicular transport ( Endocytosis )

Lecture 33 Exocytosis

Lecture 34 Molecular motors

Lecture 35 Homeostasis

Lecture 36 Homeostasis

Lecture 37 Components of homeostatic system

Lecture 38 Negative feedback

Lecture 39 Positive feedback

Lecture 40 Acid_Base balance

Lecture 41 Determination of acid _base status

Lecture 42 Phosphate buffer system

Lecture 43 Protein buffer system

Lecture 44 REGULATION OF ACID-BASE BALANCE BY RESPIRATORY MECHANISM

Lecture 45 Acidosis & Alkalosis

Lecture 46 Metabolic acidosis

Lecture 47 Body fluids

Lecture 48 Hemeostasis

Lecture 49 Transport mechanism

Lecture 50 Water in metabolic reactions

Lecture 51 Texture of Tissues

Lecture 52 Temperatures regulation

Lecture 53 DISTRIBUTION OF BODY FLUIDS

Lecture 54 COMPOSITION OF BODY FLUIDS

Lecture 55 INDICATOR DILUTION METHOD

Lecture 56 INDICATOR DILUTION METHOD

Lecture 57 INDICATOR DILUTION METHOD

Lecture 58 Marker substances

Lecture 59 Marker substances

Lecture 60 CONCENTRATION OF BODY FLUIDS

Lecture 61 Osmolality

Lecture 62 Osmolarity

Lecture 63 Mole and Osmole

Lecture 64 Tonicity

Lecture 65 Tonicity

Lecture 66 Isotonic fluid

Lecture 67 Hypertonic fluid

Lecture 68 Hypotonic fluid

Lecture 69 Mastering water balance

Lecture 70 Types of dehydration

Lecture 71 Dehydration types according to water & sodium

Lecture 72 Causes of dehydration

Lecture 73 Signs & Symptoms

Lecture 74 Dehydration in infant

Lecture 75 Dehydration in aging

Lecture 76 Treatment of dehydration

Lecture 77 Water intoxication or overhydration

Lecture 78 Causes of water intoxication

Lecture 79 Signs & Symptoms of water intoxication

Lecture 80 Treatment of Water intoxication

Lecture 81 Blood

Lecture 82 Properties of blood

Lecture 83 Composition of blood

Lecture 84 Blood cells

Lecture 85 Hematocrit value

Lecture 86 Plasma

Lecture 87 Serum

Lecture 88 Functions of the blood

Lecture 89 Plasma protiens

Lecture 90 SEPARATION OF PLASMA PROTEINS

Lecture 91 Properties of plasma proteins

Lecture 92 Origin of plasma proteins

Lecture 93 Functions of plasma protiens

Lecture 94 Functions of plasma protiens in details

Lecture 95 Variation in plasma protiens levels

Lecture 96 Red blood cells

Lecture 97 Normal shape of RBC's

Lecture 98 Normal size

Lecture 99 Normal structure

Lecture 100 Properties of RBC's

Lecture 101 Red Blood Cell Lifespan-

Lecture 102 FATE OF RED BLOOD CELLS

Lecture 103 Functions of RBC's

Lecture 104 Increase in RBC Count ( Physiological variation )

Lecture 105 Decrease in RBC count ( Physiological variation )

Lecture 106 Pathological variation in RBC's

Lecture 107 VARIATIONS IN SIZE OF RED BLOOD CELLS

Lecture 108 VARIATIONS IN SHAPE OF RED BLOOD CELLS

Lecture 109 VARIATIONS IN STRUCTURE OF RED BLOOD CELLS

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