Center of Medicine Clinical Research, Department of Pharmacy, PLA General Hospital, Beijing, China.
J Antimicrob Chemother. 2018 Feb 1;73(2):456-461. doi: 10.1093/jac/dkx399.
Carbapenem-resistant Pseudomonas aeruginosa (CRPA) infections represent a major therapeutic problem and combination therapy may be the chemotherapeutic option.
Bioluminescent CRPA was developed through sequential subcultures in subinhibitory concentrations of meropenem from an engineered strain of bioluminescent PA Xen5. Then CRPA was injected intraperitoneally to establish an intraperitoneal murine infection model. Treatments of colistin alone or combined with rifampicin or meropenem were started 1 h after infection. In vivo bioluminescence imaging was applied dynamically at 0 h, and 2 and 5 h after treatment. Ex vivo bacterial counts from liver, kidney, spleen, lung and blood samples were also determined 5 h after treatment.
In vivo imaging showed that both low- and high-dose colistin combined with rifampicin resulted in a significant decrease in bioluminescence signals compared with monotherapy of colistin or rifampicin alone, whereas colistin and meropenem combination therapy did not show a greater bactericidal effect compared with monotherapy. Ex vivo bacterial count results also confirmed that combination of both low- and high-dose colistin with rifampicin resulted in significantly reduced colony counts from five kinds of tissue samples. However, only combination of high-dose colistin + meropenem resulted in reduced colony counts merely in lung and blood samples.
Compared with single drugs, colistin and rifampicin combination therapy could exert synergistic effects, which might provide a better alternative when treating CRPA infections in clinical practice. Combination of colistin and meropenem should be considered with caution because it barely shows any synergism in the present in vivo model.
耐碳青霉烯铜绿假单胞菌(CRPA)感染是一个主要的治疗难题,联合治疗可能是化学治疗的选择。
通过在亚抑制浓度的美罗培南中对生物发光 PA Xen5 的工程菌株进行连续传代,开发出生物发光 CRPA。然后将 CRPA 腹腔内注射以建立腹腔内小鼠感染模型。在感染后 1 小时开始单独使用多粘菌素或联合使用利福平或美罗培尼进行治疗。在治疗后 0 小时、2 小时和 5 小时应用体内生物发光成像进行动态检测。治疗后 5 小时还从肝、肾、脾、肺和血样中测定了细菌的体外计数。
体内成像显示,低剂量和高剂量多粘菌素联合利福平治疗与单独多粘菌素或利福平治疗相比,均导致生物发光信号显著降低,而多粘菌素和美罗培尼联合治疗与单独治疗相比并未显示出更强的杀菌作用。体外细菌计数结果也证实,低剂量和高剂量多粘菌素联合利福平治疗均导致五种组织样本的菌落计数显著减少。然而,只有高剂量多粘菌素+美罗培尼联合治疗才能减少肺部和血液样本中的菌落计数。
与单药治疗相比,多粘菌素和利福平联合治疗可发挥协同作用,在临床实践中治疗 CRPA 感染可能是更好的选择。多粘菌素和美罗培尼的联合治疗应谨慎考虑,因为在目前的体内模型中几乎没有显示出协同作用。
