Evaluation of Fourier Transform Infrared Spectroscopy for Diagnosis of Peroxisomal Diseases with Abnormal Very-Long-Chain Fatty Acid Metabolism

Very long chain fatty acids (VLCFAs) are accumulated in cells and blood in patients with peroxisomal diseases, such as adrenoleukodystrophy (ALD) and Zellwger Syndrome (ZS). The purpose of this study is to investigate usefulness of Fourier transform infrared spectroscopy (FTIR) with attenuated total reflection (ATR) analysis method for clinical diagnosis of those diseases, thereby we measured the infrared spectra of the sera of patients and healthy controls. Correlation coefficients between 2nd derivative FTIR spectra of the serum samples and the VLCFA content ratio which is used as a clinical parameter to date were comprehensively calculated to investigate which wavenumber showed high correlation with the VLCFA ratio. Multiple regression analysis using the serum FTIR spectra showed that high correlations were observed with VLCFA ratios (C26:0/C22:0 ratio), and we could construct a suitable regression model (R2 = 0.97, p ﹣19). In addition, the model system using various VLCFAs in newborn bovine serum also showed that several FTIR peaks in 800 ~ 900 cm﹣1 region were found to have good correlation with VLCFA ratios. Our results support that FTIR analysis is useful for diagnosis of peroxisomal diseases.

ATR-FTIR结合DSC法快速鉴别食品接触用塑料包装制品

研究了一种衰减全反射红外光谱(ATR-FTIR)结合差示扫描量热法(DSC)快速鉴别食品接触用塑料包装制品单一材质的方法。红外光谱图能准确反应塑料制品的内部结构,结合DSC曲线得出其具体成分。该方法快速、准确且几乎不破坏样品。

Chemometric Feature Selection and Classification of <i>Ganoderma lucidum</i>Spores and Fruiting Body Using ATR-FTIR Spectroscopy

Ganoderma lucidum(G. lucidum) spores as a valuable Chinese herbal medicine have vast marketable prospect for its bioactivities and medicinal efficacy. This study aims at the development of an effective and simple analytical method to distinguish G. lucidum spores from its fruiting body, which is of essential importance for the quality control and fast discrimination of raw materials of Chinese herbal medicine. Attenuated total reflection Fourier transform infrared (ATR-FTIR) spectroscopy combined with the appropriate chemometric methods including penalized discriminant analysis, principal component discriminant analysis and partial least squares discriminant analysis has been proven to be a rapid and powerful tool for discrimination of G. lucidum spores and its fruiting body with classification accuracy of 99%. The model leads to a well-performed selection of informative spectral absorption bands which improve the classification accuracy, reduce the model complexity and enhance the quantitative interpretations of the chemical constituents of G. lucidum spores regarding its anticancer effects.

Feasibility assessment of phenotyping cotton fiber maturity using infrared spectroscopy and algorithms for genotyping analyses

Background:Cotton fiber maturity is an important property that partially determines the processing and performance of cotton.Due to difficulties of obtaining fiber maturity values accurately from every plant of a genetic population,cotton geneticists often use micronaire(MIC) and/or lint percentage for classifying immature phenotypes from mature fiber phenotyp es although they are complex fiber traits.The recent development of an algorithm for determining cotton fiber maturity(MIR)from Fourier transform infrared(FT-IR)spectra explores a novel way to measure fiber maturity efficiently and accurately.However,the algorithm has not been tested with a genetic population consisting of a large number of progeny pla,nts.Results:The merits and limits of the MIC-or lint percentage-bas ed phenotyping method were demonstrated by comparing the observed phenotypes with the predicted phenotypes based on their DNA marker genotypes in a genetic population consisting of 708 F2 plants with various fiber maturity.The observed MIC-based fiber phenotypes matched to the predicted phenotypes better than the observed lint percenta ge-based fiber phenotypes.The lint percentage was obtained from each of F2 plants,whereas the MIC values were unable to be obtained from the entire population since certain F2 plants produced insufficient fiber mass for their measurements.To test the feasibiility of cotton fiber infrared maturity(MIR)as a viable phenotyping tool for genetic analyses,we me asured FT-IR spectra from the second population composed of 80 F2 plants with various fiber maturities,determined MIR values using the algorithms,and compared them with their genotypes in addition to other fiber phenotypes.The results showed that MIR values were successfully obtained from each of the F2 plants,and the observed MIR-based phenotypes fit well to the predicted phenotypes based on their DNA marker genotypes as well as the observed phenotypes based on a combination of MIC and lint percentage.Conclusions:The M,R value obtained from FT-IR spectra of cotton fibers is able to accurately assess fiber maturity of all plants of a population in a quantitative way.The technique provides an option for cotton geneticists to determine fiber maturity rapidly and efficiently.

FTIR-ATR法对人体胆结石中胆固醇和胆红素的定量分析研究

目的:建立傅立叶变换衰减全反射红外光谱法(FTIR-ATR)同时测定胆结石中的胆固醇和胆红素的含量。方法:无需溶解和提取,分别选择胆结石中互不干扰的胆固醇特征吸收峰1049 cm-1和胆红素特征吸收峰1245 cm-1作为各自的定量吸收峰,利用基线吸收度法,直接地同时测定胆结石中的胆固醇和胆红素的含量。结果:胆固醇和胆红素的浓度与其峰高的线性范围分别为32.1-45.2μg·mg-1和13.2-44.2μg·mg-1,相关系数分别为0.9995和0.9987,说明符合Beer-Lambert’s定律。胆固醇和胆红素的回收率分别为100.4%和99.2%,RSD分别为2.1%和2.0%(n=3)。并与HPLC方法所测结果做了比较,发现2个方法所测含量结果基本相符。结论:本方法操作简便,无污染,结果准确可靠,可用于胆结石中胆固醇和胆红素含量的同时测定。

ATR-FTIR分析技术在制浆造纸工业中的研究与应用

红外光谱技术在制浆造纸工业的原料分析、浆料检验及纸张检测等方面的应用已取得较大进展,且发挥着重要的作用。但传统的透射红外光谱在分析检测上存在破坏样品结构、制样过程复杂、测定时间较长等缺点,已不能满足现代制浆造纸工业即时检测的需要。为了实现待测样品的在线无损分析,必须有一种快速而非破坏性的红外光谱技术予以辅助。傅里叶变换衰减全反射红外光谱(ATR-FTIR)分析技术作为一项新的无损检测技术,能够迅速、准确地对制浆造纸各生产工段的产品进行全面无损评价,目前已开始介入制浆造纸领域的相关科学研究中。并较为详细地介绍了现阶段ATR-FTIR分析技术在制浆造纸工业各生产工段的研究与应用进展。

二阶导数光谱预处理在用FTIR/ATR方法定量测定葡萄糖-6-磷酸和果糖-6-磷酸中的应用

利用傅里叶变换红外光谱（FTIR）和衰减全反射（ATR）技术，建立了一种葡萄糖-6-磷酸（G6P）和果糖-6-磷酸（F6P）同时定量测量的方法。作为磷酸己糖异构酶（PGI）反应系的模拟，G6P-F6P-Tris混合溶液被作为定量对象，并通过采集组分浓度已知的G6P-F6P-Tris混合溶液的光谱来建立定标方法。分别用吸光度光谱或二阶导数光谱，并分别用G6P，F6P，Tris的主要吸收峰（1086cm^-1、1082cm^-1、1065cm^-1、1036cm^-1和978cm^-1）的数据或指纹领域（1200～900cm^-1）全段数据，共进行了4种模式的多元线性回归分析，比较各种模式下浓度的预测值与实测值的相关系数、平均相对误差和交叉检验均方误差（RMSECV值）。结果表明，采用二阶导数光谱比采用吸光度光谱所得到的预测值具有更高的精度，而采用指纹领域全段数据比采用G6P，F6P，Fris主要吸收峰的数据所得到预测值具有更高的精度。

HATR-FTIR排序法识别中药材紫花地丁及其伪品的研究

采用水平衰减全反射傅里叶变换红外光谱 (HATR FTIR)法测定了紫花地丁及其伪品如白花地丁、犁头草、辽宁堇菜及匍伏堇的根木质部和茎外表皮部的傅里叶变换红外光谱 ,采用主成分分析法 (PCA)比较了正伪品之间的差异程度。结果表明 :基于傅里叶变换红外光谱的主成分分析在反映同科同属不同种植物化学组成差异程度上具有应用价值。

连续在线原位ATR-FTIR技术测定介孔CuAl_2O_4对黄药的吸附

以丁胺和正十二醇为混合模板剂,采用共沉淀法制备了介孔纳米CuAl_2O_4.用X射线粉末衍射(XRD)、傅里叶变换红外(FTIR)光谱、N_2吸附-脱附对产物的结构进行了表征.采用连续在线原位衰减全反射傅里叶变换红外(ATR-FTIR)光谱技术研究了水溶液中丁基和辛基黄药在介孔CuA_l2O_4表面的吸附.随着吸附时间的延长,1200和1040 cm^(-1)两处黄药特征峰的高度逐渐增加,根据1200 cm^(-1)处C—O—C伸缩振动峰的变化来评价黄药在CuAl_2O_4表面的吸附动力学过程.结果表明,介孔纳米CuAl_2O_4对黄药有很强的吸附能力,在100 min的时间内,CuAl_2O_4样品对丁基和辛基黄药的吸附量分别达到了236和300 mg·g^(-1),且属于化学吸附.对实验数据进行理论模拟,发现吸附过程更接近于拟二级吸附动力学方程.

ATR-FTIR技术在进口血竭掺伪鉴别中的应用

目的:利用傅里叶变换衰减全反射红外光谱技术(ATR-FTIR)对进口血竭中的掺伪物质进行快速鉴别。方法:根据进口血竭与松香、达玛树脂、国产血竭对照药材的红外光谱对比图来对进口血竭中的掺伪物质进行快速鉴别。结果:27批进口加工血竭中有13批掺入了松香,3批掺入了达玛树脂,4批为国产血竭冒充,严重影响了进口血竭的质量。结论:傅里叶变换衰减全反射红外光谱技术操作快速简便,适合中药的快速鉴别。

ATR-FTIR结合RBF神经网络对市售西红花的产地溯源

目的:利用衰减全反射傅里叶变换红外光谱法测定市售西红花的红外谱图,对不同产地西红花进行判别。方法:对129个市售西红花样品红外光谱图进行采集,选择500~1800 cm-1区域的光谱图作为产地判别的数据来源。结果:应用主成分分析法对西红花样品光谱进行分析,可将西红花区分3大主要产地区域。西红花产地追溯模型是通过数据预处理后的ATR-FTIR光谱学与RBF神经网络建模,小波去噪预处理方法结合RBF神经网络模型对3大区域的判别正确率最高,预测集正确率为96.6%。结论:衰减全反射傅里叶变换红外光谱技术结合化学计量学方法是一种快速、有效的技术手段,可用于区分不同市售西红花样品的产地溯源。

糙米中黄曲霉毒素B_1的ATR-FTIR快速测定

拟建立基于衰减全反射-傅里叶变换红外光谱（attenuated total reflectance-Fourier transform infrared spectroscopy,ATR-FTIR）的糙米中微量黄曲霉毒素B1（aflatoxin B1,AFB1）的快速检测方法。首先将16份糙米样品经辐射灭菌后接种产毒菌株并在适宜条件下（28℃、相对湿度85%）贮藏30 d,测定其AFB1含量。其次将受AFB1污染样品磨粉后与空白糙米样品按质量比例进行精确混合,获得AFB1含量在0-890.20μg/kg内的糙米样品共计128份。ATR-FTIR建模分析结果显示,依据AFB1含量高低将样品划分为4类,临近算法判别分析模型的预测整体正确率达到83.3%。运用偏最小二乘回归分析建立的定量模型精度最优,预测相关系数、均方根误差和相对分析误差值分别为0.970、70.8μg/kg和4.0。结果表明,ATR-FTIR技术用于糙米黄曲霉毒素污染程度的快速分析与筛选具有一定可行性,但需进一步研究来提升对低AFB1含量样品的预测精度。

ATR-FTIR技术用于酒精饮品中乙醇含量的快速测定

建立了快速测定酒精饮品中乙醇含量的衰减全反射．傅立叶变换红外光谱（ATR-FTIR）法。以ZnSe槽形板为ATR晶体，以水为背景采集样品的FTIR图。以1045cm^-1的C-OH伸缩振动为特征峰，用部分峰面积表示整个吸光度以消除肩峰干扰，分别建立了低浓度区（0—24％（WV））和高浓度区（24％-84％（V／V））两条标准曲线，其线性相关系数均大于0．999，乙醇水溶液的检测限为0．20％。对啤酒、干红葡萄酒以及白酒的分析表明，该方法准确、快速、方便，适用于酒精饮品中乙醇含量的快速测定。

HATR-FTIR应用于原产地中药材白术的测定方法研究

采用傅里叶变换红外光谱的各种测定方法测定了植物中药材白术,通过白术木质部及外表皮部的水平衰减全反射傅里叶变换红外光谱(HATR-FTIR)吸收比较,表明了外表皮含有更多的白术内酯及其衍生物等物质。新鲜的白术木质部比干燥白术木质部含有更多的化学物质,这可能是样品干燥后挥发油减少之故。对白术木质部及其伪品的木质部的HATR-FTIR进行二阶导数转换,进行峰位一致率检验,结果差异极显著。

EDDS处理对硒胁迫下彩叶草根系FTIR-ATR、SEM-EDXS特征及生理特性的影响

为了解乙二胺二琥珀酸(EDDS)诱导植物耐受硒(Se)胁迫的生理机制,以彩叶草(Coleus blumei)为材料,采用营养液培养的方法、借助傅里叶变换-衰减全反射红外光谱(FTIR-ATR)和扫描电子显微镜-X-射线能量色散谱(SEM-EDXS)分析方法及生理指标的变化,研究1.0 mg/L Se胁迫条件下添加0、0.5、1.0、1.5、2.5、5.0 mmol/L EDDS对彩叶草根系化学成分变化的影响。利用FTIR-ATR图谱分析发现,随着EDDS处理浓度的提高,彩叶草根系透射峰所对应峰形基本不变,而参与Se吸附的基团如羟基、酰胺基和指纹区等的透射峰发生了不同程度的位移。FTIR-ATR的特征峰与彩叶草根系响应Se胁迫的各生理指标变化趋势基本一致,且FTIR-ATR比传统的生理指标测定更敏感、便捷。SEM-EDXS扫描还发现随着EDDS处理浓度的升高,根系中K、Mg、Fe、Si等元素的含量升高,而营养元素Ca含量降低。该研究结果可为深入了解EDDS处理下彩叶草对Se胁迫的响应机理提供科学依据。

多元线性回归模型的FTIR/ATR多组分定量分析

利用衰减全反射傅立叶变换红外光谱(FTIR/ATR)以及多元线性回归模型,分别采用经典最小二乘回归算法和逆最小二乘回归算法,建立了一种多组分同时在线的定量分析方法.这种方法精度高,结果准确,平均相对误差不到3%.两种回归算法中,以逆最小二乘算法获得的结果具有更高的精度和准确性,更适合含有少量杂质的体系.

傅里叶变换衰减全反射红外光谱法(ATR-FTIR)的原理与应用进展

傅里叶变换衰减全反射红外光谱(ATR-FTIR)在难以制备的样品、无损检测及表面信息的获取等方面具有独特的优势。本文对傅里叶变换衰减全反射红外光谱(ATR-FTIR)的基本原理、特点及应用进展进行了较为全面的综述,对从事此方面相关工作的研究具有一定的参考价值。

连续小波变换HATR-FTIR分析应用于中药枸杞子与同属非正品鉴别的研究

采用水平衰减全反射傅立叶变换红外光谱（HATR—FTIR）法直接测定了枸杞子与同属非正品的HA—TR-FTIR谱图，应用主成分分析法确定出所有区域的信息负荷量，在1750-750cm^-1采用Morlet小波函数对枸杞子及其非正品的HATR-FTIR谱图进行了一维连续小波变换。结果发现，傅立叶变换红外光谱与连续小波变换分析相结合在中药材枸杞子与非正品的鉴别中具有应用价值，方法简便、快速、准确，而且不需制备样品。

TPU/POE共混体系相分离过程的ATR-FTIR研究

探讨了一种新的共混体系热塑性聚氨酯(TPU)/聚乙烯-辛烯共聚物(POE)共混体系,在相分离过程中衰减全反射傅里叶变换红外光谱(ATR-FTIR),结果发现:对于不相容TPU/POE体系,随着热老化时间的增加,ATR-FT-IR特征峰面积也逐渐增加(温度较低除外),温度较高时则先增加后降低;而PU/POE/POE-g-MA体系,由于加入相容剂,ATR-FTIR特征峰面积则随着热老化时间的增加而逐渐降低.

ATR-FTIR结合GC-MS鉴别印油种类

建立了一种傅里叶变换衰减全反射红外光谱法(ATR-FTIR)结合气相色谱-质谱联用法(GC-MS)鉴别印章印文的方法。结果表明,在波数4000~1700 cm-1范围内,根据其红外光谱图特征峰的个数及峰位置可将15种样品分为5类;结合气相色谱-质谱联用法,可以有效区分同一品牌不同型号及不同品牌不同型号的样品。该方法具有样品制备简单、分析速度快、价格低廉、自动化程度高的优点,为物证鉴定中印章印文的鉴别提供可靠的检验方法,对物证鉴定中的文件检验分析具有较强的实践应用价值。