共查询到18条相似文献,搜索用时 78 毫秒
1.
本文采用激发发射荧光光谱分别与化学计量学中平行因子分析(PARAFAC)和交替三线性分解(ATLD)二阶校正法相结合,对尿液样和血浆样中左旋多巴含量进行定量测定。实验不需对尿液和血浆预测样进行萃取等分离预处理。在尿液样中,当组分数取2时,用PARAFAC算法和ATLD算法获得的平均回收率分别为(98.9±2.3)%和(99.6±2.8)%。在血浆样中,当组分数取3时,PARAFAC算法和ATLD算法获得的平均回收率分别为(103.1±3.7)%和(99.2±4.2)%。研究结果表明,该法能够解决尿液样和血浆样中左旋多巴因尿液和血浆内源物质与待分析物光谱重叠所引起的难分辨的问题,可用于未知干扰共存下左旋多巴含量的直接快速定量测定。 相似文献
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三维荧光光谱结合二阶校正方法测定细胞培养基中阿霉素的含量 总被引:1,自引:0,他引:1
本文采用交替三线性分解(ATLD)和交替归一加权残差三线性分解(ANWE)两种二阶校正方法结合激发发射矩阵荧光光谱对完全不经任何预处理的细胞培养基中的阿霉素进行简单、快速、直接的定量测定.当算法选取组分数为2时,解析得到细胞培养基中阿霉素的平均回收率分别为(100.5±1.8)%和(100.3±1.9)%.在细胞培养基中加入烟酰胺腺嘌呤二核苷酸(NADH)、烟酰胺腺嘌呤二核苷酸磷酸(NADPH)、黄素腺嘌呤二核苷酸(FAD)和黄素单核苷酸(FMN)四种细胞内的自发荧光物后,选取组分数为4时,解析得到细胞培养基中阿霉素的平均回收率分别为(99.1±2.9)%和(99.2±3.1)%.结果表明该分析方法能够准确、快速地直接测定细胞培养基中阿霉素的含量,并且在模拟细胞内荧光干扰环境下可定量测定阿霉素,且能获得令人满意的结果. 相似文献
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姜黄素、阿霉素和白藜芦醇对多种恶性肿瘤的治愈皆有一定的疗效,且其联合用药对癌细胞的抑制效果更加显著.本文采用三维激发发射荧光光谱结合基于交替三线性分解(Alternating Trilinear Decomposition,ATLD)算法的化学计量学二阶校正法,同时对血浆样中姜黄素、盐酸阿霉素和白藜芦醇的含量进行了定量分析研究.当量测体系的组分数预估计取4时,ATLD方法解析得到的血浆样中姜黄素、盐酸阿霉素和白藜芦醇的平均回收率分别为(91.4±1.1)%、(104.5±2.8)%和(103.4±4.7)%.实验结果表明,此法能够解决干扰共存和荧光光谱重叠下血浆样中姜黄素、盐酸阿霉素和白藜芦醇的直接、快速、同时定量分析的难题. 相似文献
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采用三维激发发射荧光光谱结合自加权交替三线性分解(SWATLD)二阶校正方法, 对人体液样(血浆样及尿液样)和细胞培养基样中五味子甲素的含量进行了直接快速定量分析. 在血浆背景、尿液背景和细胞培养基背景共存下, 当分析体系的组分数分别选择2时, 用SWATLD二阶校正方法获得相应五味子甲素的平均回收率分别为(100.4±1.6)%, (100.5±6.3)%和(103.6±4.5)%. 实验结果表明, 此方法不仅能够较好地解决这些复杂分析体系因背景内源荧光性物质与待分析物光谱严重重叠所引起的难分辨的问题, 还可以用于直接快速准确定量分析. 相似文献
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提出了荧光动力学结合二阶校正算法实现人血浆样中去甲肾上腺素的间接定量测定新方法. 去甲肾上腺素本身荧光较弱, 在碱性溶液中可以被氧化生成强荧光化合物. 利用这一特性, 在pH值为9.06的硼酸缓冲液作用下采用铁氰化钾为氧化剂、抗坏血酸为抗氧化剂研究这一氧化反应过程. 设定激发波长为390 nm, 在发射波长为439~550 nm的范围内测定一段时间内连续时间点的该动力学反应中间物的荧光光谱, 构建三维响应数据阵, 然后运用三线性分解算法进行解析. 组分数N取3时, 采用基于平行因子分析(PARAFAC)算法的二阶校正法获得的平均回收率(AR)为(102.0±4.1)%, 预测残差平方根(RMSEP)为0.0197; 采用基于满秩平行因子分析(FRA-PARAFAC)算法的二阶校正法获得的平均回收率(AR)和预测残差平方根(RMSEP)分别为(102.4±4.0)%和0.0207. 两种算法可以得到相似且满意的结果. 相似文献
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本文提出了三维荧光光谱结合二阶校正算法实现人体尿液样中氢化可的松定量测定的新方法。氢化可的松本身的荧光较弱,但与浓硫酸反应后可以生成强荧光的化合物。利用这一特性,采用浓硫酸为氧化剂,设定在激发波长为300-370nm、发射波长为400-580nm范围内测定尿液样中氢化可的松的三维荧光光谱,构建三维响应数据阵,然后运用基于三线性分解的二阶校正算法进行解析。当组分数N取3时,采用基于平行因子分析(PARAFAC)算法的Z-阶校正法的平均回收率为98.6±4.1%,预测残差平方根(RMSEP)为0.0114;采用基于满秩平行因子分析(FRA-PARAFAc)算法的二阶校正法的平均回收率和RMSEP分别为99.3±2.4%和0.0066。两种算法可以得到相近且满意的结果。 相似文献
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采用三维荧光光谱结合基于交替三线性分解算法(ATLD)的二阶校正方法测定了2种保健品中褪黑素的含量. 当组分数取2时, 测得美益天褪黑素维生素B6胶囊(MYT)和纽斯葆牌褪黑素片(NSB)中褪黑素的含量分别为(3.074±0.019) mg/capsule和(1.649±0.059) mg/tablet, 平均加标回收率分别为(97.9±4.0)%和(103.4±2.7)%, 检出限为1.4 ng/mL. 结果表明, 该方法准确可靠. 该方法具有"二阶优势", 即使样品中存在干扰, 仍可获得较好的结果, 且灵敏度较高. 采用高效液相色谱(HPLC)法对该方法进行了验证, 用t-test对2种方法获得的结果进行比较发现, 2种方法的结果之间无显著性差异, 具有良好的一致性, 但本文方法更环保、 简单. 因此, 三维荧光光谱结合二阶校正方法可作为测定褪黑素含量的新方法, 用于对含褪黑素的保健类产品进行质量监控. 相似文献
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利用三维荧光光谱与化学计量学二阶校正算法相结合, 直接测定人体血浆中和厚朴药材中的厚朴酚及和厚朴酚. 采用平行因子分析(PARAFAC)算法解析所得两种物质的回收率分别为(99.5±2.6)%和(90.2±1.8)%. 采用交替三线性分解(ATLD)算法解析, 当组分数N取3时, 回收率分别为(104.2±3.2)%和(98.7±4.0)%; 当N取4时, 回收率分别为(102.7±2.9)%和(99.0±4.6)%. 同时用该方法对厚朴药材中的厚朴酚及和厚朴酚进行快速定量测定, 结果令人满意. 实验结果表明, 此法可用于复杂试样中未知干扰共存下厚朴酚及和厚朴酚的同时测定. 相似文献
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三维荧光二阶校正法用于血浆和尿液中柔红霉素的快速测定 总被引:1,自引:2,他引:1
文章采用三维激发发射荧光光谱与化学计量学交替三线性分解(ATLD)二阶校正法相结合,对血浆液和尿液中柔红霉素(DM)进行定量测定。实验不需对血浆和尿液预测样进行萃取等分离预处理,选取激发波长410~530nm,发射波长550~650nm,分别每隔5nm取一个数据,利用激发发射荧光扫描分别获得两个三维响应数阵(大小为21×25×12)。当组分数选择为3时,血浆和尿液校正集中盐酸柔红霉素的相对浓度与实际浓度的相关系数分别为r1=0.9990和r2=0.9952,经ATLD算法解析得到的血浆和尿液预测样中柔红霉素平均回收率分别为(92.8±7.6)%和(94.7±4.4)%。实验结果表明,此法能够解决血浆和尿液中盐酸柔红霉素药物因血浆和尿液内源物质与分析物光谱重叠所引起的难分辨的问题,可用于未知干扰共存下柔红霉素的直接快速定量测定。 相似文献
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Fluoroquinolones or so-called second-generation quinolones, in particular, ofloxacin (OFL), norfloxacin (NOR), and enoxacin (ENO), with therapeutic advantages possess strongly overlapped fluorescence spectra. In this paper, two strategies were proposed for simultaneous direct determination of OFL, NOR and ENO in plasma by combining fluorescence excitation-emission matrix (EEM) with second-order calibration based on the alternating trilinear decomposition algorithm (ATLD) and parallel factor analysis (PARAFAC). The results showed that both algorithms could solve the problem of serious fluorescence spectral overlapping of the sought-for analytes even in the presence of uncalibrated interferents. However, ATLD has advantages of being insensitive to overestimated component number and fast convergence. The results by using ATLD with an estimated component number of five were reasonably acceptable for clinical analysis. The average recoveries of OFL, NOR and ENO in synthetic samples were 99.7 ± 2.4, 101.5 ± 2.4 and 97.3 ± 3.8%, respectively; the average recoveries of OFL, NOR and ENO in complex plasma were 94.3 ± 2.6, 85.6 ± 3.3 and 103.3 ± 3.0%, respectively. 相似文献
12.
A "green" and quick analytical method for complex compounds was developed for simultaneous determination of tyrosine (Tyr) and dopamine (DA) in urine samples in this paper. The three-way responsive data recorded by excitation-emission matrix fluorescence (EEM) spectrometer was analyzed using second-order calibration methods based on both parallel factor analysis (PARAFAC) and selfweighted alternating trilinear decomposition (SWATLD) algorithms. The EEM spectra of the analytes were overlapped with the background in urine samples. However the second-order advantage of both PARAFAC and SWATLD methods was exploited, even in the presence of unknown interferences and the satisfactory results can be obtained. Furthermore, the linear ranges of Tyr and DA were determined to be 0.042-6.42 μg/mL and 0.18-4.43 μmg/mL, respectively, and the accuracies of both methods were validated by the analytical figures of merit (FOM). 相似文献
13.
由于荧光分析具有检测灵敏度高、数据容易获得等优点,近年来二阶张量校正方法与激发-发射矩阵荧光光谱技术的联用正受到人们越来越多的关注.但是,在三维荧光分析中,经常出现的一阶瑞利散射干扰往往容易导致建立的三线性模型存在较大的偏离,进而直接影响复杂体系中感兴趣组分的定性、定量分析.针对该问题,我们提出了一种基于对组分数不敏感的三线性分解算法扣除一阶瑞利散射干扰的新思路.该方法的特点是根据一阶瑞利散射分别在水平切片矩阵和侧面切片矩阵所处位置相同,沿I-模和J-模同时构建含一阶瑞利散射的三维数据阵,利用三线性分解算法对此各自建模,将一阶瑞利散射当作一个响应组分或因子拟合后从三维数据阵中扣除掉.通过对模拟和实际三维激发发射矩阵荧光光谱实验数据进行讨论,结果表明该方法能有效地扣除体系中的一阶瑞利散射干扰.改进后的方法不仅操作简单,而且不受组分数选取不当的困扰.另外,由于同时从两个方向进行一阶瑞利散射扣除,因此不会出现因边缘瑞利散射峰形不完整而扣除不完全的情况.该方法为三维荧光光谱的无损分析提供了新思路,为进一步进行三维荧光光谱的定量分析奠定了良好的基础. 相似文献
14.
Jin-Fang Nie Hai-Long Wu A-Lin Xia Shao-Hua Zhu Ying-Chao Bian Shu-Fang Li Ru-Qin Yu 《Analytical sciences》2007,23(12):1377-1382
This paper proposes a new and effective approach for the quantitative analysis of sulpiride, a significant antipsychotic drug, in human urine samples by the incorporation of excitation-emission matrix (EEM) fluorescence and second-order calibration methodologies based on the alternating fitting residue (AFR) and self-weighted alternating trilinear decomposition (SWATLD) algorithms. With the application of a second-order advantage, the proposed strategy could be utilized for a direct concentration determination of sulpiride with a simple pretreatment step, even in the presence of serious natural fluorescent interferences. The average recoveries of sulpiride in complex urine samples by using AFR and SWATLD with an estimated component number of three were 101.2 +/- 2.1 and 94.4 +/- 0.7%, respectively. Moreover, the accuracy of the two algorithms was also evaluated through elliptical joint confidence region (EJCR) tests as well as the figures of merit, such as sensitivity (SEN), selectivity (SEL) and limit of detection (LOD). The experimental results demonstrated that both algorithms, as promising quantitative alternatives, have been satisfactorily applied to the determination of sulpiride in human urine, but the performance of AFR was slightly better than that of SWATLD. 相似文献
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A sensitive excitation-emission fluorescence method was proposed to determine testosterone propionate (TP) in several cosmetics with the aid of second-order calibration methods based on the self-weighted alternating trilinear decomposition (SWATLD) and parallel factor analysis (PARAFAC) algorithms. TP can be transformed into a highly fluorescent derivative through oxidation reaction with concentrated sulfuric acid (H2SO4). Both algorithms have been recommended to enhance the selectivity and attain TP concentration in cosmetics free from interference from potential interfering matrix contaminants introduced during simple cosmetic pretreatment procedure, even in the presence of other homogeneous drugs. Satisfactory results have been achieved for TP in complicated cosmetics, fully exploiting “second-order advantage”. The correlation coefficients of TP obtained by using both SWATLD and PARAFAC with N = 3 are 0.9968 and 0.9974, and the average recoveries, 99.3 ± 4.7% and 101.3 ± 5.9%, respectively. Furthermore, in order to investigate the performance of the proposed methods, some statistical parameters and figures of merit of SWATLD and PARAFAC, i.e., sensitivity (SEN), selectivity (SEL) and limit of detection (LOD) were evaluated, and the accuracy of both algorithms was also validated by the elliptical joint confidence region (EJCR) test. 相似文献
16.
An HPLC method combined with second-order calibration based on alternating trilinear decomposition (ATLD) algorithm has been developed for the quantitative analysis of levodopa (LVD), carbidopa (CBD) and methyldopa (MTD) in human plasma samples. Prior to the analysis of the analytes by ATLD algorithm, three time regions of chromatograms were selected purposely for each analyte to avoid serious collinearity. Although the spectra of these analytes were similar and interferents coeluted with the analytes studied in biological samples, good recoveries of the analytes could be obtained with HPLC-DAD coupled with second-order calibration based on ATLD algorithm, additional benefits are decreasing times of analysis and less solvent consumption. The average recoveries achieved from ATLD with the factor number of 3 (N = 3) were 100.1 ± 2.1, 96.8 ± 1.7 and 104.2 ± 2.6% for LVD, CBD and MTD, respectively. In addition, elliptical joint confidence region (EJCR) tests as well as figures of merit (FOM) were employed to evaluate the accuracy of the method. 相似文献
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A rapid non-separative spectroflourimetric method based on the second-order calibration of the excitation-emission data matrix was proposed for the determination of glutathione (GSH) in human plasma. In the phosphate buffer solution of pH 8.0 GSH reacts with ortho-phthaldehyde (OPA) to yield a fluorescent adduct with maximum fluorescence intensity at about 420 nm. To handle the interfering effects of the OPA adducts with aminothiols other than GSH in plasma as well as intrinsic fluorescence of human plasma, parallel factor (PARAFAC) analysis as an efficient three-way calibration method was employed. In addition, to model the indirect interfering effect of the plasma matrix, PARAFAC was coupled with standard addition method. The two-component PARAFAC modeling of the excitation-emission matrix fluorescence spectra accurately resolved the excitation and emission spectra of GSH, plasma (or plasma constituents). The concentration-related PARAFAC score of GSH represented a linear correlation with the concentration of added GSH, similar to that is obtained in simple standard addition method. Using this standard addition curve, the GSH level in plasma was found to be 6.10 ± 1.37 μmol L−1. The accuracy of the method was investigated by analysis of the plasma samples spiked with 1.0 μmol L−1 of GSH and a recovery of 97.5% was obtained. 相似文献
18.
A novel method was proposed to determine simultaneously carbaryl and its degradation product 1-naphthol in river and tap water in this paper. The parallel factor analysis (PARAFAC) algorithm was adopted to analyze the excitation–emission matrix (EEM) fluorescence data. The second-order advantage of the PARAFAC-based second-order calibration algorithm was exploited, which make it possible that calibration can be performed even in the presence of unknown interferences. Good recoveries were obtained although the excitation and emission spectral profiles of the analytes were overlapped with background in the river water. It was also applied to investigate the hydrolysis kinetics of carbaryl in river water and tap water. The rate equation, the rate constant and the half life were calculated. 相似文献