动物生产中抗生素耐药性的现状。

A Franklin
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引用次数: 0

摘要

人们普遍认为,我们使用的抗生素越多,细菌产生耐药性的速度就越快。此外,人们已经或多或少地接受了这样一种观点,即一旦抗生素从临床中撤出,耐药基因将最终消失,因为它们将不再对细菌细胞有任何生存价值。然而,最近的研究表明,在长时间接触抗生素后,某些细菌物种可能会适应这种环境,从而在去除抗生素后也能稳定地保持其耐药基因。因此,我们有理由相信,耐药性一旦产生,从长远来看甚至无法根除。那么,我们怎样才能不进一步增加动物体内已经很高水平的耐抗生素细菌呢?我们当然应该鼓励谨慎使用这些有价值的药物。在瑞典,抗生素不用于促进生长的目的,只有在严格的兽医处方适应症后才能获得。一般来说,除非与相关诊断有关,否则不应考虑对个体或群体的动物进行抗菌治疗。应密切监测抗生素的使用量和重要病原体的耐药性发展情况。此外,对某些非致病性肠道细菌的耐药性监测可能比迄今预期的更为重要,这些细菌可能作为耐药基因的储存库。一旦某种抗生素的使用或耐药性似乎以惊人的方式增加,就应采取措施限制该药物的使用,以防止耐药基因在动物、人类和环境中进一步传播。必须开发更好的检测和量化抗生素耐药性的方法。筛选方法必须标准化和评估,以便从不同国家获得可比较和可靠的结果。抗性发生和抗性基因传播的遗传机制有待进一步研究。这些领域的研究将为如何抑制抗性机制提供新的思路。到目前为止,已经确定的是,过度拥挤的生产动物种群中严重的抗微生物药物选择压力为抗生素抗性基因的出现和传播创造了有利的环境。
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Current status of antibiotic resistance in animal production.

It is generally accepted that the more antibiotics we use, the faster bacteria will develop resistance. Further it has been more or less accepted that once an antibiotic is withdrawn from the clinic, the resistance genes will eventually disappear, [table: see text] since they will no more be of any survival value for the bacterial cell. However, recent research has shown that after a long time period of exposure to antibiotics, certain bacterial species may adapt to this environment in such a way that they keep their resistance genes stably also after the removal of antibiotics. Thus, there is reason to believe that once resistance has developed it will not even in the long term be eradicated. What then can we do not to increase further the already high level of antibiotic-resistant bacteria in animals? We should of course encourage a prudent use of these valuable drugs. In Sweden antibiotics are not used for growth promoting purposes and are available only after veterinary prescription on strict indications. Generally, antimicrobial treatment of animals on individual or on herd basis should not be considered unless in connection with relevant diagnostics. The amounts of antibiotics used and the development of resistance in important pathogens should be closely monitored. Furthermore, resistance monitoring in certain non-pathogenic intestinal bacteria, which may serve as a reservoir for resistance genes is probably more important than hitherto anticipated. Once the usage of or resistance to a certain antibiotic seems to increase in an alarming way, steps should be taken to limit the usage of the drug in order to prevent further spread of resistance genes in animals, humans and the environment. Better methods for detecting and quantifying antibiotic resistance have to be developed. Screening methods must be standardized and evaluated in order to obtain comparable and reliable results from different countries. The genetic mechanisms for development of resistance and spread of resistance genes should be studied in detail. Research in these areas will lead to new ideas on how to inhibit the resistance mechanisms. So far, it has been well established that a heavy antimicrobial drug selective pressure in overcrowded populations of production animals creates favourable environments both for the emergence and the spread of antibiotic resistance genes.

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