Bacterial resistance to antibiotics is a natural biological phenomenon.
细菌对抗生素产生耐药性是一种自然生物现象。
The growing problem of bacterial resistance is a serious threat to human health.
细菌耐药性的日益凸显严重威胁着人类健康。
Objective: To investigate and analyze the bacterial resistance of clinical isolates.
目的:分析临床分离细菌的耐药性情况。
There are very intimate relationships between nosocomial infection and bacterial resistance.
医院感染与细菌性耐药密切相关。造成细菌性耐药的因素众多。
This scientific strategy represents a novel approach to addressing the global bacterial resistance crisis.
这一科学战略是对解决全球细菌耐药性危机的新方法。
Aim to analyze the types of neonatal sepsis and bacterial resistance so as to provide basis for clinical treatment.
目的分析新生儿败血症病原菌的种类及细菌耐药情况,为临床治疗提供依据。
Bacterial resistance is a serious problem faced in the modern medical circle, which endanger human health and survival.
细菌耐药性的产生是当今医学界所普遍面临的严重问题,危害着人类的健康和生存。
Strict implement of the Guiding Principles of Clinical Use of Antibiotics can effectively reduce the bacterial resistance rate.
严格执行《抗菌药物临床应用指导原则》,可有效降低细菌耐药率。
The problem of bacterial resistance is getting worse, causing great concern in the world due to its great threat to human health.
细菌耐药问题日趋严重,对人类健康造成极大威胁,成为全球关注的热点。
The problem of bacterial resistance is getting worse, causing great concern in the globe due to its heavy threat to human being health.
细菌耐药问题日趋严重,对人类健康造成极大威胁,成为全球关注的热点。
The need for new ways to control bacteria reflects the rapid evolution and spread of bacterial resistance to the most powerful antibiotics.
对抑制细菌新途径的需求反映了细菌对强效抗生素的抵抗能力的快速演变与散播。众多制药公司已不再以抗生素作为优先考虑研究的对象。
OBJECTIVE to investigate the bacterial resistance of our hospital in past two years, and to analyze the result of clinical antibiotics control.
目的针对本院近两年临床常见致病菌的耐药情况,提出临床经验性的抗菌药物的用药指引。
Deodorizing methods include chemical, physical, analogous biological catalysis as well as catalytic oxidation types besides bacterial resistance.
目前的除臭方法除抗菌法外,还包括化学除臭、物理除臭、类似生物催化除臭以及催化氧化除臭等方法。
Objective: to investigate the Gram negative bacterial resistance rates in ICU and discuss how to treat infections caused by these resistant strains.
目的:调查从我院重症监护病房(icu)患者中分离的革兰阴性杆菌耐药状况,并探讨对耐药菌感染的治疗策略。
Comment: Together, these results describe a major and increasingly prevalent problem of bacterial resistance that is not confined to acute medical care Settings.
评论:总体而言,这些研究结果描述了一个主要的且日益普遍的细菌耐药性问题,这一问题已不只存在于急症医疗机构。
With the extensive use of the antibiotic and the continuous emerging of the bacterial resistance, the work of finding new drugs to ensure peoples health imperative.
随着抗生素的广泛使用和细菌耐药性的不断出现,人们必须不断寻找新药,以保障人类的健康。
Therefore, design and synthesis of new macrolide derivatives against resistant bacteria based on new target sites is an important way to overcome bacterial resistance.
因此,基于新靶点设计合成抗耐药菌大环内酯抗生素,是解决细菌耐药性的一条重要途径。
Rational mechanism for bacterial resistance to antibiotics, and in its prevention and control of rational thinking is to improve the cure rate of infectious diseases lies.
细菌耐药性的出现和耐药细菌的感染常使经验性治疗难以奏效。
Objective:To observe the Gram-negative bacterial resistance in patients in Intensive Care Unit(ICU) and to discuss how to treat infections caused by these resistant strains.
目的:监测重症监护治疗病房患者中分离的革兰阴性杆菌耐药状况,探讨对耐药菌感染的治疗策略。
Conclusion the climate and the way of using antibiotics exerted direct effects on the status of the bacterial ecology and change in bacterial resistance to various antibiotics.
结论气候环境及抗菌药物的应用对细菌生态学的分布和耐药性的变化有直接影响。
Abstract: The over-use of antibiotics in pig production has caused problems such as bacterial resistance and animal drug residue in pork product, which is harmful for health of animals and human.
摘要:抗生素在养猪生产中的大量使用可导致细菌耐药性的产生、肉及肉制品药物残留等问题,危害动物和人的健康。
Abstract: The over-use of antibiotics in pig production has caused problems such as bacterial resistance and animal drug residue in pork product, which is harmful for health of animals and human.
摘要抗生素在养猪生产中的大量使用可导致细菌耐药性的产生、肉及肉制品药物残留等问题,危害动物和人的健康。
With the extensive use of the antibiotics, especially abuse, the serious problem of bacterial resistance has happened in clinic, which results in a decrease in curative effect, and even no effect.
但是,随着抗生素的广泛应用,特别是持续、不当使用,在临床上出现了严重的耐药问题,耐药性产生的直接后果是严重影响临床疗效,甚至导致治疗失败。
They added that an increase in antimicrobial resistance and virulence of bacterial pathogens after passage through protozoa has been previously demonstrated.
他们补充道:“通过原生生物这个途径繁殖的细菌的抗药性及毒性会得到提高在很早前就得以证实。”
The team used zinc fingers that specifically target the IPK1 gene and then added bacterial DNA that would disrupt the gene while at the same time conferring herbicide resistance to the plant.
他们团队用利用锌指结构以IPK1基因为目标,另外添加可以中断此基因同时赋予植物抗除草剂性质的细菌DNA序列。
The efficiency of antibiotics is decreasing due to the spread of a bacterial gene conferring high levels of drug resistance.
由于一种细菌基因的蔓延,造成了高度耐药性,抗生素的效力正在节节下降。
Superbugs evolve when common bacterial infections develop resistance to the drugs used to treat them.
超级病毒是由那些产生抗药性的常见细菌演变而来的。
Bacteria exposed to the drugs develop resistance, Mitchell said, so “we have the risk of creating these bacterial monsters.”
暴露在药物下的细菌能够产生抗药性,因此,米歇尔说:“我们面临正制造这些细菌怪物的危险。”
Bacteria exposed to the drugs develop resistance, Mitchell said, so “we have the risk of creating these bacterial monsters.”
暴露在药物下的细菌能够产生抗药性,因此,米歇尔说:“我们面临正制造这些细菌怪物的危险。”
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