Thornton C G, MacLellan K M, Brink T L, Wolfe D M, Llorin O J, Passen S
Department of Molecular Biology and Genetics, Quest Diagnostics, Inc., Baltimore, Maryland 21227, USA.
J Clin Microbiol. 1998 Jul;36(7):2004-13. doi: 10.1128/JCM.36.7.2004-2013.1998.
The C18-carboxypropylbetaine (CB-18) procedure for processing respiratory specimens for the detection of mycobacteria was shown to provide significant increases in sensitivity by smear and culture. However, the procedure also produced increased contamination, a loss in liquid culture sensitivity, and a reduction in smear specificity. Because of these observations, the toxicity of CB-18 and the nature of the contamination were characterized. Preincubation in 1 mM CB-18 impacted viability in a time-dependent fashion, but the magnitude of the loss was species and isolate dependent. Mycobacterium tuberculosis isolates were the most susceptible, losing 20 to 30% of the CFU within 30 min and 30 to 60% after 3 h, whereas Mycobacterium avium and Mycobacterium fortuitum isolates were unaffected by CB-18. In liquid culture, when the concentration of CB-18 exceeded 5 microg/ml, there was an impact on growth characteristics for the most susceptible M. tuberculosis isolate. In contrast, M. fortuitum isolates were able to grow in 100 microg of CB-18 per ml. In liquid culture, the deleterious effects of CB-18 were enhanced in the presence of antibiotics, whereas growth on solid media was not similarly affected. Supplementation of the resuspension buffer with 0.15% lecithin alleviated toxicity. Initial attempts to modify the CB-18 procedure to control contamination incorporated acids or alkalis; however, losses in culture sensitivity occurred. Studies to identify these contaminants led to the development of a sediment resuspension buffer that contained lytic enzymes to combat contamination and lecithin to alleviate toxicity. This formulation included lysozyme, zymolyase, and Cytophaga and Trichoderma extracts and was seen to reduce contamination to acceptable levels (<5%).
用于处理呼吸道标本以检测分枝杆菌的C18 - 羧丙基甜菜碱(CB - 18)方法经证实可显著提高涂片和培养的灵敏度。然而,该方法也导致污染增加、液体培养灵敏度降低以及涂片特异性下降。基于这些观察结果,对CB - 18的毒性和污染性质进行了表征。在1 mM CB - 18中预孵育以时间依赖性方式影响活力,但活力丧失的程度因菌种和菌株而异。结核分枝杆菌菌株最为敏感,在30分钟内丧失20%至30%的菌落形成单位(CFU),3小时后丧失30%至60%,而鸟分枝杆菌和偶然分枝杆菌菌株不受CB - 18影响。在液体培养中,当CB - 18浓度超过5微克/毫升时,对最敏感的结核分枝杆菌菌株的生长特性有影响。相比之下,偶然分枝杆菌菌株能够在每毫升含100微克CB - 18的环境中生长。在液体培养中,抗生素存在时CB - 18的有害作用增强,而在固体培养基上生长则未受到类似影响。在重悬缓冲液中添加0.15%的卵磷脂可减轻毒性。最初尝试通过加入酸或碱来修改CB - 18程序以控制污染,但培养灵敏度有所损失。识别这些污染物的研究促成了一种沉淀物重悬缓冲液的开发,该缓冲液含有裂解酶以对抗污染,以及卵磷脂以减轻毒性。该配方包括溶菌酶、酵母溶壁酶、噬纤维菌提取物和木霉提取物,可将污染降低到可接受水平(<5%)。