In vivo antimicrobial activity of marbofloxacin against Pasteurella multocida in a tissue cage model in calves

Cao, Chuan; Qu, Ying; Sun, Meizhen; Qiu, Zhenzhen; Huang, Xianhui; Huai, Binbin; Lü, Yan; Zeng, Zhenling

doi:10.3389/fmicb.2015.00759

Cited by 18 publications

(18 citation statements)

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“…Marbofloxacin shows excellent effectiveness for treating P. multocida infection through in vitro tests [16]. The protein binding of marbofloxacin was low in previous studies and was 52% for serum, 40% for tissue cage fluid in cattle and 49.4% for pig serum [3, 16]. Only free drug in the interstitial fluid is microbiologically active against extracellular bacteria [3, 27].…”

Section: Discussionmentioning

confidence: 99%

Integrated pharmacokinetic–Pharmacodynamic (PK/PD) model to evaluate the in vivo antimicrobial activity of Marbofloxacin against Pasteurella multocida in piglets

Zeng

Xian

et al. 2017

BMC Vet Res

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BackgroundMarbofloxacin is a veterinary fluoroquinolone with high activity against Pasteurella multocida. We evaluated it’s in vivo activity against P. multocida based on in vivo time-kill data in swine using a tissue-cage model. A series of dosages ranging from 0.15 to 2.5 mg/kg were administered intramuscularly after challenge with P. multocida type B, serotype 2.ResultsThe ratio of the 24 h area under the concentration-time curve divided by the minimum inhibitory concentration (AUC24TCF/MIC) was the best PK/PD index correlated with the in vivo antibacterial effectiveness of marbofloxacin (R2 = 0.9279). The AUC24TCF/MIC necessary to achieve a 1-log10 CFU/ml reduction and a 3-log10 CFU/ml (90% of the maximum response) reduction as calculated by an inhibitory sigmoid Emax model were 13.48 h and 57.70 h, respectively.ConclusionsMarbofloxacin is adequate for the treatment of swine infected with P. multocida. The tissue-cage model played a significant role in achieving these PK/PD results.

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Section: Discussionmentioning

confidence: 99%

Integrated pharmacokinetic–Pharmacodynamic (PK/PD) model to evaluate the in vivo antimicrobial activity of Marbofloxacin against Pasteurella multocida in piglets

Zeng

Xian

et al. 2017

BMC Vet Res

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“…There is a continuous exposure to a fixed concentration of the agent for a defined duration (e.g., 24 h) in an ex vivo model, whereas a gradient of concentration in the dynamic in vitro model. The level of AUC 24h /MPC (33 for 3 log 10 reductions) was higher than that (12.89 for bactericidal effect) resulted from a tissue cage model of marbofloxacin against Pasteurella multocida [ 26 ]. The greatest influence for the differences might be the immune status of the animal.…”

Section: Discussionmentioning

confidence: 99%

In vitro Dynamic Pharmacokinetic/Pharamcodynamic (PK/PD) study and COPD of Marbofloxacin against Haemophilus parasuis

et al. 2015

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BackgroundHaemophilus parasuis (H. parasuis) can invade the body and cause systemic infection under stress conditions. Marbofloxacin has been recommended for the treatment of swine infections. However, few studies have investigated the PK/PD characteristics and PK/PD cutoff (COPD) of this drug against H. parasuis.ResultsMICs of marbofloxacin against 198 H. parasuis isolates were determined. The MIC50 and MIC90 were 2 and 8 mg/L, respectively. An in vitro dynamic PK/PD model was established to study the PK/PD relationship of marbofloxacin against H. parasuis. The PK/PD surrogate markers Cmax/MIC, Cmax/MPC (the maximum concentration divided by MIC or mutant prevention concentration (MPC)) and AUC24h/MIC, AUC24h/MPC (the area under the curve during the first 24 h divided by MIC or MPC) simulated the antimicrobial effect of marbofloxacin successfully with the R2 of 0.9928 and 0.9911, respectively. The target values of 3-log10-unit and 4-log10-unit reduction for AUC24h/MPC were 33 and 42, while the same efficacy for AUC24h/MIC were 88 and 110. The COPD deduced from Monte Carlo simulation (MCS) for marbofloxacin against H. parasuis was 0.5 mg/L. The recommended dose of marbofloxacin against H. parasuis with MIC ≤ 2 mg/L was 16 mg/kg body weight (BW).ConclusionsThe PK/PD surrogate markers AUC24h/MIC, Cmax/MIC and AUC24h/MPC, Cmax/MPC properly described the effects of marbofloxacin. Marbofloxacin can achieve the best efficacy at dosage of 16 mg/kg BW for strains with MIC values ≤ 2 mg/L, therefore, it is obligatory to know the sensitivity of the pathogen and to treat animals as early as possible. The very first COPD provide fundamental data for marbofloxacin breakpoint determination.

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“…The use of PK/PD approach is an essential tool in the rational selection of dosage regimens of antimicrobial agents, allowing for the development of safe and effective antimicrobial protocols, minimizing the emergence of resistance and its further spread to the animal and human populations, as well as promoting the prudent use of antimicrobials (Papich, ; Toutain, Del Castillo, & Bousquet‐Mélou, ; Ungemach, Muller‐Bahrdt, & Abraham, ). Fluoroquinolones are concentration‐dependent antimicrobials, C max /MIC and AUC 24 /MIC ratios showed to be the best predictors of clinical outcome and bacterial eradication in many studies performed in humans and animals with a variety of compounds against different pathogens (Cao et al., ; Lister, ; Papich, ).…”

Section: Introductionmentioning

confidence: 99%

“…However, these indicators may not be the most suitable for predicting the emergence of resistant mutants in a bacterial population. The mutant prevention concentration (MPC) indicates the susceptibility of the first‐step mutant subpopulation (Canut‐Blasco, Aguilar‐Alfaro, Cobo‐Reinoso, Giménez‐Mestre, & Rodríguez‐Gascón, ; Cao et al., ; Ferran, Dupouy, Toutain, & Bousquet‐Mélou, ; Homma, Hori, Sugimori, & Yamano, ; Wetzstein, ). Evidence suggests that MPC‐based PK/PD parameters correlate better with prevention of bacterial resistance than MIC‐based parameters (Canut‐Blasco et al., ; Cao et al., ; Ferran et al., ; Firsov et al., ; Homma et al., ; Körber‐Irrgang et al., ; Liang et al., ).…”

Section: Introductionmentioning

confidence: 99%

Pharmacokinetics, milk penetration and PK/PD analysis by Monte Carlo simulation of marbofloxacin, after intravenous and intramuscular administration to lactating goats

Lorenzutti

Litterio

Himelfarb

et al. 2017

Vet Pharm & Therapeutics

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The main objectives of this study were (i) to evaluate the serum pharmacokinetic behaviour and milk penetration of marbofloxacin (MFX; 5 mg/kg), after intravenous (IV) and intramuscular (IM) administration in lactating goats and simulate a multidose regimen on steady-state conditions, (ii) to determine the minimum inhibitory concentration (MIC) and mutant prevention concentration (MPC) of coagulase negative staphylococci (CNS) isolated from caprine mastitis in Córdoba, Argentina and (iii) to make a PK/PD analysis by Monte Carlo simulation from steady-state pharmacokinetic parameters of MFX by IV and IM routes to evaluate the efficacy and risk of the emergence of resistance. The study was carried out with six healthy, female, adult Anglo Nubian lactating goats. Marbofloxacin was administered at 5 mg/kg bw by IV and IM route. Serum and milk concentrations of MFX were determined with HPLC/uv. From 106 regional strains of CNS isolated from caprine mastitis in herds from Córdoba, Argentina, MICs and MPCs were determined. MIC and MPC were 0.4 and 6.4 μg/ml, respectively. MIC and MPC-based PK/PD analysis by Monte Carlo simulation indicates that IV and IM administration of MFX in lactating goats may not be adequate to recommend it as an empirical therapy against CNS, because the most exigent endpoints were not reached. Moreover, this dose regimen could increase the probability of selecting mutants and resulting in emergence of resistance. Based on the results of Monte Carlo simulation, the optimal dose of MFX to achieve an adequate antimicrobial efficacy should be 10 mg/kg, but it is important take into account that fluoroquinolones are substrates of efflux pumps, and this fact may determine that assumption of linear pharmacokinetics at high doses of MFX may be incorrect.

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In vivo antimicrobial activity of marbofloxacin against Pasteurella multocida in a tissue cage model in calves

Cited by 18 publications

References 40 publications

Integrated pharmacokinetic–Pharmacodynamic (PK/PD) model to evaluate the in vivo antimicrobial activity of Marbofloxacin against Pasteurella multocida in piglets

Integrated pharmacokinetic–Pharmacodynamic (PK/PD) model to evaluate the in vivo antimicrobial activity of Marbofloxacin against Pasteurella multocida in piglets

In vitro Dynamic Pharmacokinetic/Pharamcodynamic (PK/PD) study and COPD of Marbofloxacin against Haemophilus parasuis

Pharmacokinetics, milk penetration and PK/PD analysis by Monte Carlo simulation of marbofloxacin, after intravenous and intramuscular administration to lactating goats

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