Mycobacteriosis and Tuberculosis: Laboratory Diagnosis.

Q3 Immunology and Microbiology Open Microbiology Journal Pub Date : 2018-03-30 eCollection Date: 2018-01-01 DOI:10.2174/1874285801812010041
Davood Azadi, Tahereh Motallebirad, Kazem Ghaffari, Hasan Shojaei
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引用次数: 32

Abstract

Background: Tuberculosis is one of the most important infectious diseases that has claimed its victims throughout much of known human history. With Koch's discovery of the tubercle bacillus as the etiologic agent of the disease, his sanitary and hygienic measures, which were based on his discovery and the development of a vaccine against tuberculosis by Albert Calmette and Camille Guérin in 1921, an attenuated Mycobacterium bovis strain, bacilli Calmette-Guérin (BCG), and the discovery of the first antibiotic against tuberculosis, streptomycin by Selman Waksman in 1943, soon led to the opinion that appropriate control measures had become available for tuberculosis and it had been assumed that the disease could ultimately be eradicated.The emergence of resistant strains of this bacteria and widespread distribution of the disease in the world, and the emergence of the AIDS epidemic destroyed any possibility of global control of tuberculosis in the foreseeable future.

Objectives: The purpose of this review is to highlight the current scientific literature on mycobacterial infections and provide an overview on the laboratory diagnosis of tuberculosis and non-tuberculosis infections based on conventional phenotypic and modern molecular assays.

Method: In this study, a number of 65 papers comprising 20 reviews, 9 case reports, and 36 original research in association with mycobacteriosis and the laboratory diagnosis of mycobacterial infections, were reviewed.

Results: Based on our analysis on the published documents methods applied for the laboratory diagnosis of tuberculosis are continually assessed and developed in order to achieve more rapid, less expensive, and accurate results. Acid-fast staining and culture for mycobacteria remain at the core of any diagnostic algorithm with the sensitivity of 20-70% and specificity of 95-98% for AFB microscopy and the sensitivity of 95% and the specificity of 98% for culture based diagnosis. Following growth in culture, molecular tests such as nucleic acid hybridization probes and DNA sequencing may be used for definitive species identification. Nucleic acid amplification methods provide the means for direct detection of Mycobacterium tuberculosis in respiratory specimens without the prerequisite to isolate or culture the organism, leading to more rapid diagnosis and better patient care.

Conclusion: As the researchers in a developing country, we strongly believe that despite significant advances in laboratory capacity, in many countries reliable confirmation of suspected mycobacterial diseases is hindered by a lack of knowledge on proper standardized methods, sufficient funds, suitably trained staff and laboratory supplies.

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分枝杆菌病和肺结核:实验室诊断。
背景:结核病是最重要的传染病之一,在人类已知历史的大部分时间里都有受害者。科赫发现结核病的病因是结核杆菌,他的卫生和卫生措施是基于他在1921年由阿尔伯特·卡尔梅特和卡米尔·古萨林发现和开发的结核病疫苗,一种减毒的牛分枝杆菌菌株卡尔梅特-古萨林(卡介苗),以及1943年由塞尔曼·瓦克斯曼发现的第一种抗结核病抗生素链霉素,很快就产生了一种看法,认为结核病已经有了适当的控制措施,并认为这种疾病最终可以根除。这种细菌的耐药菌株的出现和这种疾病在世界上的广泛分布,以及艾滋病流行病的出现,破坏了在可预见的将来在全球控制结核病的任何可能性。目的:本综述的目的是重点介绍目前关于分枝杆菌感染的科学文献,并提供基于传统表型和现代分子检测的结核病和非结核病感染的实验室诊断综述。方法:回顾性分析与分枝杆菌病和分枝杆菌感染实验室诊断相关的65篇文献,包括20篇综述、9篇病例报告和36篇原创研究。结果:根据我们对已发表文献的分析,不断评估和发展用于结核病实验室诊断的方法,以获得更快速、更便宜和更准确的结果。分枝杆菌的抗酸染色和培养仍然是任何诊断算法的核心,AFB显微镜的灵敏度为20-70%,特异性为95-98%,培养诊断的灵敏度为95%,特异性为98%。在培养物中生长后,核酸杂交探针和DNA测序等分子测试可用于确定物种鉴定。核酸扩增方法提供了直接检测呼吸道标本中结核分枝杆菌的手段,而无需分离或培养该生物体,从而实现更快速的诊断和更好的患者护理。结论:作为一个发展中国家的研究人员,我们坚信,尽管实验室能力取得了重大进展,但在许多国家,由于缺乏关于适当标准化方法的知识、充足的资金、受过适当培训的工作人员和实验室用品,对可疑分枝杆菌疾病的可靠确认受到阻碍。
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来源期刊
Open Microbiology Journal
Open Microbiology Journal Immunology and Microbiology-Immunology and Microbiology (all)
CiteScore
1.80
自引率
0.00%
发文量
24
期刊介绍: The Open Microbiology Journal is a peer-reviewed open access journal which publishes research articles, reviews/mini-reviews, case studies, guest edited thematic issues and short communications/letters covering theoretical and practical aspects of Microbial systematics, evolutionary microbiology, immunology, virology, parasitology , bacteriology, mycology, phycology, protozoology, microbial ecology, molecular biology, microbial physiology, biochemistry, microbial pathogenesis, host-microbe interaction, systems microbiology, synthetic microbiology, bioinformatics. The Open Microbiology Journal , a peer-reviewed journal, is an important and reliable source of current information on developments in the field. The emphasis will be on publishing quality papers rapidly and freely available to researchers worldwide.
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