Identification of Mycobacterium tuberculosis Resistance to Common Antibiotics: An Overview of Current Methods and Techniques.
Xue-Song XiongXue-Di ZhangJia-Wei YanTing-Ting HuangZhan-Zhong LiuZheng-Kang LiLiang WangFen LiPublished in: Infection and drug resistance (2024)
Multidrug-resistant tuberculosis (MDR-TB) is an essential cause of tuberculosis treatment failure and death of tuberculosis patients. The rapid and reliable profiling of Mycobacterium tuberculosis (MTB) drug resistance in the early stage is a critical research area for public health. Then, most traditional approaches for detecting MTB are time-consuming and costly, leading to the inappropriate therapeutic schedule resting on the ambiguous information of MTB drug resistance, increasing patient economic burden, morbidity, and mortality. Therefore, novel diagnosis methods are frequently required to meet the emerging challenges of MTB drug resistance distinguish. Considering the difficulty in treating MDR-TB, it is urgently required for the development of rapid and accurate methods in the identification of drug resistance profiles of MTB in clinical diagnosis. This review discussed recent advances in MTB drug resistance detection, focusing on developing emerging approaches and their applications in tangled clinical situations. In particular, a brief overview of antibiotic resistance to MTB was present, referred to as intrinsic bacterial resistance, consisting of cell wall barriers and efflux pumping action and acquired resistance caused by genetic mutations. Then, different drug susceptibility test (DST) methods were described, including phenotype DST, genotype DST and novel DST methods. The phenotype DST includes nitrate reductase assay, Roche TM solid ratio method, and liquid culture method and genotype DST includes fluorescent PCR, GeneXpert, PCR reverse dot hybridization, ddPCR, next-generation sequencing and gene chips. Then, novel DST methods were described, including metabolism testing, cell-free DNA probe, CRISPR assay, and spectral analysis technique. The limitations, challenges, and perspectives of different techniques for drug resistance are also discussed. These methods significantly improve the detection sensitivity and accuracy of multidrug-resistant tuberculosis (MRT) and can effectively curb the incidence of drug-resistant tuberculosis and accelerate the process of tuberculosis eradication.
Keyphrases
- mycobacterium tuberculosis
- multidrug resistant
- pulmonary tuberculosis
- drug resistant
- acinetobacter baumannii
- public health
- early stage
- gram negative
- loop mediated isothermal amplification
- genome wide
- cell wall
- emergency department
- copy number
- klebsiella pneumoniae
- nitric oxide
- real time pcr
- risk factors
- living cells
- ejection fraction
- escherichia coli
- gene expression
- healthcare
- magnetic resonance
- label free
- high resolution
- human immunodeficiency virus
- single cell
- end stage renal disease
- lymph node
- prognostic factors
- pseudomonas aeruginosa
- social media
- heart rate
- heart rate variability
- helicobacter pylori
- patient reported outcomes
- ionic liquid
- newly diagnosed
- hepatitis c virus
- dna methylation
- genome editing
- hiv infected
- cell free
- bioinformatics analysis