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BIO 461 Principles of Physiology

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Table of Contents

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Module 1.0. Homeostasis, Membranes, Electrophysiology and ANS1
1.1. Homeostasis3
1.1.1. Homeostasis Defined5
1.1.2. Homeostatic Control Systems7
1.1.3. Feedback Response Loop11
1.2. Cell Transport; Water & Solutes15
1.2.1. Fluid Compartments17
1.2.2. Osmosis19
1.2.3. Diffusion of Solutes25
1.2.4. Active Transport31
1.2.5. Bulk Transport33
1.3. Electrophysiology39
1.3.1. Ions and Cell Membranes41
1.3.2. Membrane Potentials45
1.3.3. Graded Potential51
1.3.4. Action Potentials53
1.3.5. Refractory Periods55
1.3.6. Propagation of an Action Potential59
1.4. The Synapse67
1.5. The Autonomic Nervous System73
1.5.1. Organization of the Nervous System75
1.5.2. Structural Organization of the ANS77
1.5.3. The SNS and the PNS81
1.5.4. The Enteric Nervous System83
1.5.5. Physiology of the ANS85
1.5.6. Neurotransmitters of the ANS87
1.5.7. Receptors of the ANS91
1.5.8. Actions of the Autonomic Nervous System93
1.5.9. Table of Actions for the SNS and PNS and Some Common Drugs97
Module 2.0. Skeletal Muscle and Special Senses101
2.1. Structural Organization of Skeletal Muscle103
2.2.1. Neuromuscular Junction, Excitation-Contraction Coupling115
2.2.2. Muscle Contractures and Cramps121
2.3. Whole Muscle Contraction, Fiber Type, Fatigue and Muscle Pharmacology123
2.3.1. Motor Units125
2.3.2. Factors that Influence the Force of Contraction127
2.3.3. Energy Source for Muscle Contraction131
2.3.4. Skeletal Muscle Fiber Types133
2.3.5. Fatigue135
2.3.6. Muscle Pharmacology139
2.4. Smooth Muscle141
2.4.1. Smooth Muscle Contraction143
2.5. Control of Body Movement147
2.5.1. Voluntary Control of Muscle149
2.5.2. Reflexes151
2.6. Taste and Smell161
2.6.1. Taste163
2.6.2. The Sense of Smell167
2.7. Vision169
2.7.1. Structure of the Eye171
2.7.2. Focusing Light on the Retina175
2.7.3. Converting Light to Action Potentials179
2.7.4. The Retina181
2.7.5. Phototransduction185
2.7.6. Receptive Fields189
2.8. Hearing and Equilibrium193
2.8.1. The Nature of Sound195
2.8.2. The Hearing Apparatus197
2.8.3. Sound Vibrations to Action Potentials201
2.8.4. The Sense of Balance and Equilibrium205
Module 3.0. Cardiovascular System207
3.1. Structure of the Heart209
3.1.1. Chambers and Circulation211
3.2. Cardiac Cell Action Potentials217
3.2.1. Action Potentials in Cardiac Muscle Cells219
3.2.2. Action Potentials in Cardiac Autorhythmic cells223
3.2.3. Cellular Mechanisms of Inotropy and Chronotropy227
3.3. Electrophysiology of Heart Muscle231
3.3.1. Heart Conduction System233
3.3.2. Electrocardiogram (ECG)237
3.3.3. Abnormal ECG - Current of Injury245
3.4. The Cardiac Cycle249
3.4.1. Cardiac cycle251
3.4.2. Cardiac Measurements and Pressure Volume Loops255
3.5. Blood vessels and Blood Pressure265
3.5.1. Arteries and Veins267
3.5.2. Capillaries271
3.5.3. Blood Pressure Regulation and Shock275
3.5.4. Capillary Exchange283
3.5.5. Myogenic and Paracrine Regulation of Vasoconstriction and Vasodilation291
3.6. Blood293
3.6.1. Composition of Blood295
3.6.2. Hematopoeisis297
3.6.3. Breaking Down Red Blood Cells301
3.6.4. Hemostasis305
Module 4.0. Urinary and Respiratory Systems315
4.1. Function and Structure of the Kidney317
4.1.1. Urinary System Function319
4.1.2. Functional Anatomy of the Urinary System321
4.1.3. The Nephron: Functional Unit of the Kidney325
4.1.4. The Renal Corpuscle: Bowman's Capsule327
4.2. Physiology of Urine Production331
4.2.1. Filtration333
4.2.2. Renal Clearance337
4.2.3. Tubular Reabsorption341
4.2.4. Urine Concentration and Dilution355
4.2.5. Hormonal Regulation of Urine Production359
4.3. Acid/Base Balance365
4.3.1. Buffers367
4.3.2. Acid/Base Disturbances371
4.4. The Respiratory System379
4.4.1. Respiratory System Structure and Function381
4.4.2. Respiratory Membrane383
4.4.3. Respiratory pressures and Inspriation/Expiration385
4.4.4. Alveoli and Surfactant391
4.4.5. Pneumothorax395
4.4.6. Pressure-Volume Loops and the Work of Breathing397
4.5. Gas Exchange and Transport407
4.5.1. Gas Laws409
4.5.2. Partial Pressure Gradients in the Lung413
4.5.3. Alveolar Gas Equation417
4.5.4. Oxygen and Carbon Dioxide Transport in the Blood419
4.5.5. Alveolar Ventilation427
4.5.6. Ventilation/Perfusion Ratio431
4.6. Chronic Bronchitis and Emphysema433
4.6.1. Respiratory Control by the Medulla Oblongata437
4.6.2. Chemicals that Regulate Ventilation441
Module 5.0. Digestive, Endocrine and Reproductive Systems443
5.1. Functional Anatomy of the Digestive System445
5.1.1. Layers of the Digestive Tract447
5.1.2. Enteric Nervous System449
5.1.3. Organs of the Digestive System451
5.2. Digestion457
5.2.1. Carbohydrates459
5.2.2. Proteins465
5.2.3. Lipids469
5.2.4. Lipoproteins475
5.3. Regulation of Digestive Secretions479
5.4. Endocrine System487
5.4.1. Overview of the Endocrine System489
5.4.2. Hormone Receptors493
5.4.3. Hormones of the Body499
5.4.4. Other Hormones: Melatonin and Pheromones505
5.5. The Hypothalamus and Pituitary Gland507
5.5.1. Structure and Function of the Hypothalamus and Pituitary Gland509
5.5.2. The Posterior Pituitary511
5.5.3. The Anterior Pituitary513
5.5.4. Growth Hormone515
5.5.5. Prolactin519
5.5.6. Thyroid Hormones521
5.5.7. Adrenal Hormones529
5.6. Pancreas533
5.6.1. Insulin and Glucagon535
5.6.2. Diabetes Mellitus541
5.7. Reproductive System Anatomy547
5.7.1. Female Reproductive Anatomy549
5.7.2. Male Reproductive Anatomy553
5.7.3. Sexual Development at Puberty557
5.7.4. Male Reproductive Endocrine Axis559
5.7.5. Spermatogenesis563
5.7.6. Female Reproductive System: Oogenesis567
5.7.7. Ovulation and Fertilization571
5.7.8. The Ovarian Cycle575
5.7.9. The Uterine Cycle577
5.7.10. Pregnancy581
Appendix A. Gender583
Appendix B. The Placebo Effect589
B.2.1. The Placebo Effect591
B.2.2. Examples of the Placebo Effect593
B.2.3. How do Placebos Work?595
B.2.4. Are Placebos Ethical?597
B.2.5. How do we validate actual effectiveness of placebos599
B.2.6. Tips for evaluating scientific evidence601
B.2.7. What about Faith Healings605
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, , & (n.d.). BIO 461 Principles of Physiology. BYU-I Books. https://books.byui.edu/bio_461_principles_o
Jason Shaw

Brigham Young University, Idaho

Jason Hunt

Brigham Young University, Idaho

John Fisher
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