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    Graphic anaesthesia : essential diagrams, equations and tables for anaesthesia / Tim Hooper, James Nickells, Sonja Payne, Annabel Pearson, Benjamin Walton.

    • Title:Graphic anaesthesia : essential diagrams, equations and tables for anaesthesia / Tim Hooper, James Nickells, Sonja Payne, Annabel Pearson, Benjamin Walton.
    •    
    • Author/Creator:Hooper, Tim, author.
    • Other Contributors/Collections:Nickells, James, author.
      Payne, Sonja, author.
      Pearson, Annabel, author.
      Walton, Benjamin, author.
    • Published/Created:Banbury, [Oxon] : Scion, 2015.
    • Holdings

       
    • Library of Congress Subjects:Anesthesia--Handbooks, manuals, etc.
      Anesthesia--Graphic methods.
    • Medical Subjects: Anaesthesia and Analgesia--statistics & numerical data.
    • Description:xv, 245 pages : illustrations (chiefly color) ; 25 cm
    • Notes:"...written with the FRCA examinations in mind"--Preface.
      Includes bibliographical references and index.
    • ISBN:9781907904332 (pbk.)
      1907904336 (pbk.)
    • Contents:Machine generated contents note: Section 1 Physiology
      1.1. Cardiac
      1.1.1. Cardiac action potential
      contractile cells
      1.1.2. Cardiac action potential
      pacemaker cells
      1.1.3. Cardiac action potential
      variation in pacemaker potential
      1.1.4. Cardiac cycle
      1.1.5. Cardiac output equation
      1.1.6. Central venous pressure waveform
      1.1.7. Central venous pressure waveform
      abnormalities
      1.1.8. Einthoven triangle
      1.1.9. Ejection fraction equation
      1.1.10. Electrocardiogram
      1.1.11. Electrocardiogram
      cardiac axis and QTc
      1.1.12. Fick method for cardiac output studies
      1.1.13. Frank
      Starling curve
      1.1.14. Oxygen flux
      1.1.15. Pacemaker nomenclature
      antibradycardia
      1.1.16. Pacemaker nomenclature
      antitachycardia (implantable cardioverter defibrillators)
      1.1.17. Preload, contractility and afterload
      1.1.18. Pulmonary artery catheter trace
      1.1.19. Systemic and pulmonary pressures
      1.1.20. Valsalva manoeuvre
      1.1.21. Valsalva manoeuvre
      clinical applications and physiological abnormalities
      1.1.22. Vaughan
      Williams classification
      1.1.23. Ventricular pressure
      volume loop
      left ventricle
      1.1.24. Ventricular pressure
      volume loop
      right ventricle
      1.2. Circulation
      1.2.1. Blood flow and oxygen consumption of organs
      1.2.2. Blood vessel structure
      1.2.3. Hagen
      Poiseuille equation
      1.2.4. Laminar and turbulent flow
      1.2.5. Laplace's law
      1.2.6. Ohm's law
      1.2.7. Starling forces in capillaries
      1.2.8. Starling forces in capillaries
      pathology
      1.2.9. Systemic vascular resistance
      1.3. Respiratory
      1.3.1. Alveolar gas equation
      1.3.2. Alveolar partial pressure of oxygen and blood flow
      1.3.3. Bohr equation
      1.3.4. Carbon dioxide dissociation curve and Haldane effect
      1.3.5. Closing capacity
      1.3.6. Dead space and Fowler's method
      1.3.7. Diffusion
      1.3.8. Dynamic compression of airways
      1.3.9. Fick principle and blood flow
      1.3.10. Forced expiration curves
      1.3.11. Functional residual capacity of the lungs
      1.3.12. Lung and chest wall compliance
      1.3.13. Lung pressure
      volume loop
      1.3.14. Lung volumes and capacities
      1.3.15. Oxygen cascade
      1.3.16. Oxygen dissociation curve and Bohr effect
      1.3.17. Pulmonary vascular resistance
      1.3.18. Pulmonary vascular resistance and lung volumes
      1.3.19. Respiratory flow
      volume loops
      1.3.20. Shunt
      1.3.21. Ventilation
      perfusion ratio
      1.3.22. Ventilatory response to carbon dioxide
      1.3.23. Ventilatory response to oxygen
      1.3.24. West lung zones
      1.3.25. Work of breathing
      1.4. Neurology
      1.4.1. Action potential
      1.4.2. Cerebral blood flow and blood pressure
      1.4.3. Cerebral blood flow variation with ventilation
      1.4.4. Cerebrospinal fluid
      1.4.5. Gate control theory of pain
      1.4.6. Glasgow Coma Scale
      1.4.7. Intracranial pressure
      volume relationship
      1.4.8. Intracranial pressure waveform
      1.4.9. Neuron
      1.4.10. Neurotransmitters
      action
      1.4.11. Neurotransmitters
      classification
      1.4.12. Reflex arc
      1.4.13. Synaptic transmission
      1.4.14. Types of nerve
      1.4.15. Visual pathway
      1.5. Renal
      1.5.1. Autoregulation of renal blood flow
      1.5.2. Clearance
      1.5.3. Glomerular filtration rate
      1.5. Loop of Henle
      1.5.5. Nephron
      1.5.6. Renin
      angiotensin
      aldosterone system
      1.6. Gut
      1.6.1. Bile
      1.6.2. Mediators of gut motility
      1.7. Acid
      base
      1.7.1. Acid
      base disturbances
      1.7.2. Anion gap
      1.7.3. Buffer solution
      1.7.4. Dissociation constant and pKa
      1.7.5. Henderson
      Hasselbalch equation
      1.7.6. Lactic acidosis
      1.7.7. pH
      1.7.8. Strong ion difference
      1.8. Metabolic
      1.8.1. Krebs cycle
      1.8.2. Liver lobule
      1.8.3. Nutrition and energy
      1.8.4. Vitamins
      sources and function
      1.8.5. Vitamins
      toxicity and deficiency
      1.9. Endocrine
      1.9.1. Adrenal gland
      1.9.2. Adrenergic receptor actions
      1.9.3. Catecholamine synthesis
      1.9.4. Hypothalamic
      pituitary
      adrenal axis
      anatomy
      1.9.5. Hypothalamic
      pituitary
      adrenal axis
      hormones
      1.9.6. Vitamin D synthesis
      1.10. Body fluids
      1.10.1. Body fluid composition
      1.10.2. Fluid compartments
      1.10.3. Intravenous fluid composition
      1.11. Haematology
      1.11.1. Antibody
      1.11.2. Blood groups
      1.11.3. Coagulation
      cascade (classic) model
      1.11.4. Coagulation
      cell-based model
      1.11.5. Complement cascade
      1.11.6. Haemoglobin
      1.11.7. Prostanoid synthesis
      1.12. Cellular
      1.12.1. Cell
      1.12.2. Cell membrane
      1.12.3. G-proteins
      1.12.4. Ion channels
      1.12.5. Sodium/potassium
      ATPase pump
      1.13. Muscle
      1.13.1. Actin
      myosin cycle
      1.13.2. Golgi tendon organ
      1.13.3. Muscle spindle
      1.13.4. Muscle types
      1.13.5. Neuromuscular junction
      1.13.6. Sarcomere
      1.13.7. Skeletal muscle structure
      Section 2 Anatomy
      2.1. Abdominal wall
      2.2. Antecubital fossa
      2.3. Autonomic nervous system
      2.4. Base of skull
      2.5. Brachial plexus
      2.6. Bronchial tree
      2.7. Cardiac vessels
      cardiac veins
      2.8. Cardiac vessels
      coronary arteries
      2.9. Circle of Willis
      2.10. Cranial nerves
      2.11. Cross-section of neck at C6
      2.12. Cross-section of spinal cord
      2.13. Dermatomes
      2.14. Diaphragm
      2.15. Epidural space
      2.16. Femoral triangle
      2.17. Fetal circulation
      2.18. Intercostal space
      2.19. Internal jugular vein
      2.20. Laryngeal innervation
      2.21. Larynx
      2.22. Limb muscle innervation (myotomes)
      2.23. Lumbar plexus
      2.24. Nose
      2.25. Orbit
      2.26. Rib
      2.27. Sacral plexus
      2.28. Sacrum
      2.29. Spinal nerve
      2.30. Thoracic inlet and first rib
      2.31. Vertebra
      Section 3 Pharmacodynamics And Kinetics
      3.1. Clearance
      3.2. Compartment model
      one and two compartments
      3.3. Compartment model
      three compartments
      3.4. Dose
      response curves
      3.5. Elimination
      3.6. Elimination kinetics
      3.7. Half-lives and time constants
      3.8. Meyer
      Overton hypothesis
      3.9. Volume of distribution
      3.10. Wash-in curves for volatile agents
      Section 4 Drugs
      4.1. Anaesthetic agents
      etomidate
      4.2. Anaesthetic agents
      ketamine
      4.3. Anaesthetic agents
      propofol
      4.4. Anaesthetic agents
      thiopentone
      4.5. Local anaesthetics
      mode of action
      4.6. Local anaesthetics
      properties
      4.7. Neuromuscular blockers
      mode of action
      4.8. Neuromuscular blocking agents
      depolarizing
      4.9. Neuromuscular blocking agents
      non-depolarizing
      4.10. Opioids
      mode of action
      4.11. Opioids
      properties
      4.12. Volatile anaesthetic agents
      mode of action
      4.13. Volatile anaesthetic agents
      physiological effects
      4.14. Volatile anaesthetic agents
      properties
      Section 5 Physics
      5.1. Avogadro's law
      5.2. Beer
      Lambert law
      5.3. Critical temperatures and pressure
      5.4. Diathermy
      5.5. Doppler effect
      5.6. Electrical safety
      5.7. Electricity
      5.8. Exponential function
      5.9. Fick's law of diffusion
      5.10. Gas laws
      Boyle's law
      5.11. Gas laws
      Charles' law
      5.12. Gas Laws
      Gay-Lussac's (Third Perfect) law
      5.13. Gas laws
      ideal gas law and Dalton's law
      5.14. Graham's law
      5.15. Heat
      5.16. Henry's law
      5.17. Humidity
      5.18. Laser
      5.19. Metric prefixes
      5.20. Power
      5.21. Pressure
      5.22. Raman effect
      5.23. Reflection and refraction
      5.24. SI units
      5.25. Triple point of water and phase diagram
      5.26. Types of flow
      5.27. Wave characteristics
      5.28. Wheatstone bridge
      5.29. Work
      Section 6 Clinical Measurement
      6.1. Bourdon gauge
      6.2. Clark electrode
      6.3. Damping
      6.4. Fuel cell
      6.5. Monitoring of neuromuscular blockade
      6.6. Oximetry
      paramagnetic analyser
      6.7. pH measuring system
      6.8. Pulse oximeter
      6.9. Severinghaus carbon dioxide electrode
      6.10. Temperature measurement
      6.11. Thermocouple and Seebeck effect
      Section 7 Equipment
      7.1. Bag valve mask resuscitator
      7.2. Breathing circuits
      circle system
      7.3. Breathing circuits
      Mapleson's classification
      7.4. Cleaning and decontamination
      7.5. Continuous renal replacement therapy
      extracorporeal circuit
      7.6. Continuous renal replacement therapy
      modes
      7.7. Gas cylinders
      7.8. Humidifier
      7.9. Oxygen delivery systems
      Bernoulli principle and Venturi effect
      7.10. Piped gases
      7.11. Scavenging
      7.12. Vacuum-Insulated evaporator
      7.13. Vaporizer
      7.14. Ventilation
      pressure-controlled
      7.15. Ventilation
      volume-controlled
      Section 8 Statistics
      8.1. Mean, median and mode
      8.2. Normal distribution
      8.3. Number needed to treat
      8.4. Odds ratio
      8.5. Predictive values
      8.6. Sensitivity and specificity
      8.7. Significance tests
      8.8. Statistical variability.
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