Overview

Gain a foundational understanding of renal physiology and how the renal system functions in health and disease. Renal Physiology, a volume in the Mosby Physiology Series, explains the fundamentals of this complex subject in a clear and concise manner, while helping you bridge the gap between normal kidney function and disease with pathophysiology content throughout the book. Helps you easily master the material in a systems-based curriculum with learning objectives, ""In the Clinic"" and ""At the Molecular Level"" boxes, chapter summaries, clinical cases with review questions and answers, self-study questions, and a comprehensive exam. Includes more than 250 clear, 2-color diagrams that simplify complex concepts. Features clinical commentaries that show you how to apply what you've learned to real-life clinical situations. Enhanced eBook version included with purchase. Your enhanced eBook allows you to access all of the text, figures, and references from the book on a variety of devices. Complete the Mosby Physiology Series! Systems-based and portable, these titles are ideal for integrated programs. Blaustein, Kao, & Matteson: Cellular Physiology and Neurophysiology Cloutier: Respiratory Physiology Pappano & Wier: Cardiovascular Physiology Johnson: Gastrointestinal Physiology White, Harrison, & Mehlmann: Endocrine and Reproductive Physiology Hudnall: Hematology: A Pathophysiologic Approach

Full Product Details

Author:   Bruce M. Koeppen (Dean, Frank H. Netter MD School of Medicine, Quinnipiac University, Hamden, Connecticut) ,  Bruce A. Stanton (Andrew C. Vail Professor, Microbiology, Immunology, and Physiology, Director of the Lung Biology Center, Geisel School of Medicine at Dartmouth, Hanover, New Hampshire)
Publisher:   Elsevier - Health Sciences Division
Imprint:   Elsevier - Health Sciences Division
Edition:   6th edition
Weight:   0.480kg
ISBN:  

9780323595681

ISBN 10:   0323595685
Pages:   248
Publication Date:   24 November 2018
Audience:   College/higher education ,  Tertiary & Higher Education
Replaced By:   9780323279536
Format:   Paperback
Publisher's Status:   Active
Availability:   Available To Order  
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Table of Contents

INTRODUCTION CHAPTER 1 PHYSIOLOGY OF BODY FLUIDS Objectives Concept of Steady-State Balance Physicochemical Properties of Electrolyte Solutions Molarity and Equivalence Osmosis and Osmotic Pressure Osmolarity and Osmolality Tonicity Oncotic Pressure Specific Gravity Volumes of Body Fluid Compartments Composition of Body Fluid Compartments Fluid Exchange between Body Fluid Compartments Capillary Fluid Exchange Cellular Fluid Exchange Summary Key Words and Concepts Self-Study Problems CHAPTER 2 STRUCTURE AND FUNCTION OF THE KIDNEYS Objectives Structure of the Kidneys Gross Anatomy Ultrastructure of the Nephron Ultrastructure of the Glomerulus Ultrastructure of the Juxtaglomerular Apparatus Innervation of the Kidneys Summary Key Words and Concepts Self-Study Problems CHAPTER 3 GLOMERULAR FILTRATION AND RENAL BLOOD FLOW Objectives Renal Clearance Glomerular Filtration Rate Glomerular Filtration Determinants of Ultrafiltrate Composition Dynamics of Ultrafiltration Renal Blood Flow Regulation of Renal Blood Flow and Glomerular Filtration Rate Sympathetic Nerves Angiotensin II Prostaglandins Nitric Oxide Endothelin Bradykinin Adenosine Natriuretic Peptides Adenosine Triphosphate Glucocorticoids Histamine Dopamine Summary Key Words and Concepts Self-Study Problems CHAPTER 4 RENAL TRANSPORT MECHANISMS: NaCl AND WATER ABSORPTION ALONG THE NEPHRON Objectives General Principles of Membrane Transport General Principles of Transepithelial Solute and Water Transport NaCl, Solute, and Water Reabsorption Along the Nephron Proximal Tubule Henle's Loop Distal Tubule and Collecting Duct Regulation of NaCl and Water Reabsorption Summary Key Words and Concepts Self-Study Problems CHAPTER 5 REGULATION OF BODY FLUID OSMOLALITY: REGULATION OF WATER BALANCE Objectives Arginine Vasopressin Osmotic Control of Arginine Vasopressin Secretion Hemodynamic Control of Arginine Vasopressin Secretion Arginine Vasopressin Actions on the Kidneys Thirst Renal Mechanisms for Dilution and Concentration of the Urine Medullary Interstitium Vasa Recta Function Assessment of Renal Diluting and Concentrating Ability Summary Key Words and Concepts Self-Study Problems CHAPTER 6 REGULATION OF EXTRACELLULAR FLUID VOLUME AND NaCl BALANCE Objectives Whole-Body Na+ Balance Concept of Effective Circulating Volume Volume-Sensing Systems Volume Sensors in the Low-Pressure Cardiopulmonary Circuit Volume Sensors in the High-Pressure Arterial Circuit Volume Sensor Signals Renal Sympathetic Nerves Renin-Angiotensin-Aldosterone System Natriuretic Peptides Arginine Vasopressin Control of Renal NaCl Excretion During Euvolemia Mechanisms for Maintaining Constant Na+ Delivery to the Distal Tubule in Euvolemia Regulation of Distal Tubule and Collecting Duct Na+ Reabsorption in Euvolemia Control of Na+ Excretion with Volume Expansion Control of Na+ Excretion with Volume Contraction Edema Alterations in Starling Forces Capillary Hydrostatic Pressure (Pc) Plasma Oncotic Pressure (pc) Lymphatic Obstruction Capillary Permeability Role of the Kidneys Summary Key Words and Concepts Self-Study Problems CHAPTER 7 REGULATION OF POTASSIUM BALANCE Objectives Overview of K+ Homeostasis Regulation of Plasma [K+] Epinephrine Insulin Aldosterone Alterations of Plasma [K+] Acid-Base Balance Plasma Osmolality Cell Lysis Exercise K+ Excretion by the Kidneys Cellular Mechanisms of K+ Transport by Principal Cells and Intercalated Cells in the Distal Tubule and Collecting Duct Regulation of K+ Secretion by the Distal Tubule and Collecting Duct Plasma [K+] Aldosterone Arginine Vasopressin Factors that Perturb K+ Excretion Flow of Tubular Fluid Acid-Base Balance Glucocorticoids Summary Key Words and Concepts Self-Study Problems CHAPTER 8 REGULATION OF ACID-BASE BALANCE Objectives Buffer System Overview of Acid-Base Balance Renal Net Acid Excretion Reabsorption Along the Nephron Regulation of H+ Secretion Formation of New Response to Acid-Base Disorders Extracellular and Intracellular Buffers Respiratory Compensation Renal Compensation Simple Acid-Base Disorders Metabolic Acidosis Metabolic Alkalosis Respiratory Acidosis Respiratory Alkalosis Analysis of Acid-Base Disorders Summary Key Words and Concepts Self-Study Problems CHAPTER 9 REGULATION OF CALCIUM AND PHOSPHATE HOMEOSTASIS Objectives Calcium Overview of Ca++ Homeostasis Ca++ Transport Along the Nephron Regulation of Urinary Ca++ Excretion Calcium-Sensing Receptor Phosphate Overview of Pi Homeostasis Pi Transport Along the Nephron Regulation of Urinary Pi Excretion Integrative Review of Parathyroid Hormone and Calcitriol on Ca++ and Pi Homeostasis Summary Key Words and Concepts Self-Study Problems CHAPTER 10 PHYSIOLOGY OF DIURETIC ACTION Objectives General Principles of Diuretic Action Sites of Action of Diuretics Response of Other Nephron Segments Adequate Delivery of Diuretics to Their Site of Action Volume of the Extracellular Fluid Diuretic Braking Phenomenon Mechanisms of Action of Diuretics Osmotic Diuretics Carbonic Anhydrase Inhibitors Loop Diuretics Thiazide Diuretics K+-Sparing Diuretics Aquaretics Effect of Diuretics on the Excretion of Water and Other Solutes Solute-Free Water K+ Excretion HCO Excretion Ca++ and Pi Excretion Summary Key Words and Concepts Self-Study Problems ADDITIONAL READING A P P E N D I X A INTEGRATIVE CASE STUDIES A P P E N D I X B NORMAL LABORATORY VALUES A P P E N D I X C NEPHRON FUNCTION A P P E N D I X D ANSWERS TO SELF-STUDY PROBLEMS A P P E N D I X E ANSWERS TO INTEGRATIVE CASE STUDIES A P P E N D I X F REVIEW EXAMINATION APPENDIX G ANSWERS TO REVIEW EXAMINATION INDEX

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Author Information

Bruce Koeppen, founding dean of the Frank H. Netter MD School of Medicine at Quinnipiac, recently received two prestigious awards: honored by the Patient is U Foundation - a nonprofit that aims to encourage human communication in health care and support both patients and providers and the (LCME) Liaison Committee on Medical Education's 2019 Distinguished Service Award. Bruce Stanton received the Unsung Hero Award in 2019 from the Cystic Fibrosis Foundation. He played a key role in the development of Vertex modulators and is connected with sparking the creation of a Patient Registry which has had an enormous impact on the length and quality of lives in CF patients.

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