Goodman & Gilman's the Pharmacological Basis of Therapeutics1. Pharmacokinetics: the dynamics of drug absorption, distribution, and elimination 3; 2. Pharmacodynamics: mechanisms of drug action and the relationship between drug concentration and effect 29; 3. Principles of therapeutics 43; 4. Principles of toxicology and treatment of poisoning 63; 5. Gene-based therapy 77; 6. Neurotransmission: the autonomic and somatic motor nervous systems 105; 7. Muscarinic receptor agonists and antagonists 141; 8. Anticholinesterase agents 161; 9. Agents acting at the neuromuscular junction and autonomic ganglia 177; 10. Catecholamines, sympathomimetic drugs, and adrenergic receptor 199; 11. 5-hydroxytryptamine (serotonin) receptor agonists and antagonists 249; 12. Neurotransmission and the central nervous system 267; 13. History and principles of anesthesiology 295; 14. General anesthetics 307; 15. Local anesthetics 331; 16. Therapeutic gases 349; 17. Hypnotics and sedatives: ethanol 361; 18. Drugs and the treatment of psychiatric disorders: psychosis and anxiety 399; 19. Drugs and the treatment of psychiatric disorders: depression and mania 431; 20. Drugs effective in the therapy of the epilepsies 461; 21. Drugs effective in the therapy of migraine 487; 22. Treatment of central nervous system degenerative disorders 503; 23. Opioid analgesics and antagonists 521; 24. Drug addiction and drug abuse 557; 25. Histamine, bradykinin and their antagonists 581; 26. Lipid-derived autacoids: eicosanoids and platelet-activating factor 601; 27. Analgesic-antipyretic and antiinflammatory agents and drugs employed in the treatment of gout 617; 28. Drugs used in the treatment of asthma 659; 29. Diuretics 685; 30. Vaspressin and other agents affecting the renal conservation of water 715; 31. Renin and angiotensin 733; 32. Drugs used for the treatment of myocardial ischemia 759; 33. Antihypertensive agents and the drug therapy of hypertension 781; 34. Pharmacological treatment of heart failure 809; 35. Antiarrhythmic drugs 839. |
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Page 324
... diazepam ( VALIUM ) , lor- azepam ( ATIVAN ) , and midazolam ( VERSED ) have become widely used for preanesthetic medication and to supple- ment or to induce and maintain anesthesia . Pharmacological Properties Diazepam is discussed as ...
... diazepam ( VALIUM ) , lor- azepam ( ATIVAN ) , and midazolam ( VERSED ) have become widely used for preanesthetic medication and to supple- ment or to induce and maintain anesthesia . Pharmacological Properties Diazepam is discussed as ...
Page 479
... diazepam and many other benzodi- azepines can reduce sustained high - frequency firing of neurons , sim- ilar to the effects of phenytoin , carbamazepine , and valproate . Al- though these concentrations correspond to those achieved in ...
... diazepam and many other benzodi- azepines can reduce sustained high - frequency firing of neurons , sim- ilar to the effects of phenytoin , carbamazepine , and valproate . Al- though these concentrations correspond to those achieved in ...
Page 564
... diazepam and alprazolam tending to be the most desirable . The drugs may be obtained by simulating a medical condition and deceiving physicians or simply through illicit channels . Street drug dealers pro- vide benzodiazepines in most ...
... diazepam and alprazolam tending to be the most desirable . The drugs may be obtained by simulating a medical condition and deceiving physicians or simply through illicit channels . Street drug dealers pro- vide benzodiazepines in most ...
Contents
The Dynamics of Drug Absorption Distribution and Elimination | 3 |
Mechanisms of Drug Action and the Relationship Between Drug | 29 |
Principles of Therapeutics | 43 |
Copyright | |
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Common terms and phrases
5-HT receptor absorption acid action activity administration adrenergic agents agonists anesthesia anesthetic antagonists antidepressants antipsychotic atropine autonomic B-adrenergic Baldessarini barbiturates benzodiazepines binding block blockade blood flow blood pressure brain Ca2+ carbamazepine cardiac cardiovascular catecholamines cause cells ceptors channels Chapter chemical cholinergic Clin clinical clonidine compounds concentration decrease depolarization depression diazepam disease disorders dopamine dosage doses drug efficacy enflurane enzyme epinephrine ethanol excretion fibers function GABA GABAA receptor ganglia ganglionic gastrointestinal gene transfer half-life halothane hepatic hypotension increase inhalation inhibition inhibitors injection interactions intravenous isoflurane liver local anesthetics mechanisms membrane metabolism metabolites molecular muscarinic receptors nerve nervous system neuroleptic neuromuscular neurons nicotinic nitrous oxide norepinephrine occur oral oxide oxygen patients peripheral pharmacokinetic Pharmacol pharmacological phenobarbital phenytoin plasma potential produce proteins release respiratory response result seizures serotonin side effects smooth muscle stimulation subtypes subunits sympathetic synaptic therapeutic tion tissues toxicity transmitter treatment tumor vascular