Primary FRCA in a Box 2nd Edition by Sarah Armstrong, Barry Clifton, Lionel Davis 9781444180633 0429577869
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Product details:
ISBN 10: 0429577869
ISBN 13: 9781444180633
Author: Sarah Armstrong; Barry Clifton; Lionel Davis
Table of contents:
Chapter 1: Measuring System Characteristics
Chapter 2: Measurement Systems – Dynamic Characteristics
Chapter 3: Resonance and Damping, Frequency Response
Chapter 4: Calibration
Chapter 5: Mathematical Concepts
Chapter 6: Logarithms and Exponentials
Chapter 7: Exponential Processes
Chapter 8: Randomised Controlled Trials
Chapter 9: Errors, Power, Sensitivity, Specificity, PPV, Accuracy, RRR, ARR, NNT
Chapter 10: Types of Data and Their Representation
Chapter 11: Choice of Simple Statistical Tests for Different Data Types
Chapter 12: Base SI Units
Chapter 13: Electrical and Magnetic Derived Units
Chapter 14: Simple Mechanics and Pressure
Chapter 15: The Gas Laws – for Ideal Gases
Chapter 16: Pressure Measurement in Gases
Chapter 17: Pressures of Anaesthetic Equipment
Chapter 18: Gases and Vapours
Chapter 19: Heat and Laws of Thermodynamics
Chapter 20: Temperature Definitions
Chapter 21: Measurement of Temperature
Chapter 22: Clinical Aspects of Heat and Temperature
Chapter 23: Humidity
Chapter 24: Humidifiers
Chapter 25: Electricity – Basic Concepts
Chapter 26: Electrical Interference
Chapter 27: Measurement of Neuromuscular Blockade
Chapter 28: Electrical Hazards – Causes
Chapter 29: Electrical Hazards – Prevention
Chapter 30: Principles of Lasers
Chapter 31: Laser Safety
Chapter 32: Wheatstone Bridge
Chapter 33: MRI Scanners and Anaesthesia
Chapter 34: Principles of Cardiac Pacemakers
Chapter 35: Defibrillators
Chapter 36: Diathermy
Chapter 37: Laminar and Turbulent Flow
Chapter 38: Bernoulli Principle
Chapter 39: Surface Tension
Chapter 40: Measurement of Volume and Flow in Gases and Liquids
Chapter 41: The Rotameter
Chapter 42: Ultrasound and the Doppler Effect
Chapter 43: Simple Tests of Pulmonary Function
Chapter 44: Tests of Gas Exchange
Chapter 45: Minimum (Essential) Monitoring Standards
Chapter 46: Principles of Pressure Transducers
Chapter 47: Principles of Pulmonary Artery and Wedge Pressure Measurement
Chapter 48: Measurement of Cardiac Output
Chapter 49: Capnography
Chapter 50: Pulse Oximetry
Chapter 51: Measurement of Gas and Vapour Concentrations
Chapter 52: Measurement of pH, pCO2, PO2, Derived Measurements
Chapter 53: Oxygen Consumption, Carbon Dioxide Production, and Respiratory Quotient
Chapter 54: Classification of Vaporizers
Chapter 55: Types of Vaporizers
Chapter 56: Methods of Killing Contaminating Organisms
Chapter 57: Classification of Ventilators
Chapter 58: Breathing Systems
Chapter 59: Scavenging
Chapter 60: Carbon Dioxide Absorbers
Chapter 61: Suction
Chapter 62: Effects of Old Age on Anaesthesia
Chapter 63: The Cell
Chapter 64: Cell Membrane Characteristics
Chapter 65: Acid–Base Balance
Chapter 66: Buffers
Chapter 67: Sodium
Chapter 68: Potassium
Chapter 69: Causes of Acid–Base Disturbances
Chapter 70: Bicarbonate and Phosphate
Chapter 71: Calcium
Chapter 72: Magnesium
Chapter 73: Chloride
Chapter 74: Body Fluid Compartments
Chapter 75: Osmolality and Osmolarity
Chapter 76: Cerebrospinal Fluid
Chapter 77: Other Body Fluids: Pleural, Pericardial
Chapter 78: Other Body Fluids: Lymph, Intraocular
Chapter 79: Blood Groups
Chapter 80: Immune Responses
Chapter 81: Inflammation
Chapter 82: Haemostasis
Chapter 83: Clotting Cascade
Chapter 84: Haemoglobin
Chapter 85: Resting Membrane Potential
Chapter 86: Action Potentials
Chapter 87: Organisation of the Nervous System
Chapter 88: Special Senses
Chapter 89: Intracranial Pressure and Cerebral Blood Flow
Chapter 90: The Vasomotor Centre
Chapter 91: Sympathetic and Parasympathetic Nervous Systems
Chapter 92: Spinal Cord
Chapter 93: Spinal Cord Anatomy
Chapter 94: Pain Pathways
Chapter 95: Intraocular Pressure
Chapter 96: Nausea and Vomiting
Chapter 97: Neuromuscular Junction
Chapter 98: Muscle Types and Contraction
Chapter 99: Muscle Components
Chapter 100: Sarcomere
Chapter 101: Myopathies
Chapter 102: Cardiac Action Potentials
Chapter 103: Cardiac Definitions
Chapter 104: Control of Blood Pressure
Chapter 105: Cardiac Cycle
Chapter 106: Pressure–Volume Loop for the Left Ventricle
Chapter 107: Cardiovascular Response to Haemorrhage
Chapter 108: Frank–Starling Law of the Heart
Chapter 109: Valsalva Manoeuvre
Chapter 110: Exercise
Chapter 111: Pressures within the Normal Heart and Pulmonary Circulation
Chapter 112: Coronary Artery Blood Supply
Chapter 113: Special Circulations
Chapter 114: Pulmonary Vascular Resistance
Chapter 115: Central Venous Pressure
Chapter 116: Structure and Function of the Kidney
Chapter 117: The Glomerulus
Chapter 118: Renal Tubular Function
Chapter 119: Loop of Henle, DCT, and Collecting Duct
Chapter 120: Renal Glucose Handling
Chapter 121: Renal Blood Flow
Chapter 122: Assessment of Renal Function
Chapter 123: Pathophysiology of Acute Kidney Injury
Chapter 124: Oxygen Dissociation Curve
Chapter 125: Work of Breathing
Chapter 126: FRC and Closing Capacity
Chapter 127: Hyperbaric and Hypobaric Pressure
Chapter 128: Carbon Dioxide Stores and Transport
Chapter 129: Oxygen Stores and Transport
Chapter 130: Control of Breathing
Chapter 131: Ventilation–Perfusion Relationships in the Lungs
Chapter 132: Dead Space
Chapter 133: Lung Volumes and Capacities
Chapter 134: Respiratory Failure
Chapter 135: Oxygen Cascade and Alveolar Gas Equation
Chapter 136: Airways Resistance and Compliance
Chapter 137: Flow-Volume Loops of the Lungs
Chapter 138: The Liver
Chapter 139: The Pancreas
Chapter 140: Gastric Secretion
Chapter 141: Gut Motility – Functional Anatomy
Chapter 142: Nutrition Overview
Chapter 143: Essential Amino Acids and Fatty Acids
Chapter 144: Carbohydrate Metabolism – Overview
Chapter 145: Metabolism
Chapter 146: Obesity and Anaesthesia
Chapter 147: Temperature Regulation
Chapter 148: Control of Blood Glucose
Chapter 149: Hormones
Chapter 150: Hypothalamus and Pituitary Gland
Chapter 151: Adrenal Gland
Chapter 152: Catecholamines
Chapter 153: Thyroid Gland
Chapter 154: Changes in Pregnancy
Chapter 155: Placenta
Chapter 156: Fetal Circulation
Chapter 157: Lactation
Chapter 158: Drug Interactions
Chapter 159: Lipid Solubility and Protein Binding
Chapter 160: Isomerism
Chapter 161: Malignant Hyperpyrexia
Chapter 162: Materno-Fetal Drug Distribution
Chapter 163: Addiction and Dependence
Chapter 164: Absorption of Drugs
Chapter 165: Drug Distribution
Chapter 166: Drug Metabolism
Chapter 167: Elimination and Excretion
Chapter 168: Agonists and Antagonists
Chapter 169: Ionization and pKa
Chapter 170: Receptors
Chapter 171: G Protein–Coupled Receptor
Chapter 172: GABA
Chapter 173: Analgesics – Aspirin and Paracetamol
Chapter 174: Opioids – Definitions and Receptors
Chapter 175: Opioids – Common Effects
Chapter 176: Comparative Features of Opioids
Chapter 177: NSAIDs
Chapter 178: IV Anaesthetics – General Principles
Chapter 179: TIVA and Context-Sensitive Half-Time
Chapter 180: Propofol and Thiopentone
Chapter 181: Ketamine and Etomidate
Chapter 182: Benzodiazepines – General Principles
Chapter 183: Midazolam and Diazepam
Chapter 184: Inhalational Anaesthetics – General Principles
Chapter 185: Minimum Alveolar Concentration
Chapter 186: Speed of Onset of Volatile Anaesthetics
Chapter 187: Important Structures – Inhaled and IV Anaesthetics
Chapter 188: Inhaled Anaesthetics – Common Properties
Chapter 189: Oxygen
Chapter 190: Nitrous Oxide
Chapter 191: Non-Depolarizing Muscle Relaxants
Chapter 192: Rocuronium and Atracurium
Chapter 193: Suxamethonium
Chapter 194: Local Anaesthetics
Chapter 195: Local Anaesthetic Toxicity
Chapter 196: Inotropes
Chapter 197: Adrenaline and Noradrenaline
Chapter 198: Phosphodiesterase III Inhibitors
Chapter 199: Alpha-Antagonists
Chapter 200: Alpha Agonists
Chapter 201: Antihypertensive Drugs
Chapter 202: Glyceryl Trinitrate and Sodium Nitroprusside
Chapter 203: Hydralazine and Nifedipine
Chapter 204: Beta Blockers
Chapter 205: Drugs Used in Ischaemic Heart Disease
Chapter 206: Antiarrhythmics
Chapter 207: Digoxin
Chapter 208: Antidepressants
Chapter 209: Phenytoin, Carbamazepine, and Sodium Valproate
Chapter 210: Antiemetics
Chapter 211: Cyclizine
Chapter 212: Anticholinesterases
Chapter 213: Warfarin and Heparin
Chapter 214: Oral Drugs Used in Diabetes
Chapter 215: Antimicrobial Drugs
Chapter 216: Diuretics
Chapter 217: Corticosteroids and Drugs Used in Thyroid Disease
Chapter 218: Colloids and Crystalloids
Chapter 219: Drugs that Act on Gastrointestinal Tract
Chapter 220: Antiparkinsonian Drugs
Chapter 221: Anatomy of the Larynx
Chapter 222: Anatomy of the Nose
Chapter 223: Mediastinum and Diaphragm
Chapter 224: Tracheobronchial Tree
Chapter 225: Thoracic Inlet and First Rib
Chapter 226: Structure of the Heart and Great Vessels
Chapter 227: Bones of the Skull
Chapter 228: Cerebral Arterial Supply
Chapter 229: Epidural and Paravertebral Space
Chapter 230: Cutaneous Nerves of Upper and Lower Limbs
Chapter 231: Brachial Plexus and Stellate Ganglion
Chapter 232: Anatomy of the Vagus Nerve
Chapter 233: Trigeminal Nerve
Chapter 234: Anatomy of the Orbit
Chapter 235: Cranial Nerves
Chapter 236: Internal Jugular Vein
Chapter 237: Sacral Anatomy and Caudals
Chapter 238: Vertebrae
Chapter 239: Surface Anatomy – Antecubital Fossa, Axilla
Chapter 240: Surface Anatomy – Abdominal Wall, Femoral Triangle, Lumbar Plexus
Chapter 241: Sacral Plexus and Sciatic Nerve
Chapter 242: Lower Limb Blocks
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Tags: Sarah Armstrong, Barry Clifton, Lionel Davis, Primary