动物源细菌耐药性研究现状与对策

目前我国动物源细菌耐药现象十分普遍,多重耐药甚至泛耐药的菌株不断出现,给公共卫生和食品安全造成了重大威胁。文中从我国动物源耐药性研究的主要问题、细菌耐药性形成和传播机制以及耐药性防控策略等几个方面进行综述,以期为耐药性的研究和防控提供参考。     

水产品中嗜水气单胞菌耐药性研究进展

嗜水气单胞菌Aeromonas hydrophila具有广泛的致病性,是水生动物最常见的致病菌之一。由于抗生素不合理使用、质粒以及耐药基因的水平转移等因素,来自零售市场、超市和餐厅的即食海鲜产品中,均可分离出大量的嗜水气单胞菌耐药菌株及其耐药基因。因此,探明关键控制点、寻求有效缓解抗生素耐药性的防控策略至关重要。文中介绍了我国嗜水气单胞菌的耐药现状,嗜水气单胞菌的主要侵染及耐药机制,以及目前削减和防控耐药性的主要手段和策略,并对水产品耐药性研究方向和重点作出展望。     

大熊猫源细菌耐药性研究进展

耐药菌和耐药基因已成为一种新型环境污染物,引发世界公共卫生问题。细菌耐药性尤其是多重耐药菌在人医临床、畜禽养殖以及环境传播等多个方面得到越来越多的关注,而关于大熊猫等野生动物的耐药性研究相对较少。大熊猫(Ailuropoda melanoleuca)是世界公认的珍稀野生动物,其种群数量易受到各种疾病的威胁,尤其是肠道细菌性疾病。随着抗菌药物在疾病预防和控制中的普遍使用,由此带来的耐药性危害日益明显。本文总结了关于大熊猫源细菌耐药的国内外研究报道,对其耐药表型、耐药基因型、耐药机制及水平传播机制等方面内容进行了综述,旨在为大熊猫源细菌耐药性的研究和防控提供依据,为临床科学用药提供理论参考,从而助力大熊猫迁地保护。     

细菌抵抗消毒剂及其对抗生素共耐药

消毒剂是一种可杀灭物体表面、器材设备、皮肤、空气和水源等传播媒介上携带的病原微生物的有机分子。它在体外能杀灭病原微生物,切断其传播途径,进而达到控制污染的目的,在生命安全防控中起着重要的作用。但是不合理地使用消毒剂导致细菌对消毒剂产生耐药。消毒剂耐药基因在不同种属间的水平转移加剧其传播风险,使消毒剂耐药情况进一步恶化。更令人担忧的是,细菌对消毒剂的耐药可能会导致对抗生素产生共耐药,给公共安全带来巨大的威胁。但目前为止,对消毒剂耐药以及共耐药的认识还不够全面。本文总结了关于细菌对消毒剂耐药的研究报道,对消毒剂的作用机制、细菌对消毒剂的耐药机制进行了论述,另外针对消毒剂耐药基因的传播以及细菌对消毒剂和抗生素的共耐药进行了综述,为减少消毒剂耐药性的产生和制定合理的消毒剂使用规范奠定基础。     

细菌抵抗消毒剂及其对抗生素共耐药

消毒剂是一种可杀灭物体表面、器材设备、皮肤、空气和水源等传播媒介上携带的病原微生物的有机分子。它在体外能杀灭病原微生物,切断其传播途径,进而达到控制污染的目的,在生命安全防控中起着重要的作用。但是不合理地使用消毒剂导致细菌对消毒剂产生耐药。消毒剂耐药基因在不同种属间的水平转移加剧其传播风险,使消毒剂耐药情况进一步恶化。更令人担忧的是,细菌对消毒剂的耐药可能会导致对抗生素产生共耐药,给公共安全带来巨大的威胁。但目前为止,对消毒剂耐药以及共耐药的认识还不够全面。本文总结了关于细菌对消毒剂耐药的研究报道,对消毒剂的作用机制、细菌对消毒剂的耐药机制进行了论述,另外针对消毒剂耐药基因的传播以及细菌对消毒剂和抗生素的共耐药进行了综述,为减少消毒剂耐药性的产生和制定合理的消毒剂使用规范奠定基础。     

细菌耐药影响肠道菌群及其宿主免疫调控

抗生素在养殖业、医疗业及制药业的广泛应用导致环境中的细菌耐药性日益严重,环境中的抗生素及耐药细菌一旦进入人体肠道,将破坏肠道菌群稳态,对人体健康造成威胁,而残存于饮食中的环境污染物则加剧了细菌耐药造成的人体健康影响。文中在总结大量文献的基础上,阐述了细菌耐药对人体和动物肠道菌群的影响机制及其相关的机体免疫调控,以环境中影响人体肠道菌群获得耐药性的来源作为切入点,阐述抗生素和耐药细菌进入人体肠道后对人体肠道菌群结构和耐药基因组成的影响,以及与人体免疫和免疫调节相关疾病之间的相关机制,并对今后的研究方向进行了展望。     

综述与专论：细菌的信号转导系统及其在耐药中的作用

耐药菌的日益增多给临床治疗带来巨大的困难,揭示耐药机制成为遏制耐药菌的基本环节。细菌的信号系统是菌体之间信息交流的主要渠道,在调控细菌耐药性方面发挥重要的作用。本文梳理了细菌双组分系统、群体感应系统、第二信使、吲哚等细菌信号系统(分子)与细菌耐药性的关系,总结了各信号系统调控细菌耐药性的机制和途径,包括调控生物膜的形成、调节药物外排泵的活性、激活抗生素灭活酶、提高耐药基因表达水平、促进耐药基因转移、修饰细胞壁结构等,涉及到细菌耐药的多个环节。各信号系统不仅可以独立调控耐药,还可以互相作用,形成调控网络,从多个层面调节细菌耐药性。因此,靶向细菌信号系统,阻断菌体之间的信号联络,有望成为遏制细菌耐药性日益严重的新策略。     

细菌对大环内酯类抗生素耐药的机制及控制策略

随着大环内酯类抗生素在临床的广泛使用,细菌对大环内酯类抗生素的耐药性日趋严重。细菌对大环内酯类药物耐药的机制,包括靶位(核糖体)的改变,细菌对大环内酯类抗生素的主动外排,细菌产生灭活大环内酯的酶等。本文就大环内酯类药物的耐药机制作一综述,并根据其耐药机制,从大环内酯类抗生素的结构修饰和主动外排抑制剂的应用等方面讨论了控制耐药性的策略。     

Meta分析在细菌耐药性研究中的应用与展望

随着抗生素的大量不规范使用,细菌耐药性不断增强,导致耐药及多重耐药细菌的出现,严重威胁着人类健康。运用统计学方法对耐药性相关研究进行汇总与多元分析,有助于更好地了解全球细菌耐药性的流行与分布,明晰细菌耐药性形成规律与机制的共性问题。Meta分析是一种将多个同类型研究进行综合分析的统计学方法,已广泛应用于细菌耐药性的研究。本文简要描述了Meta分析的起源及基本流程,并采用文献计量的方法对2000-2020年关于Meta分析在细菌耐药性研究中的应用进行系统综述;进一步总结并阐述了Meta分析在细菌耐药性领域应用的成功案例和结论,而且对Meta分析方法在细菌耐药性领域中的进一步研究进行了展望,以期推动该方法在细菌耐药性研究中的应用,为耐药性问题的系统阐释和有效控制提供可靠的工具。     

细菌耐药性应对策略研究进展

细菌耐药性(Antimicrobial resistance,AMR)持续增长,但新上市抗生素数量却持续下降。抗生素耐药基因(Antimicrobial resistance gene,ARG)和抗生素耐药菌感染已严重威胁人类健康。因此,需要多方面联合采取措施来应对AMR所带来的各种挑战,包括创新生物医药、改善抗生素使用和抗生素耐药监测系统、减少抗生素耐药基因产生速度、阻止健康护理相关感染和多重抗生素耐药菌传播与扩散、开发微生物学快速诊断方法与设备、减少临床和兽医抗生素滥用等。庆幸的是,AMR已受到各国政要、科学家和企业家等的高度重视与支持,相信随着新技术、新产品的不断问世和管理新措施的不断出台,AMR问题一定会得到控制和缓解。     

How to fight antimicrobial resistance

Antimicrobial misuse results in the development of resistance and superbugs. Over recent decades, resistance has been increasing despite continuing efforts to control it, resulting in increased mortality and cost. Many authorities have proposed local, regional and national guidelines to fight against this phenomenon, and the usefulness of these programmes has been evaluated. Multifaceted intervention seems to be the most efficient method to control antimicrobial resistance. Monitoring of bacterial resistance and antibiotic use is essential, and the methodology has now been homogenized. The implementation of guidelines and infection control measures does not control antimicrobial resistance and needs to be reinforced by associated measures. Educational programmes and rotation policies have not been evaluated sufficiently in the literature. Combination antimicrobial therapy is inefficient in controlling antimicrobial resistance.     

抗菌肽活性及天然抗菌肽的改造

抗菌肽具有抗菌谱广、热稳定性强、分子量小及免疫原性小等特点,其杀菌机制独特,病原菌不易产生耐药性,有望开发成新一代肽类抗生素。本文主要综述了影响抗菌肽生物活性的生化性质,即螺旋度、疏水性、两亲性、正电荷数等,并从结构的角度论述了其对抗菌肽抑菌活性的影响。部分抗菌肽具有空间结构不稳定、溶血活性等缺点,限制了其临床应用。因此,对天然抗菌肽的改造也成为目前抗菌肽的研究热点,本文还综述了天然抗菌肽的改造方法。     

Microarray analysis of antimicrobial resistance genes in Salmonella enterica from preharvest poultry environment

Aims:  To detect antimicrobial resistance genes in Salmonella isolates from turkey flocks using the microarray technology.
Methods and Results:  A 775 gene probe oligonucleotide microarray was used to detect antimicrobial resistance genes in 34 isolates. All tetracycline-resistant Salmonella harboured tet(A) , tet(C) or tet(R) , with the exception of one Salmonella serotype Heidelberg isolate. The sul1 gene was detected in 11 of 16 sulfisoxazole-resistant isolates. The aadA , aadA1 , aadA2 , strA or strB genes were found in aminoglycoside-resistant isolates of Salm. Heidelberg, Salmonella serotype Senftenberg and untypeable Salmonella . The prevalence of mobile genetic elements, such as class I integron and transposon genes, in drug-resistant Salmonella isolates suggested that these elements may contribute to the dissemination of antimicrobial resistance genes in the preharvest poultry environment. Hierarchical clustering analysis demonstrated a close relationship between drug-resistant phenotypes and the corresponding antimicrobial resistance gene profiles.
Conclusions:  Salmonella serotypes isolated from the poultry environment carry multiple genes that can render them resistant to several antimicrobials used in poultry and humans.
Significance and Impact of the Study:  Multiple antimicrobial resistance genes in environmental Salmonella isolates could be identified efficiently by microarray analysis. Hierarchical clustering analysis of the data was also found to be a useful tool for analysing emerging patterns of drug resistance.     

Evaluating the efficacy of antimicrobial cycling programmes and patient isolation on dual resistance in hospitals

Antibiotic-resistant bacteria cause a number of infections in hospitals and are considered a threat to public health. A strategy suggested to curb the development of resistant hospital-acquired infections is antimicrobial cycling, in which antibiotic classes are alternated over time. This can be compared with a mixing programme in which, when given two drugs, half of the physicians prescribe one drug over the other. A mathematical model of antimicrobial cycling in a hospital population setting is developed to evaluate the efficacy of a cycling programme with an emphasis on reducing the emergence and significance of dual resistance. The model also considers the effects of physician compliance and isolating patients harbouring dual-resistant bacteria. Simulation results show that the optimal antimicrobial drug usage programme in hospital populations depends upon the type of resistance being targeted for treatment; a cycling programme is more effective against dual resistance compared with mixing. Patient isolation and high compliance to a cycling programme is also shown to dramatically decrease dual resistance in hospitalized populations. Ultimately, the exclusive use of antimicrobials in fighting nosocomial infection does not solve the problem but just slows down what appears to be a losing battle against drug resistance. We hope that this paper serves to instigate discussion on the many dimensions of the complex problem of drug resistance in hospital settings.     

Antimicrobial Residues and Antimicrobial-Resistant Bacteria: Impact on the Microbial Environment and Risk to Human Health—A Review

Water quality has become a major environmental concern due to the presence of potentially harmful bacteria, protozoa, and chemicals. In particular, pharmaceuticals have recently gained prominence due to their potential negative effects on both the aquatic environment and on human health. The antimicrobial classes of penicillins, cephalosporins, macrolides, and fluoroquinolones are among the most frequent pharmaceuticals detected in the environment in Europe. The common route of entry of these antimicrobials into the environment is thought to be through wastewater treatment plant (WWTP) effluent. The main concern with regard to antimicrobial agents is the potential formation of antimicrobial resistance. Evidence suggests WWTPs may promote development of antimicrobial resistance. This study reviews antimicrobial residues typically found in treated water, their sources, process barriers, entry into the environment, and consequent human health concerns. The effects of WWTP on residues and the formation of antimicrobial-resistant bacteria are also discussed in addition to current risk assessment approaches for evaluating human health concerns, including development of antimicrobial resistance and resultant therapeutic failure. The uncertainty surrounding the fate and impact of different classes of antimicrobials in the environment is highlighted in addition to the lack of standardised methods to detect antimicrobials and to assess selective pressures.     

临床病原菌种类及耐药性监测

目的 探讨病原菌种类及其对抗菌药物的耐的耐药状况。方法 收集１９９８年１月－１９９９年１２月临床感染标本分离的病原菌并分析其种类,药敏试验采用Ｋｉｒｂｙ－Ｂａｕｅｒ纸片扩散法。结果 １１８２株病原菌,革兰氏阳性球菌６０４株（５１．１％）,革兰氏阴性杆菌５７８株（４８．９％）。病原菌以金黄一萄球菌、大肠埃希菌、表皮葡萄球菌、铜绿假单胞菌最多见。去甲万古霉素、阿米卡星、新霉素对革兰氏阳性球菌抗菌作用较     

Development of an antimicrobial formulation for control of specimen-related contamination in phage-based diagnostic testing for tuberculosis

AIMS: To develop and evaluate an antimicrobial supplement for use with phage-based tests for rapid detection of drug resistance of tuberculosis (TB). METHODS AND RESULTS: An antimicrobial formulation containing nystatin, oxacillin and aztreonam (NOA) (final concentrations of 50,000 IU l(-1), 2 mg l(-1), and 30 mg l(-1) respectively) was developed. This formulation was tested for its influence on detection of a number of Mycobacterium tuberculosis (MTB) strains using the phage amplification (FASTPlaque) assay. Addition of the supplement did not lead to significant reduction in assay sensitivity. Antimicrobial efficacy was assessed with a range of Gram-positive and -negative organisms. The NOA supplement had a broad antimicrobial effect. The supplement was tested for its effect on growth of MTB culture, and on determination of rifampicin resistance using the phage-based methodology (FASTPlaque-Response). NOA did not significantly affect the growth of a range of rifampicin susceptible and resistant MTB strains, nor did it have an adverse effect on the number of interpretable results, nor the ability to discriminate between rifampicin susceptibility and resistance. CONCLUSION, SIGNIFICANCE AND IMPACT OF STUDY: Use of NOA antimicrobial supplement with rapid phage-based tests for TB will increase the proportion of interpretable results obtained, and enable their wider implementation in disease-endemic countries by improved control of specimen-related contamination.     

艰难梭菌耐药性及耐药机制研究进展

艰难梭菌(Clostridium difficile)是医疗保健相关性腹泻最主要的病原菌。2002年起欧美地区艰难梭菌感染发病率和病死率均明显增高,耐药艰难梭菌的出现和传播更给临床治疗和预防带来了挑战。绝大多数临床分离菌对甲硝唑及万古霉素仍呈高度敏感,但已有异质性耐药或最低抑菌浓度上升的报道;对红霉素和莫西沙星等其他抗菌药物的耐药率在不同国家和地区则有较大差异。艰难梭菌对甲硝唑或万古霉素敏感性下降产生的耐药机制尚不明确,而对红霉素、氟喹诺酮类、四环素和利福霉素形成的耐药机制主要是因为作用靶点发生了改变。文章简述了近年来国际上艰难梭菌耐药性及耐药机制方面的研究进展。     

‘To be,or not to be’—The dilemma of ‘silent’ antimicrobial resistance genes in bacteria

Antimicrobial resistance is a serious threat to public health that dramatically undermines our ability to treat bacterial infections. Microorganisms exhibit resistance to different drug classes by acquiring resistance determinants through multiple mechanisms including horizontal gene transfer. The presence of drug resistance genotypes is mostly associated with corresponding phenotypic resistance against the particular antibiotic. However, bacterial communities harbouring silent antimicrobial resistance genes—genes whose presence is not associated with a corresponding resistant phenotype do exist. Under suitable conditions, the expression pattern of such genes often revert and regain resistance and could potentially lead to therapeutic failure. We often miss the presence of silent genes, since the current experimental paradigms are focused on resistant strains. Therefore, the knowledge on the prevalence, importance and mechanism of silent antibiotic resistance genes in bacterial pathogens are very limited. Silent genes, therefore, provide an additional level of complexity in the war against drug-resistant bacteria, reminding us that not only phenotypically resistant strains but also susceptible strains should be carefully investigated. In this review, we discuss the presence of silent antimicrobial resistance genes in bacteria, their relevance and their importance in public health.