Current clinical pharmacology
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Curr Clin Pharmacol · Feb 2013
ReviewContinuous infusion of antibiotics in critically ill patients.
Antibiotics are the most commonly used drugs in intensive care unit patients and their supply should be based on pharmacokinetic/pharmacodynamic rules. The changes that occur in septic patients who are critically ill may be responsible for subtherapeutic antibiotic concentrations leading to poorer clinical outcomes. Evolving in time the disturbed pathophysiology in severe sepsis (high cardiac output, glomerular hyperfiltration) and therapeutic interventions (e.g. haemodynamically active drugs, mechanical ventilation, renal replacement therapy) alters antibiotic pharmacokinetics mainly through an increase in the volume of distribution and altered drug clearance. ⋯ In spite of controversy the continuous administration of this group of antibiotics is common practice, because the results of both studies point to the higher efficacy of this method in critically ill patients. Authors reviewed the literature to determine whether any clinical benefits exist for administration of time-dependent antibiotics by continuous infusion. Definite specification of the clinical advantage of administration this way over standard dosage requires a large-scale multi-centre randomised controlled trial.
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Curr Clin Pharmacol · Feb 2013
ReviewPlasma pharmacokinetics of antimicrobial agents in critically ill patients.
Prompt optimal antimicrobial treatment in critically ill patients is mandatory and must be achieved not only in terms of spectrum of activity, but also in terms of exposure at the infection site. Plasma profile of antimicrobial agents may represent a valid surrogate marker of drug exposure and allow to identify the correct dosage for a given drug. ⋯ These aspects are particularly relevant in patients with severe sepsis or with septic shock for whom the time for being considered as a special population to be studied apart from the general population has probably come. From the healthcare system perspective, this means that individualization of antimicrobial therapy by means of a real time therapeutic drug monitoring coupled with clinical pharmacological advice should be considered an invaluable tool for optimizing antimicrobial therapy and for the containment of microbial resistance in this setting.
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Curr Clin Pharmacol · Feb 2013
ReviewThe intestinal absorption mechanism of gabapentin makes it appropriate for gastroretentive delivery.
Gabapentin is approved for the treatment of postherpetic neuralgia (PHN) and epilepsy. The pharmacokinetic (PK) properties of gabapentin, including absorption, distribution, metabolism, and excretion (ADME), were investigated during the development of Neurontin®, an immediate-release (IR) formulation of gabapentin that is orally administered three-times daily. Recently, a gastroretentive (GR) once-daily formulation of gabapentin (Gralise®) has been developed and marketed for the treatment of PHN. ⋯ The data reviewed support that GR delivery of gabapentin optimizes its absorption via a saturable uptake mechanism. The prolonged residence of the GR tablets in the stomach coupled with the gradual release of gabapentin attenuates saturation of the transporter, thus enhancing absorption and increasing bioavailability, especially at therapeutically relevant doses. The net result is a once-daily formulation of gabapentin that is well tolerated and efficacious for the treatment of PHN.