Lewis R E, Lund B C, Klepser M E, Ernst E J, Pfaller M A
University of Iowa College of Pharmacy, Iowa City 52242-1112, USA.
Antimicrob Agents Chemother. 1998 Jun;42(6):1382-6. doi: 10.1128/AAC.42.6.1382.
We evaluated the pharmacodynamic activities of fluconazole and amphotericin B given alone and in combination against Candida albicans by using an in vitro model of bloodstream infection that simulates human serum pharmacokinetic parameters for these antifungals. Fluconazole was administered as a bolus into the model to simulate regimens of 200 mg every 24 h (q24 h) and 400 mg q24 h. Amphotericin B was administered at doses producing the peak concentration (2.4 micrograms/ml) observed with a regimen of 1 mg/kg of body weight q24 h. A combination regimen of fluconazole (400 mg q24 h) and amphotericin B (1 mg/kg q24 h) administered simultaneously and as a staggered regimen (amphotericin B bolus given 8 h after fluconazole bolus) was also simulated in the model to characterize possible antagonism between these agents. Fluconazole alone and amphotericin B alone demonstrated fungistatic (< 99.9% reduction in numbers of CFU per milliliter from the starting inoculum) and fungicidal (> 99.9% reduction) activity, respectively. When fluconazole and amphotericin B were administered simultaneously, fungicidal activity similar to that observed with amphotericin B alone was observed. Staggered administration of fluconazole and amphotericin B, however, resulted in a substantial reduction of the fungicidal activity of amphotericin B, producing fungistatic activity similar to that observed with noncombination fluconazole regimens. These results demonstrate the usefulness of this model for comparing the in vitro pharmacodynamic characteristics of different antifungal regimens and support the theory of azole-polyene antagonism. The effects of this antagonism on the in vivo activity and clinical usefulness of combination antifungal therapy, however, remain to be determined.
我们通过使用一种血流感染体外模型来评估氟康唑和两性霉素B单独及联合应用对白色念珠菌的药效学活性,该模型模拟了这些抗真菌药物在人血清中的药代动力学参数。将氟康唑以推注方式给予模型,以模拟每24小时200毫克(q24 h)和每24小时400毫克的给药方案。两性霉素B的给药剂量产生了每24小时1毫克/千克体重给药方案所观察到的峰值浓度(2.4微克/毫升)。在模型中还模拟了氟康唑(每24小时400毫克)和两性霉素B(每24小时1毫克/千克)同时给药以及交错给药方案(氟康唑推注8小时后给予两性霉素B推注),以表征这些药物之间可能的拮抗作用。单独使用氟康唑和单独使用两性霉素B分别表现出抑菌(每毫升CFU数量较起始接种量减少<99.9%)和杀菌(减少>99.9%)活性。当氟康唑和两性霉素B同时给药时,观察到与单独使用两性霉素B时相似的杀菌活性。然而,氟康唑和两性霉素B交错给药导致两性霉素B的杀菌活性大幅降低,产生了与非联合氟康唑给药方案相似的抑菌活性。这些结果证明了该模型在比较不同抗真菌给药方案体外药效学特征方面的有用性,并支持唑类 - 多烯类拮抗理论。然而,这种拮抗作用对联合抗真菌治疗的体内活性和临床实用性的影响仍有待确定。