随着抗菌药物的广泛应用,耐药及多重耐药细菌已经严重威胁着人类和动物的健康。
The irrational application of antibiotics has seriously threatened the health of human being because of the continuously increasing drug-resistant of bacteria.
对抗生素高度多重耐药的所谓超级细菌就包括这种细菌。
The bacteria is one of the so called superbugs, which are resistant to antibiotics in some stages of their development in the system of a patient.
住院时间长、侵入性诊疗技术应用、细菌多重耐药是感染的主要因素。
The main correlative factors of the infection included long? Term hospitalization duration, application of aggressive procedure, and the existence of multi? Drug resistant bacteria.
耐药质粒可通过接合转移方式转移至其他细菌,这在多重耐药克雷伯氏菌暴发流行中具有重要意义。
The resistant plasmids can be transferred to other bacterial through conjugation and transformation, it is very important in the outbreak of KB infection.
目的:研究痢疾杆菌的耐药性及多重耐药性细菌性痢疾的抗生素治疗。
Objective: It is to study drug tolerance of Bacillus dysenteriae and antibiotic treatment on multiple drug tolerance bacillary dysentery.
细菌对抗生素有较高耐药性,且呈多重耐药。
The bacteria had high drug resistance to antibiotics, and with the attribute of multidrug resistance.
结论尿培养的病原菌仍以大肠埃希菌为主,但多重耐药的细菌分布呈上升趋势。
Conclusion The most common pathogen in urinary infection is Escherichia. coli, but the distribution of multidrug resistance bacteria has increasing tendency.
该菌占同期全部细菌的9.1%,多重耐药菌株的分离率为54.6%,泛耐药菌株的分离率1.9%。
The isolating rate of multiple drug resistant strains was 54.6% and 1.9% for pan-drug resistant strains.
由于各种抗生素的广泛使用,细菌耐药问题日趋严重,导致了铜绿假单胞菌产生了很强的耐药性而且多重耐药,铜绿假单胞菌通过多种途径产生耐药。
The varieties of antibiotics are used widely and the bacterial drug resistance appears greatly. P. aeruginosa have acquired a great resistance and multiple resistance by many methods.
由于各种抗生素的广泛使用,细菌耐药问题日趋严重,导致了铜绿假单胞菌产生了很强的耐药性而且多重耐药,铜绿假单胞菌通过多种途径产生耐药。
The varieties of antibiotics are used widely and the bacterial drug resistance appears greatly. P. aeruginosa have acquired a great resistance and multiple resistance by many methods.
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