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Essential Equations for Anaesthesia - Edward T. Gilbert-Kawai, Marc D. Wittenberg

Essential Equations for Anaesthesia

Key Clinical Concepts for the FRCA and EDA
Buch | Softcover
218 Seiten
2014
Cambridge University Press (Verlag)
978-1-107-63660-6 (ISBN)
CHF 78,50 inkl. MwSt
Written for candidates preparing for postgraduate anaesthesia examinations, this book concisely covers all of the relevant equations that may come up in questions. Each equation is simply explained and put into a clinical context, with a worked example or clinical application, and derivations provided where necessary.
A sound knowledge of equations and their use, derivation and clinical application is an absolute prerequisite for any anaesthetist. As a result, equations are a favourite question topic of examiners, particularly in the viva examinations. Many candidates answer these poorly, losing valuable marks and floundering when they face what they perceive as 'nightmare' questions. This book provides a simple, portable, reference guide to all the equations that candidates may be asked about during their examinations. The content is split into four sections: physics, pharmacology, physiology and statistics. Each equation is clearly explained, derived where necessary, and placed into a clinical context using a worked or clinically relevant example to demonstrate its use. Units and relevant terms are given and, where required, clear, concise diagrams have also been provided to simplify understanding. Written by anaesthetic trainees, this is an essential resource for preparation for the FRCA, EDA and other anaesthetic examinations.

Dr Edward Gilbert-Kawai is an Anaesthetic Registrar and the Senior Research Fellow at the Centre of Altitude, Space and Extreme Environment Medicine, University College London, London, UK. Dr Marc Wittenberg is a Senior Anaesthetic Registrar and Clinical Fellow at NHS England and the BMJ, UK.

Preface; Foreword; Part I. Physics: Section 1A. Gases: 1. Boyle's law; 2. Charles' law; 3. Gay–Lussac's law; 4. Avogadro's law; 5. Universal gas equation; 6. Dalton's law of partial pressures; 7. Henry's law; 8. Graham's law of diffusion; Section 1B. Pressure and Flow: 1. Pressure and force; 2. Hagen–Poiseuille equation and laminar flow; 3. Reynold's number and turbulent flow; 4. Laplace's law and tension; 5. Bernoulli equation and Venturi effect; Section 1C. Electricity: 1. Ohm's law: voltage, current and resistance; 2. Capacitance; 3. Inductance; 4. Work and power; 5. Transformers; 6. Electrical charge; Section 1D. Other: 1. Doppler equation and Doppler effect; 2. Beer–Lambert law; 3. Humidity; 4. Natural frequency; 5. Wave equation and ultrasound; Part II. Pharmacology: Section 2A. Pharmacokinetics: 1. Bioavailability; 2. Volume of distribution; 3. Clearance; 4. Hepatic clearance; 5. Concentration and elimination; 6. Plasma concentration and compartment models; 7. Loading dose and maintenance dose; 8. Exponential function and rate constant; 9. Half life and context-sensitive half life; 10. Time constant; 11. Rates of reaction; 12. Michaelis–Menten equation; Section 2B. Pharmacodynamics: 1. Drug-receptor dissociation constant and affinity; 2. Therapeutic index; Part III. Physiology: Section 3A. Cardiovascular: 1. Cardiac output and cardiac index; 2. Stroke volume; 3. Ventricular stroke work and index; 4. Ejection fraction and fractional area change; 5. Coronary perfusion pressure and coronary blood flow; 6. Bazett's formula – QT interval corrected; 7. The Fick principle – cardiac output measurement; 8. The Fick equation – oxygen uptake measurement; 9. Mean arterial pressure; 10. Venous return; 11. Total blood volume; 12. Systemic vascular resistance; 13. Uterine blood flow; 14. Stewart-Hamilton equation; 15. Oxygen delivery; 16. Oxygen extraction ratio; 17. Oxygen content; 18. The dilution principle – measurement of fluid compartment volume; Section 3B. Respiratory: 1. Diffusing capacity; 2. Compliance; 3. Bohr equation; 4. Alveolar ventilation equation; 5. Alveolar gas equation; 6. Helium dilution technique; 7. Spirometry: forced expiration; 8. Lung volumes and capacities; 9. Respiratory quotient (and respiratory exchange ratio); 10. Shunt equation; 11. Pulmonary vascular resistance; Section 3C. Renal: 1. Renal filtration fraction; 2. Renal clearance and Cockcroft–Gault formula; 3. Starling's equation – rate of filtration; 4. Fick's law of diffusion; Section 3D. Cellular, Biochemical and Acid-base: 1. Osmolality, osmolarity and the osmolar gap; 2. Morse equation and osmotic pressure; 3. Anion gap; 4. Goldman equation; 5. Gibbs–Donnan effect; 6. Nernst equation; 7. pH; 8. pKa; 9. Acid-base compensation simplified; 10. Henderson–Hasselbalch equation; Section 3E. Neurological: 1. Cerebral perfusion pressure and intracranial pressure; 2. Intraocular pressure; Part IV. Statistics: 1. Binary classification tests and 2x2 tables; 2. Negative predictive value; 3. Positive predictive value; 4. Specificity; 5. Sensitivity; 6. Relative risk; 7. Relative risk reduction; 8. Absolute risk reduction; 9. Accuracy of test; 10. Chi-squared test; 11. Likelihood ratio; 12. Standard error of mean; 13. Standard deviation and variance; 14. Power; 15. Odds ratio; Appendix: 1. The international system of units; 2. Units of measurement; Index.

Erscheint lt. Verlag 8.5.2014
Zusatzinfo 24 Tables, black and white; 10 Line drawings, unspecified
Verlagsort Cambridge
Sprache englisch
Maße 156 x 235 mm
Gewicht 330 g
Themenwelt Medizin / Pharmazie Medizinische Fachgebiete Anästhesie
ISBN-10 1-107-63660-4 / 1107636604
ISBN-13 978-1-107-63660-6 / 9781107636606
Zustand Neuware
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