Amplification of Antimicrobial Resistance in Gut Flora of Patients Treated with Ceftriaxone

Abstract

Although antibacterial therapy has an impact on human intestinal flora and the emergence of resistant bacteria, its role in the amplification of antimicrobial resistance and the quantitative exposure-effect relationship is not clear. An observational prospective study was conducted to determine whether and how ceftriaxone exposure is related to amplification of resistance in non-intensive care unit (non-ICU) patients. Serial stool samples from 122 extended-spectrum β-lactamase-positive (ESBL⁺) hospitalized patients were analyzed by quantitative real-time PCR to quantify the resistant gene bla_CTX-M Drug exposure was calculated for each patient by using a population pharmacokinetic model. Multi- and univariate regression and classification regression tree (CART) analyses were used to explore relationships between measures of exposure and amplification of bla_CTX-M genes. Amplification of bla_CTX-M was observed in 0% (0/11) of patients with no treatment and 33% (20/61) of patients treated with ceftriaxone. Stepwise regression analysis showed a significant association between amplification of bla_CTX-M and the plasma area under the concentration-time curve from 0 to 24 h for the unbound fraction of the drug (fAUC_0-24), the maximum concentration of drug in serum for the unbound fraction of the drug (fC_max), and the duration of ceftriaxone therapy. Using CART analysis, amplification of bla_CTX-M was observed in 11/16 (69%) patients treated for >14 days and in 9/40 (23%) patients treated for ≤14 days (P = 0.0019). In the latter group, amplification was observed in 5/7 (71%) patients with an fAUC_0-24 of ≥222 mg · h/liter and in 4/33 (12%) patients with lower drug exposures (P = 0.0033). A similar association was found for an fC_max of ≥30 mg/liter (63% versus 13%, P = 0.0079). A significant association was found between the amplification of bla_CTX-M resistance genes and exposure to ceftriaxone. Both duration of treatment and degree of ceftriaxone exposure have a significant impact on the amplification of resistance genes. (The project described in this paper has been registered at ClinicalTrials.gov under identifier NCT01208519.).

Keywords: ceftriaxone; pharmacodynamics; pharmacokinetics; resistance.