{"title":"基于 PCR 的皮肤感染马氏分枝杆菌快速诊断方法","authors":"Yanan Li, Yahui Feng, Dongmei Li, Dongmei Shi, Guanzhi Chen","doi":"10.2147/idr.s463798","DOIUrl":null,"url":null,"abstract":"<strong>Objective:</strong> The increasing incidence of chronic skin infections caused by <em>Mycobacterium marinum</em>, coupled with the time-consuming and low detection rates nature of traditional culture and histological-based diagnostic methods, underscores the need for an expedited approach. The study aims to develop a rapid and efficient method for detecting <em>M. marinum</em> with PCR technology.<br/><strong>Methods:</strong> We designed four pairs of primers based on DNA sequences from GeneBank and prior studies, we utilized both PCR and Real-time PCR to identify <em>M. marinum</em>. Specificity and sensitivity assessments were conducted in vitro by DNAs extracted from <em>M. marinum</em> and other bacterial or fungal cultures. Further validation was performed through the implementation of a mouse skin infection model to optimize and confirm the efficacy of the detection method in both fresh and paraffin-embedded skin tissues. The same PCR testing system was further confirmed with paraffin-embedded skin tissues samples from patients as well.<br/><strong>Results:</strong> The results of the study indicate promising outcomes for the four-pair primers system. It demonstrated 100% sensitivity in detecting <em>M. marinum</em> from purified cultures, including typical strains and nine clinical isolates, while achieving a specificity of 100%. This specificity was evidenced by the absence of PCR products from 12 bacterial species, 12 fungi species, and six other non-tuberculous mycobacterium (NTM) species. In the animal model, the PCR assay exhibited high detection efficacy for both infected fresh tissues and paraffin-embedded tissues, with a slight superiority observed in fresh tissues. However, the PCR assay exhibited high detection efficacy for clinical paraffin-embedded tissues. These findings collectively underscore the robust detection capabilities of our four-pair primers in both in vitro and in vivo settings.<br/><strong>Conclusion:</strong> A sensitive and highly specific rapid detection system has been successfully developed that can be used to detect <em>M. marinum</em> in both infected fresh tissues and paraffin-embedded tissues.<br/><br/><strong>Keywords:</strong> <em>Mycobacterium marinum</em>, bacteria, infected tissue, paraffin-embedded tissue, PCR technique<br/>","PeriodicalId":13577,"journal":{"name":"Infection and Drug Resistance","volume":null,"pages":null},"PeriodicalIF":2.9000,"publicationDate":"2024-07-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"A Rapid PCR-Based Diagnostic Method for Skin Infection with Mycobacterium marinum\",\"authors\":\"Yanan Li, Yahui Feng, Dongmei Li, Dongmei Shi, Guanzhi Chen\",\"doi\":\"10.2147/idr.s463798\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<strong>Objective:</strong> The increasing incidence of chronic skin infections caused by <em>Mycobacterium marinum</em>, coupled with the time-consuming and low detection rates nature of traditional culture and histological-based diagnostic methods, underscores the need for an expedited approach. The study aims to develop a rapid and efficient method for detecting <em>M. marinum</em> with PCR technology.<br/><strong>Methods:</strong> We designed four pairs of primers based on DNA sequences from GeneBank and prior studies, we utilized both PCR and Real-time PCR to identify <em>M. marinum</em>. Specificity and sensitivity assessments were conducted in vitro by DNAs extracted from <em>M. marinum</em> and other bacterial or fungal cultures. Further validation was performed through the implementation of a mouse skin infection model to optimize and confirm the efficacy of the detection method in both fresh and paraffin-embedded skin tissues. The same PCR testing system was further confirmed with paraffin-embedded skin tissues samples from patients as well.<br/><strong>Results:</strong> The results of the study indicate promising outcomes for the four-pair primers system. It demonstrated 100% sensitivity in detecting <em>M. marinum</em> from purified cultures, including typical strains and nine clinical isolates, while achieving a specificity of 100%. This specificity was evidenced by the absence of PCR products from 12 bacterial species, 12 fungi species, and six other non-tuberculous mycobacterium (NTM) species. In the animal model, the PCR assay exhibited high detection efficacy for both infected fresh tissues and paraffin-embedded tissues, with a slight superiority observed in fresh tissues. However, the PCR assay exhibited high detection efficacy for clinical paraffin-embedded tissues. 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引用次数: 0
摘要
目的:由马林分枝杆菌引起的慢性皮肤感染发病率不断上升,而传统的培养和组织学诊断方法耗时长、检出率低,因此需要一种快速的方法。本研究旨在利用 PCR 技术开发一种快速、高效的方法来检测马林诺霉菌:方法:我们根据基因库中的 DNA 序列和先前的研究设计了四对引物,并利用 PCR 和实时 PCR 来鉴定 M. marinum。通过从马氏酵母菌和其他细菌或真菌培养物中提取的 DNA 在体外进行了特异性和灵敏度评估。通过小鼠皮肤感染模型进行了进一步验证,以优化和确认检测方法在新鲜和石蜡包埋皮肤组织中的有效性。同样的 PCR 检测系统也在石蜡包埋的患者皮肤组织样本中得到了进一步确认:结果:研究结果表明,四对引物系统具有良好的效果。它从纯化培养物(包括典型菌株和九个临床分离株)中检测 M. marinum 的灵敏度为 100%,特异性为 100%。12 种细菌、12 种真菌和 6 种其他非结核分枝杆菌 (NTM) 的 PCR 产物均未检出,证明了该方法的特异性。在动物模型中,PCR 检测法对受感染的新鲜组织和石蜡包埋组织都有很高的检测效力,在新鲜组织中略胜一筹。不过,PCR 检测法对临床石蜡包埋组织的检测率较高。这些发现共同强调了我们的四对引物在体外和体内环境中的强大检测能力:结论:我们成功开发了一种灵敏度高、特异性强的快速检测系统,可用于检测受感染的新鲜组织和石蜡包埋组织中的马氏分枝杆菌:马氏分枝杆菌 细菌 感染组织 石蜡包埋组织 PCR技术
A Rapid PCR-Based Diagnostic Method for Skin Infection with Mycobacterium marinum
Objective: The increasing incidence of chronic skin infections caused by Mycobacterium marinum, coupled with the time-consuming and low detection rates nature of traditional culture and histological-based diagnostic methods, underscores the need for an expedited approach. The study aims to develop a rapid and efficient method for detecting M. marinum with PCR technology. Methods: We designed four pairs of primers based on DNA sequences from GeneBank and prior studies, we utilized both PCR and Real-time PCR to identify M. marinum. Specificity and sensitivity assessments were conducted in vitro by DNAs extracted from M. marinum and other bacterial or fungal cultures. Further validation was performed through the implementation of a mouse skin infection model to optimize and confirm the efficacy of the detection method in both fresh and paraffin-embedded skin tissues. The same PCR testing system was further confirmed with paraffin-embedded skin tissues samples from patients as well. Results: The results of the study indicate promising outcomes for the four-pair primers system. It demonstrated 100% sensitivity in detecting M. marinum from purified cultures, including typical strains and nine clinical isolates, while achieving a specificity of 100%. This specificity was evidenced by the absence of PCR products from 12 bacterial species, 12 fungi species, and six other non-tuberculous mycobacterium (NTM) species. In the animal model, the PCR assay exhibited high detection efficacy for both infected fresh tissues and paraffin-embedded tissues, with a slight superiority observed in fresh tissues. However, the PCR assay exhibited high detection efficacy for clinical paraffin-embedded tissues. These findings collectively underscore the robust detection capabilities of our four-pair primers in both in vitro and in vivo settings. Conclusion: A sensitive and highly specific rapid detection system has been successfully developed that can be used to detect M. marinum in both infected fresh tissues and paraffin-embedded tissues.
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ISSN: 1178-6973
Editor-in-Chief: Professor Suresh Antony
An international, peer-reviewed, open access journal that focuses on the optimal treatment of infection (bacterial, fungal and viral) and the development and institution of preventative strategies to minimize the development and spread of resistance.