多色探针熔解曲线法在结核分枝杆菌耐药性检测中的应用

目的评价多色探针熔解曲线法(multicolor melting curve analysis,MMCA)在MTB耐药性检测中的临床应用价值。方法收集235例浓集抗酸杆菌检测阳性和(或)MTB分子检测阳性患者的晨痰,同时用MMCA和分枝杆菌液体培养及比例法药物敏感性试验(简称“药敏试验”)进行耐药性检测,采用Kappa检验比较两方法的一致性。两方法有差别的标本用基因测序的方法进行比较。结果MMCA和比例法药敏试验检测利福平(RFP)、异烟肼(INH)、乙胺丁醇(EMB)、左氧氟沙星(Lfx)、莫西沙星(Mfx)及耐多药结核(MDR-TB)的符合率分别为94.04(221/235)、90.64%(213/235)、80.00%(188/235)、94.89%(223/235)、77.87%(183/235)、89.36%(210/235);RFP、INH、Lfx及MDR-TB两方法比较Kappa值分别为0.88、0.81、0.88、0.77,具有极好的一致性;以上不一致的标本经基因测序技术验证,痰液及培养分离株两种标本类型的MMCA与测序结果总符合率分别为89.80%(132/147)、98.64%(145/147)。结论采用MMCA法直接、快速检测临床患者痰液MTB耐药情况,与金标准比例法药敏试验及参考方法基因测序技术一致性好,且操作简便、快速、准确,在结核病诊断及耐药结核病快速筛查中将发挥重要作用。

Highly efficient anode catalyst with a Ni@Pd Pt core–shell nanostructure for methanol electrooxidation in alkaline media

To enhance the electrocatalytic activity of anode catalysts used in alkaline-media direct methanol fuel cells(DMFCs), a Ni@Pd Pt electrocatalyst was successfully prepared using a three-phase-transfer method. The Ni@Pd Pt electrocatalyst was characterized by X-ray diffraction(XRD), X-ray photoelectron spectroscopy(XPS), transmission electron microscopy(TEM), and high-resolution TEM(HRTEM) techniques. The experimental results indicate that the average particle size of the core–shell-structured Ni@Pd Pt electrocatalyst is approximately 5.6 nm. The Ni@Pd Pt electrocatalyst exhibits a catalytic activity 3.36 times greater than that of Pd Pt alloys for methanol oxidation in alkaline media. The developed Ni@Pd Pt electrocatalyst offers a promising alternative as a highly electrocatalytically active anode catalyst for alkaline DMFCs.