Maglio Dana, Ong Christine, Banevicius Mary Anne, Geng Qiuming, Nightingale Charles H, Nicolau David P
Center for Anti-Infective Research and Development, Hartford Hospital, 80 Seymour St., Hartford, CT 06102, USA.
Antimicrob Agents Chemother. 2004 Jun;48(6):1941-7. doi: 10.1128/AAC.48.6.1941-1947.2004.
Cefepime was evaluated in vivo against two inoculum sizes of four strains of Escherichia coli that produced extended-spectrum beta-lactamases (ESBLs) in a murine neutropenic thigh infection model to characterize the pharmacodynamic activity of cefepime in the presence of ESBL-producing bacteria and to evaluate if differences in lengths of cefepime exposure are required with various inocula. Three strains possessed a single enzyme each: TEM-10, TEM-12, and TEM-26. The fourth strain possessed two TEM-derived ESBLs and a third uncharacterized enzyme. Two non-ESBL-producing E. coli strains were included for comparison. Mice received various doses of cefepime to achieve a spectrum of percentages of time the drug was above the MIC (%T>MICs) for each isolate at both inocula. No significant difference in cefepime exposure was required to achieve similar bactericidal effects for ESBL- and non-ESBL-producing isolates when the starting inoculum was 10(5) CFU of E. coli per thigh. The increased MICs observed in vitro for the ESBL-producing strains at 10(7) CFU/ml did not predict the amount of exposure required to achieve a comparable level of bactericidal activity in vivo at the corresponding starting inoculum of 10(7) CFU/thigh. Compared to the cefepime exposure in tests with the lower inoculum (10(5) CFU/thigh), less exposure was required when the starting inoculum was 10(7) CFU/thigh (%T>MIC, 6% versus 26%), such that similar doses (in milligrams per kilogram of body weight) produced similar bactericidal effects with both inocula of ESBL-producing isolates. Equivalent exposures of cefepime produced similar effects against the microorganisms regardless of the presence of ESBL production. Pharmacodynamic profiling undertaken with conventional cefepime MIC determinations predicted in vivo microbial outcomes at both inoculum sizes for the ESBL-producing isolates evaluated in this study. These data support the use of conventional MIC determinations in the pharmacodynamic assessment of cefepime.
在小鼠中性粒细胞减少大腿感染模型中,对头孢吡肟针对两种接种量的四株产超广谱β-内酰胺酶(ESBLs)的大肠杆菌进行了体内评估,以表征头孢吡肟在产ESBL细菌存在时的药效学活性,并评估不同接种量是否需要不同的头孢吡肟暴露时长。三株菌各含有一种单一酶:TEM-10、TEM-12和TEM-26。第四株菌含有两种TEM衍生的ESBLs和第三种未鉴定的酶。纳入了两株不产ESBL的大肠杆菌菌株作比较。小鼠接受不同剂量的头孢吡肟,以在两种接种量下达到药物高于各分离株最低抑菌浓度(%T>MIC)的时间百分比范围。当起始接种量为每只大腿10⁵CFU大肠杆菌时,对于产ESBL和不产ESBL的分离株,实现相似杀菌效果所需的头孢吡肟暴露无显著差异。在体外观察到产ESBL菌株在10⁷CFU/ml时最低抑菌浓度增加,但这并不能预测在相应起始接种量为每只大腿10⁷CFU时在体内实现可比杀菌活性水平所需的暴露量。与较低接种量(10⁵CFU/大腿)试验中的头孢吡肟暴露相比,当起始接种量为10⁷CFU/大腿时所需暴露较少(%T>MIC,6%对26%),因此相似剂量(每千克体重毫克数)对产ESBL分离株的两种接种量均产生相似杀菌效果。无论是否产ESBL,头孢吡肟的等效暴露对微生物产生相似效果。用常规头孢吡肟最低抑菌浓度测定进行的药效学分析预测了本研究中评估的产ESBL分离株在两种接种量下的体内微生物学结果。这些数据支持在头孢吡肟的药效学评估中使用常规最低抑菌浓度测定。