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Pseudomonas aeruginosa Ventilator-Associated Pneumonia Rabbit Model for Preclinical Drug Development

Nhu T. Q. Nguyen, Emmanuelle Gras, Nguyen D. Tran, Nhi N. Y. Nguyen, Hanh T. H. Lam, Jason Weiss, Thien N. M. Doan, Binh An Diep

2021Antimicrobial Agents and Chemotherapy13 citationsDOIOpen Access PDF

Abstract

, leukopenia, neutropenia, thrombocytopenia, hyperlactatemia, severe hypotension, bacterial dissemination from lung to other organs, multiorgan dysfunction, and ultimately death. We evaluated the predictive power of this rabbit model for antibiotic efficacy testing by determining whether a humanized dosing regimen of meropenem, a potent antipseudomonal β-lactam antibiotic, when administered with or without intensive care unit (ICU)-supportive care (fluid challenge and norepinephrine), could halt or reverse natural disease progression. Our humanized meropenem dosing regimen produced a plasma concentration-time profile in the rabbit model similar to those reported in patients with ventilator-associated bacterial pneumonia. In this rabbit model, treatment with humanized meropenem and ICU-supportive care achieved the highest level of survival, halted the worsening of ARDS biomarkers, and reversed lethal hypotension, although treatment with humanized meropenem alone also conferred some protection compared to treatment with placebo (saline) alone or placebo plus ICU-supportive care. In conclusion, this rabbit model could help predict whether an antibiotic will be efficacious for the treatment of human ventilator-associated pneumonia.

Topics & Concepts

Pseudomonas aeruginosaPneumoniaMicrobiologyVentilator-associated pneumoniaDrugMedicineAntibioticsDrug developmentBiologyPharmacologyBacteriaInternal medicineGeneticsNosocomial Infections in ICUInhalation and Respiratory Drug DeliveryRespiratory Support and Mechanisms