|
| CELL PHYSIOLOGY |
|
NEUROPHYSIOLOGY |
|
MUSCLE PHYSIOLOGY |
| PH 1. The cell membrane |
PH 9. Organization of the brain: Cerebrum |
PH 48. Skeletal muscle: Organization |
| PH 2. Membrane transport (In 3 charts) |
PH 10. Organization of the brain: Cell Types |
PH 49. Skeletal muscle: Sarcoplasmic Reticulum |
| PH 5. Ionic Equilibria and Resting membrane Potential |
PH 11. Blood - brain barrier |
PH 50. Skeletal muscle: Excitation-Contraction Coupling (In 3 charts) |
| PH 6. Action Potential |
PH 12. Synaptic transmission: Morphology of Synapses |
PH 53. Skeletal muscle: Length-Tension Relationship |
| PH 7. Conduction Velocity |
PH 13. Synaptic transmission: Neuromuscular Junction |
PH 54. Cardiac muscle: Structure |
| PH 8. Signal Transduction (In 2 charts) |
PH 14. Synaptic transmission: Visceral Efferent Endings |
PH 55. Smooth muscle: Excitation-Contraction Coupling (In 2 charts) |
| CARDIOVASCULAR PHYSIOLOGY |
PH 15. Synaptic transmission: Inhibitory Mechanisms |
RESPIRATORY PHYSIOLOGY |
| PH 57. Overview of the Cardiovascular system |
PH 16. Synaptic transmission: Chemical Synaptic Transmission |
PH 79. Lungs |
| PH 58. Body Fluid Compartments |
PH 17. Synaptic transmission: Temporal and Spatial Summation |
PH 80. Airway structure: Trachea and Major Bronchi |
| PH 59. Structure of the Heart |
PH 18. Cerebrospinal Fluid (CSF): Brain Ventricles and CSF Composition |
PH 81. Airway Structure: Intrapulmonary Airways |
| PH 60. Conduction System of the Heart |
PH 19. Cerebrospinal fluid (CFT): Circulation of CSF |
PH 82. Airway Structure: Epithelium |
| PH 61. Electrical Activity of the Heart |
PH 20. Spinal cord: Ventral Rami |
PH 83. Respiratory muscles |
| PH 62. Electrocardiogram (In 3 charts) |
PH 21. Spinal cord: Membranes and Nerve Roots |
PH 84. Lung Volumes |
| PH 65. Cardiac Cycle |
PH 22. Peripheral nervous system |
PH 85. Mechanics of respiration: Forces during Quiet Breathing |
| PH 66. Cardiac Output: Pressure-Volume Loop |
PH 23. Autonomic nervous system: Schema |
PH 86. Mechanics of respiration: Elastic Properties (In 2 charts) |
| PH 67. Cardiac Output: Function Curves |
PH 24. Autonomic nervous system: Cholinergic and Adrenergic Synapses |
PH 88. Mechanics of respiration: Surface Forces |
| PH 68. Coronary circulation |
PH 25. Hypothalamus |
PH 89. Mechanics of respiration: Airway Flow |
| PH 69. Hemodynamics |
PH 26. Limbic system |
PH 90. Mechanics of respiration: Flow-Volume |
| PH 70. Arterial Pressure |
PH 27. The cerebral cortex |
PH 91. Intrapulmonary Circulation |
| PH 71. Control of arteriolar tone |
PH 28. Descending motor pathways |
PH 92. The alveolar capillary unit |
| PH 72. Microcirculation |
PH 29. Cerebellum: Afferent Pathways |
PH 93. Pulmonary circulation |
| PH 73. Circulation to special regions |
PH 30. Cerebellum: Efferent Pathways |
PH 94. Ventilation / perfusion |
| PH 74. Monitoring of Blood pressure |
PH 31. Cutaneous sensory receptors |
PH 95. Pulmonary Vascular Resistance |
| PH 75. Short-Term Regulation of Blood Pressure |
PH 32. Cutaneous receptors: Pacinian Corpuscle |
PH 96. Surfactant Effects |
| PH 76. Long-Term Regulation of Blood Pressure |
PH 33. Proprioception and reflex pathways (In 2 charts) |
PH 97. O2 and co2 exchange |
| PH 77. Response of Exercise |
PH 35. Sensory pathways (In 3 charts) |
PH 98. O2 and CO2 exchange and transport |
| PH 78. Fetal circulation |
PH 38. Visual system: Receptors |
PH 99. O2/CO2 exchange |
| RENAL PHYSIOLOGY |
PH 39. Visual system: Visual Pathway |
PH 100. Control of respiration |
| PH 108.Anatomy of the kidney |
PH 40. Auditory system: Cochlea |
PH 101.Role of the lungs in Acid-Base Balance |
| PH 109.Anatomy of the kidney: The Nephron |
PH 41. Auditory system: Pathways |
PH 102.Response to exercise |
| PH 110.Glomerular Structure |
PH 42. Vestibular system: Receptors |
PH 103.Obstructive lung disease (In 2 charts) |
| PH 111.Glomerular Filtration |
PH 43. Vestibular system: Vestibulospinal Tracts |
PH 105.Restrictive lung Disease |
| PH 112.Renal Clearance |
PH 44. Gustatory (taste) system: Receptors |
PH 106.Pulmonary Function Testing (In 2 charts) |
| PH 113.Na+ reabsorption |
PH 45.Gustatory (taste) system: Pathways |
GASTROINTESTINAL PHYSIOLOGY |
| PH 114.ADH Secretion and Action |
PH 46.Olfactory system: Receptors |
PH 124.Esophagus |
| PH 115.Urine Concentration |
PH 47.Olfactory system: Pathway |
PH 125.Gastroesophageal Junction |
| PH 116.Urine Dilution |
RENAL PHYSIOLOGY |
PH 126. Lower Esophageal Sphincter- |
| PH 117. Renin - angiotensin - aldosterone system |
PH 108. Anatomy of the kidney |
PH 127.Enteric Nervous System |
| PH 118.Response to increased ECF |
PH 109.Anatomy of the kidney: The Nephron |
PH 128.Autonomic Innervation (In 2 charts) |
| PH 119.Response to Decreased ECF |
PH 110.Glomerular Structure |
PH 130.Autonomic and Enteric Integration |
| PH 120.Potassium excretion |
PH 111.Glomerular Filtration |
PH 131.Motility |
| PH 121.Calcium and phosphate |
PH 112.Renal Clearance |
PH 132.Major GI Hormones |
| PH 122.Renal HCO3- Reabsorption |
PH 113.Na+ reabsorption |
PH 133.Structure of Stomach |
| PH 123.Renal Production of New HCO3 |
PH 114.ADH Secretion and Action |
PH 134.Appetite and Hunger |
| ENDOCRINE PHYSIOLOGY |
PH 115.Urine Concentration |
PH 135.Gastric Motility |
| PH 163.Overview of Hormone Action |
PH 116.Urine Dilution |
PH 136.Gastric Digestion |
| PH 164.Regulation of Hormone Secretion |
PH 117.Renin - angiotensin - aldosterone system |
PH 137.Gastric Secretion (In 3 charts) |
| PH 165.Hypothalamus and Pituitary |
PH 118.Response to increased ECF |
PH 140.Small Intestine Structure (In 3 charts) |
| PH 166.Anterior Pituitary |
PH 119.Response to Decreased ECF |
PH 143.Small Intestine Motility |
| PH 167.Posterior Pituitary: Oxytocin |
PH 120.Potassium excretion |
PH 144.Large Intestine Structure |
| PH 168.Posterior Pituitary: ADH |
PH 121.Calcium and phosphate |
PH 145.Rectum and Anal Canal |
| PH 169.Growth Hormone |
PH 122.Renal HCO3- Reabsorption |
PH 146.Colonic Motility |
| PH 170.Thyroid Gland: Structure |
PH 123.Renal Production of New HCO3 |
PH 147.Defecation |
| PH 171.Thyroid Gland: Function |
|
PH 148.Salivary Gland Structure |
| PH 172.Thyroid Gland: Hormone Action |
|
PH 149.Salivary Gland Secretion |
| PH 173.Adrenal Gland: Structure |
|
PH 150.Pancreas Structure |
| PH 174.Adrenal Gland: Histology |
|
PH 151.Pancreas Secretion |
| PH 175.Adrenal Cortical Hormones |
|
PH 152.Liver Structure |
| PH 176.Cortisol |
|
PH 153.Liver Ultra structure |
| PH 177.Adrenal Androgens |
|
PH 154.Intrahepatic Biliary System |
| PH 178.Aldosterone |
|
PH 155.Liver Function |
| PH 179.Adrenal Medulla |
|
PH 156.Bilirubin Excretion |
| PH 180.Endocrine Pancreas |
|
PH 157.Gallbladder Structure and Function |
| PH 181.Insulin Secretion |
|
PH 158.Overview of GI Tract Fluid and Electrolyte Transport |
| PH 182.Actions of Insulin |
|
PH 159.Digestion of Protein |
| PH 183.Actions of Glucagon |
|
PH 160.Digestion of Carbohydrates |
| PH 184.Parathyroid Gland |
|
PH 161.Digestion of Fat |
| PH 185.Gonad and Genital Duct Formation |
|
PH 162.Absorption of Essential Elements and Vitamins |
| PH 186.Development of the External Genitalia |
|
|
| PH 187.Puberty |
|
|
| PH 188.Testes |
|
|
| PH 189.The Menstrual Cycle |
|
|
| PH 190.Hormonal Regulation of the Menstrual Cycle |
|
|
| PH 191.Prolactin |
|
|
