[Dalbavancin: pharmacokinetic and pharmacodynamic parameters]. / Dalbavancina: parámetros farmacocinéticos y farmacodinámicos.

Dalbavancin is a new lipoglycopeptide antibiotic whose structure influences its pharmacokinetic profile. It is not absorbed after oral administration and is therefore administered intravenously. It is distributed through intracellular fluid, reaching adequate concentrations in the skin, bone, blister fluid and synovial fluid. Plasma protein binding is very high. Concentrations in brain tissue and cerebrospinal fluid (CSF) are inadequate. Excretion is through non-microsomal metabolism with inactive metabolites and through the kidneys by glomerular filtration. Dalbavancin is eliminated slowly, as shown by its clearance value and its terminal elimination half-life, which exceeds 300 hours. This means that adequate concentrations of the drug remain in plasma and tissues for a prolonged period and explains the dosing regimen: a first dose of 1g followed 7 days later by a 500mg dose. The pharmacokinetics are linear and show little intra- and interindividual variability. There are no pharmacokinetic interactions. Dose adjustment is not required for patients with mild or moderate renal insufficiency (creatinine clearance ≥ 30 to 79ml/min). Dosage adjustment is not required in patients regularly receiving elective haemodialysis (3 times/week) and the drug can be administered without consideration of haemodialysis times. In patients with chronic renal insufficiency, whose creatinine clearance is < 30ml/min and who are not regularly receiving elective haemodialysis, the recommended dose should be reduced to 750mg per week, followed 1 week later by 375mg. Dosage adjustment does not seem necessary in patients with liver failure or in older patients. There is no information on the most appropriate dosage in children. The pharmacokinetic/pharmacodynamics parameter that best describes the effectiveness of dalbavancin is the ratio between the area under the curve and the minimum inhibitory concentration.

[Pharmacokinetic/pharmacodynamic analysis in microbiology: a tool for the evaluation of the antimicrobial treatment]. / Análisis farmacocinético-farmacodinámico en microbiología: herramienta para evaluar el tratamiento antimicrobiano.

The selection of multiresistant microorganisms, as a side-effect of the use of antimicrobials, together with the lack of new therapeutic drugs expected in the near future, forces to a rational use of antibiotics. The optimisation of antibacterial treatments based on pharmacokinetic/pharmacodynamic analysis (PK/PD) may contribute to prolong the life of antibiotics and to contain the bacterial resistance to them. A review is made of the importance of the appropriateness of the dose regimen selected, the application of PK/PD analysis of antimicrobials, the Monte Carlo simulation, PK/PD indices for efficacy, and PK/PD cut-off points. PK/PD analysis is also applicable to the prevention of bacterial resistance. Different methods have been used to study the factors that lead to its emergence and spread, such as in vitro and animal models, and resistance prevention studies (mutant selection window). Although the PK/PD analysis is a very useful tool for the selection of the most appropriate dose regimen of antibiotics, several problems limit its use in clinical practice.

Susceptibility of Pseudomonas aeruginosa and antimicrobial activity using PK/PD analysis: an 18-year surveillance study.

INTRODUCTION: We analysed the changes in the susceptibility of Pseudomonas aeruginosa to antimicrobials over an 18-year period (2000-2017) in order to evaluate the adequacy of the antimicrobial therapy against this organism in patients admitted in a tertiary Spanish hospital (excluding the intensive care unit). In addition, the antimicrobial activity was evaluated using pharmacokinetic/pharmacodynamic (PK/PD) criteria as a microbiological surveillance tool. METHODS: Susceptibility was studied according to the Clinical and Laboratory Standards Institute breakpoints. Monte Carlo simulations were conducted to calculate the cumulative fraction of response (CFR). Linear regression analysis was applied to determine the trends in susceptibility and in the CFR. RESULTS: In 2017, susceptibility rates were: amikacin, penicillins and cephalosporins ≥85%, tobramycin 76%, meropenem 75% and gentamicin, imipenem and fluoroquinolones <70%. PK/PD analyses was able to identify changes in antimicrobial activity not detected by only assessing MICs; meropenem administered in extended infusion attained a CFR >90%, ceftazidime, piperacillin/tazobactam and imipenem provided CFRs between 80-90%, all of them administered at the highest doses. CONCLUSIONS: Analysis of susceptibility and PK/PD modelling, should be considered together to select the most appropriate antimicrobial drug and dosage regimen. Empirical antipseudomonal therapy would vary considerably if both microbiological surveillance tools were considered. In this study, the PK/PD analysis made it possible to preserve the therapeutic value of antimicrobials with low susceptibility rates, such as carbapenems, and the selection of the most effective antimicrobials among those with high rates of susceptibility.

Modelado farmacocinético-farmacodinámico de fármacos antihipertensivos: su aplicación en la práctica clínica / Pharmacokinetic-Pharmacodynamic Modelling of Antihypertensive Drugs: Its Application to Clinical Practice

El conocimiento de las propiedades farmacocinéticas-farmacodinámicas (PK/PD) de los fármacos puede optimizar la terapia antihipertensiva. El modelado PK/PD en la investigación clínica podría contribuir en el desarrollo del fármaco y en la práctica clínica en varios aspectos, entre ellos la evaluación de eficacia y seguridad de los antihipertensivos, mayor información durante el proceso del desarrollo, identificación de factores de variabilidad de la respuesta farmacológica, y permitir además una identificación rápida de malos respondedores o no respondedores y ayudar a determinar requerimientos óptimos del fármaco y dosis en cada paciente hipertenso. Hay algunas limitaciones en el modelado PK/PD de los antihipertensivos en la práctica clínica, entre las que se incluyen el uso de modelos farmacodinámicos inadecuados y la incapacidad de estudiar dosis elevadas de antihipertensivos para determinar el rango farmacodinámico completo del efecto antihipertensivo. El propósito de esta revisión es describir el conocimiento actual del modelado PK/PD de los fármacos antihipertensivos en la investigación clínica y sus usos futuros.

Knowing the pharmacokinetic-pharmacodynamic properties (PK/PD) of drugs might optimize antihypertensive therapy. PK/PD modelling might not only contribute to develop the drug but might also help in clinical practice assessing the efficacy and safety of antihypertensive drugs, bringing more information during the developing process, identifying factors responsible for the variability in pharmacologic response, bad responders or non-responders, and determining the optimal requisites of the drug and doses in each patient with hypertension. There are some limitations in PK/ PD modelling of antihypertensive drugs in clinical practice, such as inadequate pharmacodynamic models and the inability to study high doses of antihypertensive drugs to determine the whole pharmacodynamic range of the antihypertensive effect. The aim of this review is to describe the current knowledge on PK/PD modelling of antihypertensive drugs in clinical research, and its further uses.