Current pharmaceutical biotechnology
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Curr Pharm Biotechnol · Dec 2011
ReviewRelevance of pharmacokinetic and pharmacodynamic modeling to clinical care of critically ill patients.
Efficacious therapy is of utmost importance to save lives and prevent bacterial resistance in critically ill patients. This review summarizes pharmacokinetic (PK) and pharmacodynamic (PD) modeling methods to optimize clinical care of critically ill patients in empiric and individualized therapy. While these methods apply to all therapeutic areas, we focus on antibiotics to highlight important applications, as emergence of resistance is a significant problem. ⋯ In vitro infection models such as the hollow fiber and one-compartment infection models allow one to study antibiotic-induced bacterial killing and emergence of resistance of mono- and combination therapies over clinically relevant treatment durations. Mechanism-based (and empirical) PK/PD modeling can incorporate effects of the immune system and allow one to design innovative dosage regimens and prospective validation studies. Mechanism-based modeling holds great promise to optimize mono- and combination therapy of anti-infectives and drugs from other therapeutic areas for critically ill patients.
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Curr Pharm Biotechnol · Dec 2011
ReviewPhysiological changes in the critically ill patient with sepsis.
Intensive care medicine deals with the critically ill; these patients usually have multiple organ failure, and complex medical conditions. The mortality in Australia and New Zealand among this population is approximately 16.1%, with approximately 24.2% having existing co-morbidities, and 23.4% of these patients experiencing sepsis or septic shock. Sepsis is a clinical syndrome that traditionally was regarded as a physiological maladaptive response to a foreign pathogen and ranges in disease severity from simple sepsis to septic shock, a life threatening condition, associated with multiple organ failure. ⋯ There are also alterations in the fluid compartments of the septic critically ill, that results in an altered volume of distribution, and ultimately decreased antibiotic concentrations at their site of action. This article will examine and review in detail the septic critically ill patient, and the effects that sepsis has on physiology and the resulting altered antibiotic pharmacokinetics and pharmacodynamics. Current knowledge suggests that the medical prescriber should be weary of antibiotic dosing in the septic critically ill, and consider alternative dosing regimes that are individualized to the patient in order to maximize efficacy.
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Pathophysiological changes are common in critically ill patients, and can alter the time course of drug concentrations following dosing. The latter is termed pharmacokinetics (PK), and describes the relationship between dose administered and drug concentrations in plasma. Thus, modifications in PK necessitate dose adjustment, to optimize drug therapy in critical care. ⋯ This information is useful with assisting individualized dosing in the clinic. While the above methods are suitable for research, they are too time-consuming in the clinical setting, and Bayesian approaches have been adopted to optimize dosing. These methods, together with POPPK and appropriate study design are recommended for improved dosing in critical care.
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There is pressing need to better understand pharmacokinetics in critically ill patients. This will aid clinicians in selecting optimal dosing regimens. Pharmacokinetic studies are difficult in this population due to the heterogeneity of the patients and the practical issues of research involving critically ill patients. ⋯ Plasma concentration may not always reflect tissue distribution in critically ill patients. Microdialysis is a technique that can be applied in the Intensive Care Unit to measure tissue concentrations and provide further insights to antimicrobial therapy for critically ill patients. Finally, the application of population pharmacokinetic analysis in studies in critically ill patients may identify factors affecting pharmacokinetics and enhance drug dosing regimens for varied patient groups.
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Curr Pharm Biotechnol · Dec 2011
ReviewDosing of antibiotics in critically ill patients undergoing renal replacement therapy.
On September 11, 1945 Maria Schafstaat was the first patient who successfully underwent a dialysis treatment for acute kidney injury (AKI), formerly known as acute renal failure. Since then, the number of patients with AKI is increasing worldwide. Today AKI is generally one feature of a multiple organ dysfunction syndrome (MODS), which develops in response to major surgery, cardiogenic shock or sepsis. ⋯ We reflect on failure of several large prospective controlled studies to show a survival benefit of higher doses of renal replacement therapy, a finding that might be caused by the fact that we still adhere to dosing guidelines for antibiotics which are at best ineffectual but might also lead to potentially dangerous underdosing of these life saving drugs. Lastly we address possible strategies to overcome the lack of knowledge, the lack of data and the lack of interest in this important area of critical care medicine. Improvement of clinical outcomes and reduction of antibiotic resistance in this patient population will require nephrologist, intensivists and pharmacists to work together.