Vander's human physiology : (Record no. 11141)

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000 -LEADER
fixed length control field 23596cam a22003014a 4500
003 - CONTROL NUMBER IDENTIFIER
control field OSt
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20240221080037.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 100318s2011 nyua 001 0 eng
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9780073378107 (hard copy : alk. paper)
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 0073378100 (hard copy : alk. paper)
040 ## - CATALOGING SOURCE
Original cataloging agency BUL
Transcribing agency BUL
Modifying agency BUL
Language of cataloging eng
Description conventions rda
082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number QT 104 W641v 2008
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name Widmaier, Eric P.
245 10 - TITLE STATEMENT
Title Vander's human physiology :
Remainder of title the mechanisms of body function.
246 30 - VARYING FORM OF TITLE
Title proper/short title Human physiology
250 ## - EDITION STATEMENT
Edition statement 12th ed. /
Remainder of edition statement Eric P. Widmaier, Hershel Raff, Kevin T. Strang.
260 ## - PUBLICATION, DISTRIBUTION, ETC.
Place of publication, distribution, etc. New York :
Name of publisher, distributor, etc. McGraw-Hill,
Date of publication, distribution, etc. c2011.
300 ## - PHYSICAL DESCRIPTION
Extent 1 v. (various pagings) :
Other physical details col. ill. ;
Dimensions 29 cm.
504 ## - BIBLIOGRAPHY, ETC. NOTE
Bibliography, etc. note Includes index.
505 ## - FORMATTED CONTENTS NOTE
Formatted contents note Contents<br/><br/>Chapter. 1 Homeostasis: A Framework for Human Physiology <br/>1.1. The Scope of Human Physiology<br/>1.2. How Is the Body Organized? <br/>Muscle Cells and Tissue <br/>Neurons and Nervous Tissue <br/>Epithelial Cells and Epithelial Tissue <br/>Connective-Tissue Cells and Connective Tissue <br/>Organs and Organ Systems <br/>1.3. Body Fluid Compartments <br/>1.4. Homeostasis: A Defining Feature of Physiology <br/>1.5. General Characteristics of Homeostatic Control Systems <br/>Feedback Systems <br/>Resetting of Set Points <br/>Feedforward Regulation <br/>1.6. Components of Homeostatic Control Systems <br/>Reflexes <br/>Local Homeostatic Responses<br/>1.7. Intercellular Chemical Messengers <br/>1.8. Processes Related to Homeostasis<br/>Adaptation and Acclimatization<br/>Biological Rhythms <br/>Balance in the Homeostasis of Chemical Substances in the Body <br/>Chapter. 1 Clinical Case Study <br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 2 Chemical Composition of the Body. <br/>2.1. Atoms<br/>Components of Atoms<br/>Atomic Number <br/>Atomic Weight<br/>Ions <br/>Atomic Composition of the Body <br/>2.2. Molecules <br/>Covalent Chemical Bonds<br/>Hydrogen Bonds <br/>Molecular Shape<br/>Ionic Molecules <br/>Free Radicals<br/>2.3. Solutions<br/>Water<br/>Molecular Solubility <br/>Concentration<br/>Hydrogen Ions and Acidity<br/>2.4. Classes of Organic Molecules<br/>Carbohydrates <br/>Lipids<br/>Proteins<br/>Nucleic Acids<br/>ATP <br/>Chapter. 2 Clinical Case Study <br/>Test Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 3 Cellular Structure, Proteins, and Metabolism <br/>Section A Cell Structure <br/>3A.1. Microscopic Observations of Cells <br/>3A.2. Membranes <br/>Membrane Structure <br/>Membrane Junctions <br/>3A.3. Cell Organelles <br/>Nucleus <br/>Ribosomes <br/>Endoplasmic Reticulum <br/>Golgi Apparatus <br/>Endosomes <br/>Mitochondria <br/>Lysosomes <br/>Peroxisomes <br/>Vaults <br/>Cytoskeleton<br/>Section B Proteins <br/>3B.1. Genetic Code <br/>3B.2. Protein Synthesis <br/>Transcription: mRNA Synthesis <br/>Translation: Polypeptide Synthesis <br/>Regulation of Protein Synthesis<br/>Mutation. <br/>3B.3. Protein Degradation<br/>3B.4. Protein Secretion <br/>Section C Protein-Binding Sites<br/>3C.1. Binding Site Characteristics <br/>Chemical Specificity <br/>Affinity <br/>Saturation <br/>Competition <br/>3C.2. Regulation of Binding Site Characteristics <br/>Allosteric Modulation <br/>Covalent Modulation <br/>Section D Enzymes and Chemical Energy<br/>3D.1. Chemical Reactions <br/>Determinants of Reaction Rates <br/>Reversible and Irreversible Reactions<br/>Law of Mass Action<br/>3D.2. Enzymes <br/>Cofactors<br/>3D.3. Regulation of Enzyme-Mediated Reactions <br/>Substrate Concentration <br/>Enzyme Concentration <br/>Enzyme Activity<br/>3D.4. Multienzyme Reactions <br/>Section E Metabolic Pathways<br/>3E.1. Cellular Energy Transfer<br/>Glycolysis<br/>Krebs Cycle<br/>Oxidative Phosphorylation <br/>3E.2. Carbohydrate, Fat, and Protein Metabolism <br/>Carbohydrate Metabolism<br/>Fat Metabolism <br/>Protein and Amino Acid Metabolism<br/>Metabolism Summary <br/>3E.3. Essential Nutrients <br/>Vitamins <br/>Chapter. 3 Clinical Case Study<br/>Test Questions<br/>Quantitative and Thought Questions<br/>Answers to Physiological Inquiries. <br/><br/>Chapter. 4 Movement of Molecules Across Cell Membranes<br/>4.1. Diffusion<br/>Magnitude and Direction of Diffusion<br/>Diffusion Rate Versus Distance<br/>Diffusion Through Membranes<br/>4.2. Mediated-Transport Systems<br/>Facilitated Diffusion<br/>Active Transport <br/>4.3. Osmosis<br/>Extracellular Osmolarity and Cell Volume<br/>4.4. Endocytosis and Exocytosis<br/>Endocytosis <br/>Exocytosis <br/>4.5. Epithelial Transport<br/>Chapter. 4 Clinical Case Study <br/>Test Questions <br/>Quantitative and Thought Questions<br/>Answers to Physiological Inquiries<br/><br/>Chapter. 5 Control of Cells by Chemical Messengers<br/>5.1. Receptors <br/>Regulation of Receptors <br/>5.2. Signal Transduction Pathways<br/>Pathways Initiated by Lipid-Soluble Messengers <br/>Pathways Initiated by Water-Soluble Messengers <br/>Plasma Membrane Receptors and Gene Transcription <br/>Cessation of Activity in Signal Transduction Pathways <br/>Chapter. 5 Clinical Case Study <br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 6 Neuronal Signaling and the Structure of the Nervous System <br/>Section A Neural Tissue. 6A.1. Structure and Maintenance of Neurons <br/>6A.2. Functional Classes of Neurons <br/>6A.3. Glial Cells<br/>6A.4. Neural Growth and Regeneration <br/>Section B Membrane Potentials <br/>6B.1. Basic Principles of Electricity<br/>6B.2. The Resting Membrane Potential<br/>6B.3. Graded Potentials and Action Potentials <br/>Graded Potentials <br/>Action Potentials<br/>Section C Synapses <br/>6C.1. Functional Anatomy of Synapses<br/>6C.2. Mechanisms of Neurotransmitter Release <br/>6C.3. Activation of the Postsynaptic Cell <br/>Excitatory Chemical Synapses<br/>Inhibitory Chemical Synapses <br/>6C.4. Synaptic Integration <br/>6C.5. Synaptic Strength <br/>Modification of Synaptic Transmission by Drugs and Disease<br/>6C.6. Neurotransmitters and Neuromodulators<br/>Acetylcholine <br/>Biogenic Amines <br/>Amino Acid Neurotransmitters <br/>Neuropeptides <br/>Gases <br/>Purines<br/>6C.7. Neuroeffector Communication <br/>Section D Structure of the Nervous System <br/>6D.1. Central Nervous System: Brain <br/>Forebrain <br/>Cerebellum <br/>Brainstem <br/>6D.2. Central Nervous System: Spinal Cord. <br/>6D.3. Peripheral Nervous System <br/>6D.4. Autonomic Nervous System <br/>6D.5. Blood Supply, Blood-Brain Barrier, and Cerebrospinal Fluid <br/>Chapter. 6 Clinical Case Study <br/>Test Questions<br/>Quantitative and Thought Questions<br/>Answers to Physiological Inquiries <br/><br/>Chapter. 7 Sensory Physiology <br/>Section A General Principles <br/>7A.1. Sensory Receptors <br/>The Receptor Potential <br/>7A.2. Primary Sensory Coding <br/>Stimulus Type <br/>Stimulus Intensity <br/>Stimulus Location <br/>Central Control of Afferent Information <br/>7A.3. Ascending Neural Pathways in Sensory Systems <br/>7A.4. Association Cortex and Perceptual Processing <br/>Factors That Affect Perception <br/>Section B Specific Sensory Systems <br/>7B.1. Somatic Sensation<br/>Touch and Pressure <br/>Sense of Posture and Movement<br/>Temperature <br/>Pain <br/>Neural Pathways of the Somatosensory System <br/>7B.2. Vision <br/>Light <br/>Overview of Eye Anatomy <br/>The Optics of Vision <br/>Photoreceptor Cells and Phototransduction <br/>Neural Pathways of Vision<br/>Color Vision<br/>Color Blindness <br/>Eye Movement.<br/>7B.3. Hearing <br/>Sound <br/>Sound Transmission in the Ear <br/>Hair Cells of the Organ of Corti<br/>Neural Pathways in Hearing<br/>7B.4. Vestibular System<br/>The Semicircular Canals<br/>The Utricle and Saccule<br/>Vestibular Information and Pathways<br/>7B.5. Chemical Senses <br/>Taste <br/>Smell <br/>Chapter. 7 Clinical Case Study<br/>Test Questions<br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 8 Consciousness, the Brain, and Behavior <br/>8.1. States of Consciousness<br/>Electroencephalogram <br/>The Waking State<br/>Sleep <br/>Neural Substrates of States of Consciousness <br/>Coma and Brain Death <br/>8.2. Conscious Experiences <br/>Selective Attention <br/>Neural Mechanisms of Conscious Experiences<br/>8.3. Motivation and Emotion<br/>Motivation <br/>Emotion <br/>8.4. Altered States of Consciousness<br/>Schizophrenia <br/>The Mood Disorders: Depressions and Bipolar Disorders <br/>Psychoactive Substances, Dependences, and Tolerance <br/>8.5. Learning and Memory <br/>Memory <br/>The Neural Basis of Learning and Memory <br/>8.6. Cerebral Dominance and Language. <br/>Chapter. 8 Clinical Case Study <br/>Test Questions<br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 9 Muscle <br/>Section A Skeletal Muscle <br/>9A.1. Structure<br/>9A.2. Molecular Mechanisms of Skeletal Muscle Contraction <br/>Sliding-Filament Mechanism <br/>Roles of Troponin, Tropomyosin, and Ca2+ in Contraction <br/>Excitation-Contraction Coupling<br/>Membrane Excitation: The Neuromuscular Junction<br/>9A.3. Mechanics of Single-Fiber Contraction <br/>Twitch Contractions<br/>Load-Velocity Relation<br/>Frequency-Tension Relation<br/>Length-Tension Relation<br/>9A.4. Skeletal Muscle Energy Metabolism<br/>Muscle Fatigue<br/>9A.5. Types of Skeletal Muscle Fibers<br/>9A.6. Whole-Muscle Contraction <br/>Control of Muscle Tension<br/>Control of Shortening Velocity <br/>Muscle Adaptation to Exercise <br/>Lever Action of Muscles and Bones <br/>9A.7. Skeletal Muscle Disorders<br/>Muscle Cramps <br/>Hypocalcemic Tetany <br/>Muscular Dystrophy<br/>Myasthenia Gravis <br/>Section B Smooth and Cardiac Muscle <br/>9B.1. Structure of Smooth Muscle. 9B.2. Smooth Muscle Contraction and Its Control <br/>Cross-Bridge Activation <br/>Sources of Cytosolic Ca2+ <br/>Membrane Activation <br/>Types of Smooth Muscle <br/>9B.3. Cardiac Muscle<br/>Cellular Structure of Cardiac Muscle<br/>Excitation-Contraction Coupling in Cardiac Muscle<br/>Chapter. 9 Clinical Case Study<br/>Test Questions<br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries<br/><br/>Chapter. 10 Control of Body Movement <br/>10.1. Motor Control Hierarchy<br/>Voluntary and Involuntary Actions <br/>10.2. Local Control of Motor Neurons <br/>Interneurons <br/>Local Afferent Input <br/>10.3. The Brain Motor Centers and the Descending Pathways They Control <br/>Cerebral Cortex<br/>Subcortical and Brainstem Nuclei <br/>Cerebellum <br/>Descending Pathways. Note continued: 10.4. Muscle Tone <br/>Abnormal Muscle Tone<br/>10.5. Maintenance of Upright Posture and Balance <br/>10.6. Walking<br/>Chapter. 10 Clinical Case Study<br/>Test Questions<br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 11 The Endocrine System<br/>Section A Principles of Hormonal Control Systems <br/>11A.1. Hormone Structures and Synthesis <br/>Amine Hormones <br/>Peptide and Protein Hormones <br/>Steroid Hormones <br/>11A.2. Hormone Transport in the Blood <br/>11A.3. Hormone Metabolism and Excretion <br/>11A.4. Mechanisms of Hormone Action <br/>Hormone Receptors <br/>Events Elicited by Hormone-Receptor Binding <br/>Pharmacological Effects of Hormones <br/>11A.5. Inputs That Control Hormone Secretion <br/>Control by Plasma Concentrations of Mineral Ions or Organic Nutrients <br/>Control by Neurons <br/>Control by Other Hormones<br/>11A.6. Types of Endocrine Disorders <br/>Hyposecretion <br/>Hypersecretion <br/>Hyporesponsiveness and Hyperresponsiveness. <br/><br/>Section B The Hypothalamus and Pituitary Gland <br/>11B.1. Control Systems Involving the Hypothalamus and Pituitary Gland<br/>Posterior Pituitary Gland Hormones<br/>Anterior Pituitary Gland Hormones and the Hypothalamus <br/><br/>Section C The Thyroid Gland<br/>11C.1. Synthesis of Thyroid Hormones <br/>11C.2. Control of Thyroid Function<br/>11C.3. Actions of Thyroid Hormones <br/>Metabolic Actions <br/>Permissive Actions <br/>Growth and Development <br/>11C.4. Hypothyroidism and Hyperthyroidism <br/><br/>Section D The Endocrine Response to Stress <br/>11D.1. Physiological Functions of Cortisol <br/>11D.2. Functions of Cortisol in Stress <br/>11D.3. Adrenal Insufficiency and Cushing's Syndrome <br/>11D.4. Other Hormones Released During Stress<br/>11D.5. Psychological Stress and Disease <br/><br/>Section E Endocrine Control of Growth <br/>11E.1. Bone Growth <br/>11E.2. Environmental Factors Influencing Growth <br/>11E.3. Hormonal Influences on Growth <br/>Growth Hormone and Insulin-Like Growth Factors <br/>Thyroid Hormones <br/>Insulin <br/>Sex Hormones <br/>Cortisol <br/>Section F Endocrine Control of Ca2+ Homeostasis. <br/>11F.1. Effector Sites for Ca2+ Homeostasis<br/>Bone <br/>Kidneys <br/>Gastrointestinal Tract<br/>11F.2. Hormonal Controls <br/>Parathyroid Hormone<br/>1, 25-Dihydroxyvitamin D<br/>Calcitonin<br/>11F.3. Metabolic Bone Diseases <br/>Hypercalcemia <br/>Hypocalcemia <br/><br/>Chapter. 11 Clinical Case Study <br/>Test Questions<br/>Quantitative and Thought Questions<br/>Answers to Physiological Inquiries<br/><br/>Chapter. 12 Cardiovascular Physiology<br/>Section A Overall Design of the Circulatory System <br/>12A.1. System Overview<br/>12A.2. Pressure, Flow, and Resistance <br/>Section B The Heart <br/>12B.1. Anatomy<br/>Cardiac Muscle<br/>12B.2. Heartbeat Coordination <br/>Sequence of Excitation <br/>Cardiac Action Potentials and Excitation of the SA Node <br/>The Electrocardiogram<br/>Excitation-Contraction Coupling <br/>Refractory Period of the Heart <br/>12B.3. Mechanical Events of the Cardiac Cycle<br/>Mid-Diastole to Late Diastole<br/>Systole <br/>Early Diastole<br/>Pulmonary Circulation Pressures <br/>Heart Sounds <br/>12B.4. The Cardiac Output<br/>Control of Heart Rate<br/>Control of Stroke Volume <br/>12B.5. Measurement of Cardiac Function. <br/>Section C The Vascular System <br/>12C.1. Arteries <br/>Arterial Blood Pressure<br/>Measurement of Systemic Arterial Pressure<br/>12C.2. Arterioles <br/>Local Controls <br/>Extrinsic Controls<br/>Endothelial Cells and Vascular Smooth Muscle <br/><br/>Arteriolar Control in Specific Organs<br/>12C.3. Capillaries<br/>Anatomy of the Capillary Network<br/>Velocity of Capillary Blood Flow <br/>Diffusion Across the Capillary Wall: Exchanges of Nutrients and Metabolic End Products <br/>Bulk Flow Across the Capillary Wall: Distribution of the Extracellular Fluid<br/>12C.4. Veins <br/>Determinants of Venous Pressure <br/>12C.5. The Lymphatic System<br/>Mechanism of Lymph Flow <br/>Section D Integration of Cardiovascular Function: Regulation of Systemic Arterial Pressure<br/>12D.1. Baroreceptor Reflexes<br/>Arterial Baroreceptors<br/>The Medullary Cardiovascular Center <br/>Operation of the Arterial Baroreceptor Reflex<br/>Other Baroreceptors <br/>12D.2. Blood Volume and Long-Term Regulation of Arterial Pressure <br/>12D.3. Other Cardiovascular Reflexes and Responses <br/>Section E Cardiovascular Patterns in Health and Disease. <br/>12E.1. Hemorrhage and Other Causes of Hypotension <br/>Shock <br/>12E.2. The Upright Posture <br/>12E.3. Exercise <br/>Maximal Oxygen Consumption and Training <br/>12E.4. Hypertension <br/>12E.5. Heart Failure <br/>12E.6. Hypertrophic Cardiomyopathy<br/>12E.7. Coronary Artery Disease and Heart Attacks <br/>Section F Blood and Hemostasis<br/>12F.1. Plasma <br/>12F.2. The Blood Cells <br/>Erythrocytes<br/>Leukocytes <br/>Platelets <br/>Regulation of Blood Cell Production <br/>12F.3. Hemostasis: The Prevention of Blood Loss <br/>Formation of a Platelet Plug <br/>Blood Coagulation: Clot Formation <br/>Anticlotting Systems <br/>Anticlotting Drugs<br/>Chapter. 12 Clinical Case Study <br/>Test Questions <br/>Quantitative and Thought Questions<br/>Answers to Physiological Inquiries <br/><br/>Chapter. 13 Respiratory Physiology<br/>13.1. Organization of the Respiratory System <br/>The Airways and Blood Vessels <br/>Site of Gas Exchange: The Alveoli<br/>Relation of the Lungs to the Thoracic (Chest) Wall<br/>13.2. Ventilation and Lung Mechanics <br/>How is a Stable Balance Achieved Between Breaths? <br/>Inspiration <br/>Expiration <br/>Lung Compliance <br/>Airway Resistance <br/>Lung Volumes and Capacities <br/>Alveolar Ventilation. <br/>13.3. Exchange of Gases in Alveoli and Tissues<br/>Partial Pressures of Gases <br/>Alveolar Gas Pressures<br/>Gas Exchange Between Alveoli and Blood<br/>Matching of Ventilation and Blood Flow in Alveoli <br/>Gas Exchange Between Tissues and Blood<br/>13.4. Transport of Oxygen in Blood <br/>What is the Effect of Po2 on Hemoglobin Saturation? <br/>Effects of Blood Pco2' H+ Concentration, Temperature, and DPG Concentration on Hemoglobin Saturation<br/>13.5. Transport of Carbon Dioxide in Blood <br/>13.6. Transport of Hydrogen Ion Between Tissues and Lungs <br/>13.7. Control of Respiration <br/>Neural Generation of Rhythmic Breathing <br/>Control of Ventilation by Po2' Pco2, and H+ Concentration <br/>Control of Ventilation During Exercise <br/>Other Ventilatory Responses <br/>13.8. Hypoxia <br/>Why Do Ventilation-Perfusion Abnormalities Affect O2 More Than CO2? <br/>Emphysema <br/>Acclimatization to High Altitude <br/>13.9. Nonrespiratory Functions of the Lungs <br/>Chapter. 13 Clinical Cast Study <br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 14 The Kidneys and Regulation of Water and Inorganic Ions <br/>Section A Basic Principles of Renal Physiology. <br/>14A.1. Renal Functions <br/>14A.2. Structure of the Kidneys and Urinary System <br/>14A.3. Basic Renal Processes <br/>Glomerular Filtration <br/>Tubular Reabsorption <br/>Tubular Secretion <br/>Metabolism by the Tubules <br/>Regulation of Membrane Channels and Transporters <br/>"Division of Labor" in the Tubules<br/>14A.4. The Concept of Renal Clearance <br/>14A.5. Micturition <br/>Incontinence <br/>Section B Regulation of Ion and Water Balance <br/>14B.1. Total-Body Balance of Sodium and Water <br/>14B.2. Basic Renal Processes for Sodium and Water<br/>Primary Active Na+ Reabsorption<br/>Coupling of Water Reabsorption to Na+ Resbsorption <br/>Urine Concentration: The Countercurrent Multiplier System <br/>14B.3. Renal Sodium Regulation <br/>Control of GFR <br/>Control of Na+ Reabsorption<br/>14B.4. Renal Water Regulation <br/>Osmoreceptor Control of Vasopressin Secretion<br/>Baroreceptor Control of Vasopressin Secretion <br/>14B.5. A Summary Example: The Response to Sweating <br/>14B.6. Thirst and Salt Appetite <br/>14B.7. Potassium Regulation<br/>Renal Regulation of K+ <br/>14B.8. Renal Regulation of Calcium and Phosphate Ion. <br/>14B.9. Summary <br/>Division of Labor <br/>14B.10. Diuretics <br/>Section C Hydrogen Ion Regulation <br/>14C.1. Sources of Hydrogen Ion Gain or Loss <br/>14C.2. Buffering of Hydrogen Ion in the Body <br/>14C.3. Integration of Homeostatic Controls <br/>14C.4. Renal Mechanisms <br/>HCO3 <br/>Handling <br/>Addition of New HCO3<br/>to the Plasma <br/>Renal Responses to Acidosis and Alkalosis <br/>14C.5. Classification of Acidosis and Alkalosis<br/><br/>Chapter. 14 Clinical Case Study --<br/>Hemodialysis, Peritoneal Dialysis, and Transplantation <br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 15 The Digestion and Absorption of Food <br/>15.1. Overview: Functions of the Gastrointestinal Organs <br/>15.2. Structure of the Gastrointestinal Tract Wall <br/>15.3. Digestion and Absorption <br/>Carbohydrate <br/>Protein <br/>Fats<br/>Vitamins <br/>Water and Minerals <br/>15.4. How Are Gastrointestinal Processes Regulated? <br/>Basic Principles <br/>Mouth, Pharynx, and Esophagus <br/>Stomach <br/>Pancreatic Secretions <br/>Bile Secretion and Liver Function <br/>Small Intestine <br/>Large Intestine. <br/>15.5. Pathophysiology of the Gastrointestinal Tract <br/>Ulcers <br/>Vomiting <br/>Gallstones <br/>Lactose Intolerance <br/>Constipation and Diarrhea <br/>Chapter. 15 Clinical Case Study <br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 16 Regulation of Organic Metabolism and Energy Balance <br/>Section A Control and Integration of Carbohydrate, Protein, and Fat Metabolism <br/>16A.1. Events of the Absorptive and Postabsorptive States <br/>Absorptive State <br/>Postabsorptive State. Note continued: <br/>16A.2. Endocrine and Neural Control of the Absorptive and Postabsorptive States <br/>Insulin <br/>Glucagon<br/>Epinephrine and Sympathetic Nerves to Liver and Adipose Tissue <br/>Cortisol <br/>Growth Hormone <br/>Summary of Hormonal Controls <br/>Hypoglycemia <br/>16A.3. Energy Homeostasis in Exercise and Stress <br/>Section B Regulation of Total-Body Energy Balance and Temperature <br/>16B.1. Basic Concepts of Energy Expenditure <br/>Metabolic Rate<br/>16B.2. Regulation of Total-Body Energy Stores<br/>Control of Food Intake <br/>Overweight and Obesity <br/>Eating Disorders: Anorexia Nervosa and Bulimia Nervosa<br/>What Should We Eat?<br/>16B.3. Regulation of Body Temperature <br/>Mechanisms of Heat Loss or Gain<br/>Temperature-Regulating Reflexes<br/>Temperature Acclimatization <br/>16B.4. Fever and Hyperthermia<br/>Chapter. 16 Clinical Case Study <br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries. <br/><br/>Chapter. 17 Reproduction <br/>Section A Overview of Terminology and General Principles <br/>Section B Gametogenesis, Sex Determination, and Sex Differentiation <br/>17B.1. Gametogenesis <br/>17B.2. Sex Determination <br/>17B.3. Sex Differentiation <br/>Differentiation of the Gonads <br/>Differentiation of Internal and External Genitalia <br/>17B.4. Sexual Differentiation of the Central Nervous System and Homosexuality <br/>Section C Male Reproductive Physiology<br/>17C.1. Anatomy<br/>17C.2. Spermatogenesis<br/>17C.3. Transport of Sperm<br/>Erection <br/>Ejaculation <br/>17C.4. Hormonal Control of Male Reproductive Functions <br/>Control of the Testes <br/>Testosterone <br/>17C.5. Puberty <br/>Secondary Sex Characteristics and Growth <br/>Behavior <br/>17C.6. Hypogonadism <br/>17C.7. Andropause <br/>Section D Female Reproductive Physiology <br/>17D.1. Anatomy <br/>17D.2. Ovarian Functions<br/>Oogenesis <br/>Follicle Growth <br/>Formation of the Corpus Luteum <br/>Sites of Synthesis of Ovarian Hormones. <br/>17D.3. Control of Ovarian Function <br/>Follicle Development and Estrogen Synthesis During the Early and Middle Follicular Phases <br/>LH Surge and Ovulation <br/>The Luteal Phase <br/>17D.4. Uterine Changes in the Menstrual Cycle <br/>17D.5. Other Effects of Estrogen and Progesterone <br/>17D.6. Androgens in Women <br/>17D.7. Puberty <br/>17D.8. Female Sexual Response <br/>17D.9. Pregnancy <br/>Egg Transport <br/>Intercourse, Sperm Transport, and Capacitation <br/>Fertilization <br/>Early Development, Implantation, and Placentation <br/>Hormonal and Other Changes During Pregnancy <br/>Parturition <br/>Lactation <br/>Contraception <br/>Infertility <br/>17D.10. Menopause <br/>Chapter. 17 Clinical Case Study<br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 18 The Immune System <br/>18.1. Cells and Secretions Mediating Immune Defenses<br/>Immune Cells <br/>Cytokines <br/>18.2. Innate Immune Responses<br/>Defenses at Body Surfaces <br/>Inflammation <br/>Interferons <br/>Toll-Like Receptors. <br/>18.3. Adaptive Immune Responses <br/>Overview<br/>Lymphoid Organs and Lymphocyte Origins <br/>Functions of B Cells and T Cells <br/>Lymphocyte Receptors <br/>Antigen Presentation to T Cells <br/>NK Cells <br/>Development of Immune Tolerance <br/>Antibody-Mediated Immune Responses: Defenses Against Bacteria, Extracellular Viruses, and Toxins <br/>Defenses Against Virus-Infected Cells and Cancer Cells <br/>18.4. Systemic Manifestations of Infection <br/>18.5. Factors That Alter the Resistance to Infection <br/>Acquired Immune Deficiency Syndrome (AIDS) <br/>Antibiotics <br/>18.6. Harmful Immune Responses <br/>Graft Rejection <br/>Transfusion Reactions <br/>Allergy (Hypersensitivity) <br/>Autoimmune Disease <br/>Excessive Inflammatory Responses <br/>Chapter. 18 Clinical Case Study <br/>Test Questions <br/>Quantitative and Thought Questions <br/>Answers to Physiological Inquiries <br/><br/>Chapter. 19 Medical Physiology: Integration Using Clinical Cases <br/>Case 19-1 A Woman with Palpitations and Heat Intolerance<br/>19-1.1. Case Presentation --<br/>19-1.2. Physical Examination. <br/>19-1.3. Laboratory Tests <br/>19-1.4. Diagnosis <br/>19-1.5. Physiological Integration <br/>19-1.6. Therapy <br/>Case 19-2 A Man with Chest Pain After a Long Airplane Flight <br/>19-2.1. Case Presentation <br/>19-2.2. Physical Examination <br/>19-2.3. Laboratory Tests <br/>19-2.4. Diagnosis <br/>19-2.5. Physiological Integration <br/>19-2.6. Therapy<br/>Case 19-3 A Man with Abdominal Pain, Fever, and Circulatory Failure <br/>19-3.1. Case Presentation<br/>19-3.2. Physical Examination <br/>19-3.3. Laboratory Tests <br/>19-3.4. Diagnosis <br/>19-3.5. Physiological Integration <br/>19-3.6. Therapy <br/>Case 19-4 A College Student with Nausea, Flushing, and Sweating <br/>19-4.1. Case Presentation <br/>19-4.2. Physical Examination<br/>19-4.3. Laboratory Tests <br/>19-4.4. Diagnosis <br/>19-4.5. Physiological Integration <br/>19-4.6. Therapy.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name entry element Human physiology
Form subdivision Textbooks.
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Raff, Hershel,
Dates associated with a name 1953-
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Strang, Kevin T.
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Vander, Arthur J.,
Dates associated with a name 1933-
Title of a work Human physiology.
906 ## - LOCAL DATA ELEMENT F, LDF (RLIN)
a 7
b cbc
c orignew
d 1
e ecip
f 20
g y-gencatlg
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Source of classification or shelving scheme Dewey Decimal Classification
Koha item type Book Open Access
Edition 12th edition
Classification part QT 104
Item part 1
Call number prefix W641v 2008
Call number suffix QT 104 W641v 2008
Holdings
Withdrawn status Lost status Source of classification or shelving scheme Damaged status Not for loan Home library Current library Date acquired Source of acquisition Inventory number Total Checkouts Full call number Barcode Date last seen Copy number Price effective from Koha item type
    Dewey Decimal Classification     Health Sciences Library Health Sciences Library 03/14/2022 donation 04433   QT 104 W641v 2008 MBAL22030749 03/14/2022 1 03/14/2022 Book Open Access