Physics in Anaesthesia, 2nd edition

Length: 360 pages
Edition: 2
Language: English
Publisher: Scion Publishing Ltd.
Publication Date: 2021-09-15
ISBN-10: 1911510800
ISBN-13: 9781911510802
Sales Rank: #2079973 (See Top 100 Books)

Much of anesthetic practice is underpinned by physics, yet many struggle when studying the subject. This book has been written with the aim of helping those who have long since parted company with physics.
follow site This new edition has been comprehensively updated, but the content remains aligned with the UK FRCA syllabus, making https://aalamsalon.com/mub3f5bbh Physics in Anaesthesia ideal for trainee anesthetists, as well as for operating department practitioners and anesthetic nurses. In addition, clinical science and engineering students will appreciate the linking of theory and practice. see Physics in Anaesthesia gives a complete and structured overview:

Explanations start from first principles
Simple everyday examples are used to illustrate core concepts
Clinical examples highlight the applications of physics in anesthesia
Worked examples and helpful diagrams develop understanding
https://www.annarosamattei.com/?p=3po16wy9 Completely revised MCQs/SBAs now available online with hints and tips, plus answers

https://townofosceola.com/3qu5polion Five-star reviews of the previous edition

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“I’m an anaesthetic trainee and I am finding this book very helpful… Important equations are highlighted and there are “Clinical applications” boxes throughout to put the information into context.”

“ https://colvetmiranda.org/mi1j5el6qla go Essential book for trainee anaesthetists undertaking primary FRCA go site , Well written and easy to read.”

“Very good, simple terminology compared to other physics FRCA primary texts, and covers the required topics.”

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Cover Page
Half Title
Full Title
Copyright
Contents
Foreword
Preface
Acknowledgements
About the authors
Abbreviations
1 - Atoms and matter
    1.1 - The atom
    1.2 - States of matter
    1.3 - Phase diagrams
2 - Simple mechanics
    2.1 - Force, velocity and acceleration
    2.2 - Force, weight and pressure
    2.3 - Viscosity
    2.4 - Surface tension and wall tension
    2.5 - Surfactant and surface tension
3 - Energy and power
    3.1 - Work and energy
    3.2 - Efficiency and power
    3.3 - Work of respiration
    3.4 - Compliance
    3.5 - Work done during spontaneous breathing
    3.6 - Flow characteristics during breathing
    3.7 - Work done by the heart
4 - Temperature and heat
    4.1 - Heat
    4.2 - Temperature
    4.3 - Transfer of heat
    4.4 - Black-body radiation
    4.5 - Regulation of body temperature
    4.6 - Measuring temperature
    4.7 - Laws of thermodynamics
5 - Waves
    5.1 - Properties of waves
    5.2 - Sound waves
    5.3 - Electromagnetic waves
    5.4 - Simple harmonic motion
    5.5 - Resonance and damping
    5.6 - Harmonic series and Fourier analysis
    5.7 - The Doppler effect
    5.8 - Flux, intensity and luminance
6 - Pressure measurement
    6.1 - Absolute and relative pressure
    6.2 - Simple pressure-measuring devices
    6.3 - Pressure relief valves
    6.4 - Pressure regulator valves
    6.5 - The siphon effect and air entrainment
    6.6 - Blood pressure
    6.7 - Non-invasive blood pressure measurement
    6.8 - Invasive blood pressure monitoring
7 - Humidity
    7.1 - Water vapour content of air
    7.2 - Absolute and relative humidity
    7.3 - Measuring humidity
    7.4 - Humidity and human physiology
    7.5 - Humidification of inhaled air
    7.6 - Nebulizers
    7.7 - Aerosol generating procedures
8 - Measurement of gas flow
    8.1 - Flow
    8.2 - Laminar flow
    8.3 - Turbulent flow
    8.4 - Bernoulli’s principle
    8.5 - The Venturi effect
    8.6 - The Coanda effect
    8.7 - Volume and flow measurement
9 - The gas laws
    9.1 - The ideal gas
    9.2 - Avogadro’s law and Avogadro’s constant
    9.3 - Partial pressure
    9.4 - Boyle’s law
    9.5 - Charles’s law
    9.6 - The pressure law: Gay-Lussac’s law
    9.7 - The combined gas laws
    9.8 - The universal gas law
10 - Diffusion, osmosis and solubility
    10.1 - Diffusion
    10.2 - Diffusion of respiratory and anaesthetic gases
    10.3 - Lung function test of pulmonary diffusing capacity
    10.4 - Osmosis
    10.5 - Solubility
    10.6 - Partition coefficient
    10.7 - Colligative properties of solutions
11 - Measuring gas and vapour concentrations
    11.1 - Respiratory gas monitoring
    11.2 - Infrared absorption spectroscopy for gases
    11.3 - Capnography
    11.4 - Paramagnetic oxygen analysers
    11.5 - Electrochemical cells
    11.6 - Electrodes used in arterial blood gas analysis
    11.7 - Other gas monitoring techniques
12 - Vaporizers
    12.1 - Introduction to vaporizers
    12.2 - The draw-over vaporizer
    12.3 - Variable bypass vaporizers
    12.4 - Factors affecting delivered concentration of anaesthetic agent
    12.5 - Direct injection vaporizers
    12.6 - The dual circuit vaporizer: a vaporizer to deliver desflurane
    12.7 - Vaporizers functioning at altered atmospheric pressures
13 - Medical gas supplies
    13.1 - General principles of compressed gas cylinders
    13.2 - Gas that liquefies in a cylinder
    13.3 - Piped medical gas
    13.4 - Vacuum and suction
    13.5 - Combustion risk
14 - Breathing systems and ventilation
    14.1 - Key components in breathing systems
    14.2 - The circle system
    14.3 - The Mapleson classification
    14.4 - Mapleson A, B and C systems
    14.5 - Mapleson D, E and F systems
    14.6 - Minimizing pollutants in the theatre environment
    14.7 - Ventilators
    14.8 - Ventilator designs
    14.9 - Modes of ventilation
    14.10 - Non-invasive ventilation
    14.11 - Negative pressure ventilation
15 - Optics
    15.1 - Refraction
    15.2 - Optical fibres
    15.3 - Fibreoptic endoscopes
    15.4 - Absorption of light: Beer’s law
    15.5 - Haemoglobin absorption spectra
    15.6 - Pulse oximetry
    15.7 - Trans-cranial near-infrared spectroscopy
    15.8 - CO-oximetry
16 - Blood flow measurement
    16.1 - Measurement of liquid flow
    16.2 - Dye dilution and washout curves
    16.3 - Thermodilution – pulmonary artery catheter
    16.4 - Lithium chloride dilution
    16.5 - Doppler velocity and flow measurement
17 - Equipment management
    17.1 - Equipment management principles
    17.2 - Safety critical systems
    17.3 - Calibration
    17.4 - Cleaning and disinfection
    17.5 - Sterilization
18 - Basics of electricity
    18.1 - Electric current
    18.2 - Electric potential
    18.3 - Electrical resistance
    18.4 - Rules of electrical circuits
    18.5 - Electrical power and energy
    18.6 - Resistor combinations
    18.7 - Measuring small physiological changes: the Wheatstone bridge
19 - Electromagnetism and alternating current
    19.1 - Magnetic fields
    19.2 - Electromagnetism
    19.3 - Alternating current and power
    19.4 - Transformers
    19.5 - High voltage power transmission
20 - Electrical shocks and safety
    20.1 - Electrocution
    20.2 - Earthing
    20.3 - Electrical safety devices
    20.4 - Micro-shock
    20.5 - Electrical safety standards
    20.6 - Static electricity
    20.7 - Current density and electro-surgery
21 - Electrocardiography, pacing and defibrillation
    21.1 - Capacitance
    21.2 - Defibrillators
    21.3 - Biological potentials
    21.4 - Electrocardiography
    21.5 - Potentials in skeletal muscle: electromyography
    21.6 - Potentials in the brain: electroencephalogram
    21.7 - Cardiac pacemakers
22 - Processing, storage and display
    22.1 - The ‘black box’
    22.2 - Transducers and signal pick-up
    22.3 - Signal conditioning
    22.4 - Analogue-to-digital conversion
    22.5 - Hardware, software and operating systems
    22.6 - Displays
    22.7 - Networking and electronic records
23 - Ultrasound
    23.1 - Ultrasound waves
    23.2 - Imaging modes
    23.3 - Attenuation
    23.4 - Reflection and acoustic impedance
    23.5 - Resolution
    23.6 - Cardiac ultrasound: TOE and TTE
    23.7 - Therapeutic ultrasound
24 - Lasers
    24.1 - The principle of the laser
    24.2 - Types of medical laser
    24.3 - Precautions with laser treatment
25 - Magnetic resonance imaging
    25.1 - Principles of magnetic resonance imaging
    25.2 - Safety considerations
26 - Nuclear physics and radiation
    26.1 - Radioactivity
    26.2 - Radiation
    26.3 - Radioactive decay and half-life
    26.4 - Ionizing radiation
    26.5 - Radiotherapy
    26.6 - X-rays: transmission, production and imaging
    26.7 - Scintigraphy and SPECT scans
    26.8 - Positron emission tomography
    26.9 - X-ray computed tomography
27 - Basic mathematical concepts
    27.1 - Basics
    27.2 - Very large and very small numbers
    27.3 - Functions
    27.4 - Trigonometry
    27.5 - Calculus
    27.6 - Exponential growth
    27.7 - Exponential decay
28 - Physical quantities and SI units
    28.1 - Physical constants
    28.2 - Fundamental and derived SI units
    28.3 - Standard prefixes for SI units
    28.4 - Respiratory and gas quantities
29 - Statistics
    29.1 - Errors, uncertainty and averages
    29.2 - Study design
    29.3 - Outcome measures and the uncertainty of their definition
    29.4 - The basis of meta-analysis and evidence-based medicine (EBM)
    29.5 - Types of data and their representation
    29.6 - Parametric and non-parametric distributions
    29.7 - Indices of central tendency and variability
    29.8 - Common statistical tests
Index