- 期刊
肺部感染常見的慢速生長分枝桿菌之快速鑑定及藥敏分析
Rapid identification and drug susceptibility of the most common slowly growing mycobacteria infection in pulmonary disease
摘要
慢速生長分枝桿菌(slowly growing mycobacteria, SGM)感染人類最常見的是鳥分枝桿菌群(Mycobacterium avium complex, MAC),其次為堪薩斯分枝桿菌(Mycobacterium kansasii),兩者均可引起人類肺病,MAC更可引起成人頸部淋巴結發炎及在HIV病人引起播散性感染疾病。本研究目的是利用寡核苷酸晶片檢測方法,快速鑑別MAC與M. kansasii,再以商業化Sensititre®SLOMYCO panel(TREK Diagnostic Systems, Ltd, UK)藥敏試驗套組,測試MAC與M. kansasii藥物感受性結果。研究檢體取自台灣南部某區域教學醫院分枝桿菌陽性培養之呼吸道檢體。經寡核苷酸晶片檢測出MAC分離菌株225株及M. kansaii 15株。再使用Sensititre® SLOMYCO panel肉湯微量稀釋法檢測藥敏試驗。檢測結果MAC分離菌株對clarithromycin藥物感受性結果為85.8%,moxifloxacin為8.9%,linezolid為2.2%。M. kansasii對clarithromycin藥物感受性的結果為100%,對amikacin、linezolid、moxifloxacin感受性為67%,對於其他藥物如rifampin、ethambutol、ciprofloxacin及trimethoprim-sulfamethoxazole等則有較高抗藥性結果。因此,本研究結果可作為MAC及M. kansasii感染肺部的實驗診斷及治療的參考。本次實驗因限於M. kansaii檢體分離數較少,未來可再增加收集檢體數測試,以獲得更充分的藥敏試驗結果。
並列摘要
The most common slowly growing mycobacteria (SGM) infection in humans is Mycobacterium avium complex (MAC), followed by Mycobacterium kansasii. Both can cause pulmonary disease. MAC can cause cervical lymphadenitis in adults and disseminated infections in HIV patients. The purpose of the study is using the oligonucleotide microarrays method to quickly identify slow-growing MAC and M. kansasii. Drug susceptibility for MAC and M. kansasii were tested using the Sensititre® SLOWMYCO plate (TREK Diagnostic Systems, Ltd, UK). The research specimens of respiratory tract positive for mycobacterium were taken from a regional teaching hospital in southern Taiwan. Totally, 225 MAC strains and 15 M. kansasii strains were detected. Drug susceptibility for NTM was tested using the Sensititre® SLOWMYCO plate (TREK Diagnostic Systems, Ltd, UK). MICs were established by broth microdilution method. The results showed that the 85.8 % of MAC isolates were susceptible to clarithromycin, 8.9% to moxifloxacin and 2.2% to linezolid. 100% of M. Kansasii isolates were susceptible to clarithromycin and the susceptibility to amikacin, linezolid and moxifloxacin were 67%. M. Kansasii isolates revealed highly resistant to several drugs such as rifampin, ethambutol, ciprofloxacin, and trimethoprim-sulfamethoxazole. Therefore, the results of this study can be used as a reference for the diagnosis and treatment of MAC and M. kansasii infection in pulmonary disease. Due to the limited number of M. kansaii samples, the number of samples collected in the experiment can be increased in the future to obtain more representative findings.
延伸閱讀
- 感染控制雜誌編輯部(2010)。肺內及肺外結核分枝桿菌快速分子診斷最新發展。感染控制雜誌,20(4),255-258。https://doi.org/10.6526/ICJ.201008_20(4).0008
- Cheng, S. W., Lee, R. S., Wang, J. H., & Chern, M. S. (2005). 少見的肺部放射學上表現:腫瘤合併分枝桿菌感染-病例報告. 胸腔醫學, 20(6), 613-618. https://doi.org/10.29806/TM.200512.0014
- 李穎俐(2004)。社區診所門診患者肺炎雙球菌及流行性感冒嗜血桿菌之基因變異性研究〔碩士論文,高雄醫學大學〕。華藝線上圖書館。https://www.airitilibrary.com/Article/Detail?DocID=U0011-2903200614004156
- Pang, A. H. (2021). Mycobacterial Infections:Part I:Antibiotic Regimens and Clinical Outcomes of Mycobacterium abscessus complex Lung DiseasesPart II:Therapeutic Drug Monitoring of Rifabutin [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU202104202
- Wu, H. H., Lin, R. L., Lee, C. H., Peng, M. J., & Wu, C. L. (2007). Mycobacterium Fortuitum Bacteremia and Pulmonary Disease in a Hemodialysis Patient. 胸腔醫學, 22(5), 332-337. https://doi.org/10.29806/TM.200710.0005