Fish D N, Piscitelli S C, Danziger L H
University of Colorado Health Sciences Center, Department of Pharmacy Practice, School of Pharmacy, Denver 80262, USA.
Pharmacotherapy. 1995 May-Jun;15(3):279-91.
The incidence of emergent resistance and clinical factors affecting its development were evaluated by retrospective review of 173 studies encompassing over 14,000 patients. Eight antibiotic classes and 225 individual treatment regimens were evaluated. Emergent resistance occurred among 4.0% of all organisms and 5.6% of all infections treated. It appeared to be significantly more frequent with penicillin and aminoglycoside monotherapy, with significantly lower rates associated with imipenem-cilastatin, aztreonam, and combination therapy. Clinical failure also appeared to be significantly more likely to occur after emergence of resistance among organisms treated with fluoroquinolones or aminoglycosides. Infections associated with higher resistance rates were cystic fibrosis, osteomyelitis, and lower respiratory tract infections. Resistance was most common in patients in intensive care units or receiving mechanical ventilation. It was also significantly frequent among studies performed in university or teaching hospitals. Organisms associated with high resistance rates were Pseudomonas aeruginosa, Serratia, Enterobacter, and Acinetobacter sp. Factors such as infection type, underlying diseases, type of institution, and specific pathogens warrant consideration when examining emergent resistance.
通过对173项涵盖14000多名患者的研究进行回顾性分析,评估了紧急耐药的发生率及其发生的临床影响因素。评估了八类抗生素和225种个体治疗方案。在所有接受治疗的微生物中,紧急耐药发生率为4.0%,在所有感染中为5.6%。青霉素和氨基糖苷类单药治疗时紧急耐药似乎更为常见,而亚胺培南-西司他丁、氨曲南及联合治疗的发生率则显著较低。在用氟喹诺酮类或氨基糖苷类治疗的微生物中出现耐药后,临床失败似乎也更有可能发生。与较高耐药率相关的感染有囊性纤维化、骨髓炎和下呼吸道感染。耐药在重症监护病房患者或接受机械通气的患者中最为常见。在大学或教学医院进行的研究中也显著常见。与高耐药率相关的微生物有铜绿假单胞菌、沙雷氏菌、肠杆菌和不动杆菌属。在研究紧急耐药时,感染类型、基础疾病、机构类型和特定病原体等因素值得考虑。