Book contents
- Frontmatter
- Contents
- Introduction
- How to use this book
- Abbreviations
- Acknowledgements
- DRUGS: AN A–Z GUIDE
- SHORT NOTES
- Routes of administration
- Loading dose
- Drug metabolism
- Enzyme systems
- Drug excretion
- Drug tolerance
- Drug interactions
- Therapeutic drug monitoring
- Target range of concentration
- Pharmacology in the critically ill
- Cardiopulmonary resuscitation
- Drugs in advanced life support
- Management of acute major anaphylaxis
- Management of severe hyperkalaemia
- Management of malignant hyperthermia
- Sedation, analgesia and neuromuscular blockade
- A practical approach to sedation and analgesia
- Opioid Conversion table
- Management of status epilepticus
- Prevention of delirium tremens and alcohol withdrawal syndrome
- Prevention of Wernicke–Korsakoffsyndrome
- Anti-arrhythmic drugs
- Inotropes and vasopressors
- Bronchospasm
- Anti-ulcer drugs
- Immunonutrition in the ICU
- Corticosteroids
- Short synacthen test
- Bone marrow rescue following nitrous oxide
- Antioxidants
- Post-splenectomy prophylaxis
- Anti-microbial drugs
- Bacterial gram staining
- Antibiotics: sensitivities
- Renal replacement therapy
- Extracorporeal drug clearance: basic principles
- Drug doses in renal failure/renal replacement therapy
- Chemical pleurodesis of malignant pleural effusion
- APPENDICES
- DRUG INDEX
- IV COMPATIBILITY CHART
Drug tolerance
Published online by Cambridge University Press: 05 November 2014
- Frontmatter
- Contents
- Introduction
- How to use this book
- Abbreviations
- Acknowledgements
- DRUGS: AN A–Z GUIDE
- SHORT NOTES
- Routes of administration
- Loading dose
- Drug metabolism
- Enzyme systems
- Drug excretion
- Drug tolerance
- Drug interactions
- Therapeutic drug monitoring
- Target range of concentration
- Pharmacology in the critically ill
- Cardiopulmonary resuscitation
- Drugs in advanced life support
- Management of acute major anaphylaxis
- Management of severe hyperkalaemia
- Management of malignant hyperthermia
- Sedation, analgesia and neuromuscular blockade
- A practical approach to sedation and analgesia
- Opioid Conversion table
- Management of status epilepticus
- Prevention of delirium tremens and alcohol withdrawal syndrome
- Prevention of Wernicke–Korsakoffsyndrome
- Anti-arrhythmic drugs
- Inotropes and vasopressors
- Bronchospasm
- Anti-ulcer drugs
- Immunonutrition in the ICU
- Corticosteroids
- Short synacthen test
- Bone marrow rescue following nitrous oxide
- Antioxidants
- Post-splenectomy prophylaxis
- Anti-microbial drugs
- Bacterial gram staining
- Antibiotics: sensitivities
- Renal replacement therapy
- Extracorporeal drug clearance: basic principles
- Drug doses in renal failure/renal replacement therapy
- Chemical pleurodesis of malignant pleural effusion
- APPENDICES
- DRUG INDEX
- IV COMPATIBILITY CHART
Summary
Tolerance to a drug will over time diminish its effectiveness. Tolerance to the effects of opioids is thought to be a result of a change in the receptors. Other receptors will become less sensitive with a reduction in their number over time when stimulated with large amounts of drug or endogenous agonist, for example catecholamines. Tolerance to the organic nitrates may be the result of the reduced metabolism of these drugs to the active molecule, nitric oxide, as a result of a depletion within blood vessels of compounds containing the sulphydryl group. Acetylcysteine, a sulphydryl group donor, is occasionally used to prevent nitrate tolerance.
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- Handbook of Drugs in Intensive CareAn A-Z Guide, pp. 249Publisher: Cambridge University PressPrint publication year: 2014