J. E. Leggett scite author profile

Current antimicrobial dosing regimens are designed to maintain active drug levels for most of the dosing interval and are based on 40-y-old observations. With use of numerous multiple-dosing regimens in an animal model, this study is the first to successfully minimize the interdependence between pharmacokinetic parameters and thereby determine, by stepwise multivariate regression analysis, that the time that serum levels exceeded the minimum inhibitory concentration (MIC) was the most significant parameter determining efficacy for beta-lactams and erythromycin against various pathogens, whereas the log area under the curve was the major parameter for aminoglycosides. Optimal dosing intervals were no greater than the time that serum levels exceeded the MIC plus the duration of the postantibiotic effect. Careful application of these concepts should allow other investigators to use more optimally dosed regimens than those previously used in preclinical trials and to design studies to improve on current dosing regimens for humans.

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Comparative Antibiotic Dose-Effect Relations at Several Dosing Intervals in Murine Pneumonitis and Thigh-Infection Models

Leggett¹,

Fantin²,

Ebert³

et al. 1989

Journal of Infectious Diseases

330

221

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Animal studies that compare antibiotics have used only a limited number of doses administered at intervals chosen without regard for their pharmacodynamic effects of pharmacokinetic profiles. We compared the relative efficacy and potency of three beta-lactams and two aminoglycosides in lung and thigh-infection models in neutropenic mice by defining the maximum attainable antimicrobial effect at 24 h (Emax) and the total dose required to reach 50% of maximum effect (P50) at several dosing intervals. For beta-lactams, Emaxs were similar, whereas P50s increased 10- to 50-fold with longer intervals in both models. Aminoglycosides were significantly more bactericidal in the lung than in the thigh, and dosing interval had little impact on P50s in either model. Recognizing the variable impact of dosing interval on efficacy for different classes of antibiotics is mandatory for the proper design and interpretation of comparative trials.

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In Vivo Postantibiotic Effect in a Thigh Infection in Neutropenic Mice

Vogelman¹,

Guðmundsson²,

Turnidge³

et al. 1988

Journal of Infectious Diseases

246

143

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The postantibiotic effect (PAE) is the suppression of bacterial growth that persists after limited exposure of organisms to antimicrobial agents. We demonstrated and standardized the in vivo PAE in a thigh infection model in neutropenic mice. Inhibitors of protein and nucleic acid synthesis induced PAEs of 1.4-7.5 h against aerobic gram-negative bacilli, whereas beta-lactam antibiotics did not induce significant PAEs. Against aerobic gram-positive cocci, cell wall-active agents and inhibitors of protein and nucleic acid synthesis induced PAEs of 1.2-7.1 h, except for penicillins, which did not induce PAEs against streptococci. With few exceptions the in vivo PAE correlated well with the PAE reported in prior in vitro studies. Residual drug in thigh tissue did not cause the PAE. Theoretically, the presence of a PAE may allow antimicrobial agents to be given more intermittently without organism regrowth after drug levels fall below the minimal inhibitory concentration.

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Increasing Vancomycin Serum Trough Concentrations and Incidence of Nephrotoxicity

Pritchard

Baker

Leggett

et al. 2010

The American Journal of Medicine

139

138

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Kinetics of Sulfate Absorption by Barley Roots

Leggett¹,

Epstein²

1956

Plant Physiol.

241

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J. E. Leggett

Correlation of Antimicrobial Pharmacokinetic Parameters with Therapeutic Efficacy in an Animal Model

Comparative Antibiotic Dose-Effect Relations at Several Dosing Intervals in Murine Pneumonitis and Thigh-Infection Models

In Vivo Postantibiotic Effect in a Thigh Infection in Neutropenic Mice

Increasing Vancomycin Serum Trough Concentrations and Incidence of Nephrotoxicity

Kinetics of Sulfate Absorption by Barley Roots

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