Clin Pharmacokinet
-
This review uses a candidate gene approach to identify possible pharmacogenetic modulators of opioid therapy, and discusses these modulators together with demonstrated genetic causes for the variability in clinical effects of opioids. Genetically caused inactivity of cytochrome P450 (CYP) 2D6 renders codeine ineffective (lack of morphine formation), slightly decreases the efficacy of tramadol (lack of formation of the active O-desmethyl-tramadol) and slightly decreases the clearance of methadone. MDR1 mutations often demonstrate pharmacogenetic consequences, and since opioids are among the P-glycoprotein substrates, opioid pharmacology may be affected by MDR1 mutations. ⋯ Genetically precipitated drug interactions might render a standard opioid dose toxic and should, therefore, be taken into consideration. Mutations affecting opioid receptors and pain perception/processing are of interest for the study of opioid actions, but with modern practice of on-demand administration of opioids their utility may be limited to explaining why some patients need higher opioid doses; however, the adverse effects profile may be modified by these mutations. Nonetheless, at a limited level, pharmacogenetics can be expected to facilitate individualised opioid therapy.
-
Comparative Study Clinical Trial Controlled Clinical Trial
Pharmacokinetics of oxycodone after intravenous, buccal, intramuscular and gastric administration in children.
To evaluate the pharmacokinetics of four administration routes of oxycodone parenteral liquid (10 mg/mL), single intravenous and intramuscular injections and buccal and gastric administration, in children. ⋯ The pharmacokinetics of intravenous oxycodone in children aged 6-93 months are fairly similar to those reported in adults. Intramuscular administration provides relatively constant drug absorption, but after buccal and gastric administration the interindividual variation in the rate and extent of absorption is large.
-
Review
Antiepileptic-induced resistance to neuromuscular blockers: mechanisms and clinical significance.
Prolonged administration of antiepileptic drugs is associated with several drug interactions. In the field of anaesthesia and critical care, patients exhibit both sensitivity and resistance to non-depolarising neuromuscular blockers (NDNMBs) after acute and long-term administration of antiepileptic drugs, respectively. Although antiepileptic therapy alone has only mild neuromuscular effects, acutely administered antiepileptic drugs can potentiate the neuromuscular effects of NDNMBs as a result of direct pre- and post-junctional effects. Resistance to NDNMBs during long-term antiepileptic therapy is due to multiple factors operating alone or in combination, including induction of hepatic drug metabolism, increased protein binding of the NDNMBs and/or upregulation of acetylcholine receptors.
-
Review Comparative Study
Pharmacodynamic and pharmacokinetic properties of enoxaparin : implications for clinical practice.
Enoxaparin is a low-molecular-weight heparin (LMWH) that differs substantially from unfractionated heparin (UFH) in its pharmacodynamic and pharmacokinetic properties. Some of the pharmacodynamic features of enoxaparin that distinguish it from UFH are a higher ratio of anti-Xa to anti-IIa activity, more consistent release of tissue factor pathway inhibitor, weaker interactions with platelets and less inhibition of bone formation. ⋯ Clinical studies have confirmed that these pharmacological advantages translate into improved outcomes. There are important pharmacokinetic and pharmacodynamic differences between enoxaparin, other LMWHs and UFH, and therefore these molecules cannot be regarded as interchangeable.
-
Review Comparative Study
Fosphenytoin: clinical pharmacokinetics and comparative advantages in the acute treatment of seizures.
Fosphenytoin is a phosphate ester prodrug developed as an alternative to intravenous phenytoin for acute treatment of seizures. Advantages include more convenient and rapid intravenous administration, availability for intramuscular injection, and low potential for adverse local reactions at injection sites. Drawbacks include the occurrence of transient paraesthesias and pruritus at rapid infusion rates, and cost. ⋯ Close monitoring and reduction in the infusion rate by 25-50% are recommended when intravenous loading doses of fosphenytoin are administered in these patients. The potential exists for clinically significant interactions when fosphenytoin is coadministered with other highly protein bound drugs. The pharmacokinetic properties of fosphenytoin permit the drug to serve as a well tolerated and effective alternative to parenteral phenytoin in the emergency and non-emergency management of acute seizures in children and adults.