Antibiotic Dosing in Patients With Acute Kidney Injury: "Enough But Not Too Much (original) (raw)
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Pharmacokinetics and pharmacodynamics of antibiotics in critically ill acute kidney injury patients
Pharmacology Research & Perspectives, 2016
Sepsis is the most common cause of death in critically ill patients and is associated with multiorgan failure, including acute kidney injury (AKI). This situation can require acute renal support and increase mortality. Therefore, it is essential to administer antimicrobials in doses that achieve adequate serum levels, avoiding both overdosing and drug toxicity as well as underdosing and the risk of antibiotic resistance and higher mortality. Currently, there are no validated guidelines on antibiotic dose adjustments in septic patients with AKI. The current recommendations were extrapolated from studies conducted in noncritical patients with end-stage chronic kidney disease receiving chronic renal replacement therapy. This study aimed to review and discuss the complexity of this issue, considering several factors related to drug metabolism, the characteristics of critically ill patients, the properties of antimicrobial drugs and dialysis methods.
Antibiotics
The outcome for critically ill patients is burdened by a double mortality rate and a longer hospital stay in the case of sepsis or septic shock. The adequate use of antibiotics may impact on the outcome since they may affect the pharmacokinetics (Pk) and pharmacodynamics (Pd) of antibiotics in such patients. Acute renal failure (ARF) occurs in about 50% of septic patients, and the consequent need for continuous renal replacement therapy (CRRT) makes the renal elimination rate of most antibiotics highly variable. Antibiotics doses should be reduced in patients experiencing ARF, in accordance with the glomerular filtration rate (GFR), whereas posology should be increased in the case of CRRT. Since different settings of CRRT may be used, identifying a standard dosage of antibiotics is very difficult, because there is a risk of both oversimplification and failing the therapeutic efficacy. Indeed, it has been seen that, in over 25% of cases, the antibiotic therapy does not reach the nece...
Antimicrobial Agents and Chemotherapy, 2019
A careful management of antimicrobials is essential in the critically ill with acute kidney injury, especially if renal replacement therapy is required. Acute kidney injury may lead per se to clinically significant modifications of drugs’ pharmacokinetic parameters, and the need for renal replacement therapy represents a further variable that should be considered to avoid inappropriate antimicrobial therapy.
American Journal of Kidney Diseases, 2013
Critically ill patients with acute kidney injury may be treated with a variety of renal replacement therapies (RRTs). Each of these RRTs has profound yet differing effects on drug dosing. Although the doses of some drugs can be titrated to an immediately observable pharmacodynamic effect, the effects of many drugs, such as antibiotics for example, are not immediately apparent. Attainment of desired pharmacodynamic response is a complex interplay between patient, RRT, and pharmacokinetic factors. In the case of antibiotics, microorganism-specific factors also must be considered. Rational and effective drug dosing in this clinical setting cannot occur until all these issues are addressed by the clinician. Failure to account for the pharmacokinetic influences of critical illness, kidney disease, and choice of intermittent hemodialysis or prolonged intermittent or continuous RRT can contribute to the high mortality rates seen in these patients. Pharmacotherapy considerations for each of these therapies are addressed in this article by applying them to a patient case. Am J Kidney Dis. 61 :490-500.
Diagnostic microbiology and infectious disease, 2015
Determining appropriate antibiotic dosing for critically ill patients receiving renal replacement therapy (RRT) is complex. Worldwide unstandardized and heterogeneous prescribing of RRT as well as altered patient physiology and pathogen susceptibility all cause drug disposition to be much different to that seen in non-critically ill patients. Significant changes to pharmacokinetic parameters, including volume of distribution and clearance, could be expected, in particular, for antibiotics that are hydrophilic with low plasma protein binding and that are usually primarily eliminated by the renal system. Antibiotic clearance is likely to be significantly increased when higher RRT intensities are used. The combined effect of these factors that alter antibiotic disposition is that non-standard dosing strategies should be considered to achieve therapeutic exposure. In particular, an aggressive early approach to dosing should be considered and this may include administration of a 'loa...
Clinical Infectious Diseases, 2020
Background The optimal dosing of antibiotics in critically ill patients receiving renal replacement therapy (RRT) remains unclear. In this study, we describe the variability in RRT techniques and antibiotic dosing in critically ill patients receiving RRT and relate observed trough antibiotic concentrations to optimal targets. Methods We performed a prospective, observational, multinational, pharmacokinetic study in 29 intensive care units from 14 countries. We collected demographic, clinical, and RRT data. We measured trough antibiotic concentrations of meropenem, piperacillin-tazobactam, and vancomycin and related them to high- and low-target trough concentrations. Results We studied 381 patients and obtained 508 trough antibiotic concentrations. There was wide variability (4–8-fold) in antibiotic dosing regimens, RRT prescription, and estimated endogenous renal function. The overall median estimated total renal clearance (eTRCL) was 50 mL/minute (interquartile range [IQR], 35–65) ...
Antibiotic Dosing in Critically Ill Adult Patients Receiving Continuous Renal Replacement Therapy
Clinical Infectious Diseases, 2005
Continuous renal replacement therapy (CRRT) is now commonly used as a means of support for critically ill patients with renal failure. No recent comprehensive guidelines exist that provide antibiotic dosing recommendations for adult patients receiving CRRT. Doses used in intermittent hemodialysis cannot be directly applied to these patients, and antibiotic pharmacokinetics are different than those in patients with normal renal function. We reviewed the literature for studies involving the following antibiotics frequently used to treat critically ill adult patients receiving CRRT: vancomycin, linezolid, daptomycin, meropenem, imipenem-cilastatin, nafcillin, ampicillin-sulbactam, piperacillin-tazobactam, ticarcillin-clavulanic acid, cefazolin, cefotaxime, ceftriaxone, ceftazidime, cefepime, aztreonam, ciprofloxacin, levofloxacin, moxifloxacin, clindamycin, colistin, amikacin, gentamicin, tobramycin, fluconazole, itraconazole, voriconazole, amphotericin B (deoxycholate and lipid formulations), and acyclovir. We used these data, as well as clinical experience, to make recommendations for antibiotic dosing in critically ill patients receiving CRRT.
Critical Care Medicine, 2012
ciprofloxacin). The median (interquartile range) trough concentrations (mg/L) for meropenem was 12.1 (7.8-18.4), 105.0 (74.4-204.0)/3.8 (3.4-21.8) for piperacillin/tazobactam, 12.0 (9.8-16.0) for vancomycin, and 3.7 (3.0-5.6) for ciprofloxacin. Overall, 15% of dosing intervals did not meet predetermined minimum therapeutic target concentrations, 40% did not achieve the higher target concentration, and, during 10% of dosing intervals, antibiotic concentrations were excessive. No difference, however, was found between patients on the basis of the intensity of continuous renal replacement therapy; this effect may have been obscured by differences in dosing regimens, time off the filter, or altered pharmacokinetics. Conclusions: There is significant variability in antibiotic trough concentrations in critically ill patients receiving continuous renal replacement therapy, which did not only appear to be influenced by effluent flow rate. Here, empirical dosing of antibiotics failed to achieve the target trough antibiotic concentration during 25% of the dosing intervals.
Harmonizing antibiotic regimens with renal replacement therapy
Expert Review of Anti-infective Therapy, 2020
Introduction: Critically ill patients with acute kidney injury often require renal replacement therapy and antibiotic therapy. Mortality rates are high in these patients, possibly due to ineffective dosing due to altered pharmacokinetic profiles and drug removal by renal replacement therapy. Areas covered: The main types of renal replacement therapies are intermittent hemodialysis, prolonged intermittent renal replacement therapy and continuous renal replacement therapy. Each of these renal replacement therapies may have drastic, yet different, effects on antibiotic serum concentration profiles. Moreover, three antibiotic administration strategies are often used: 1) standard infusion; 2) extended infusion; and 3) continuous infusion. A literature review was conducted on Medline in December 2019 to identify pertinent research. Expert opinion: Renal replacement therapies used in the treatment of acute kidney injury in critically ill patients usually complicates antibiotic use. Although antibiotic toxicity can be seen, most studies find that these patients do not receive sufficient antibiotic doses to achieve desired pharmacodynamic targets. Clinicians should dose antibiotics to match renal replacement therapy drug clearance characteristics to antibiotic pharmacodynamic profiles.