A Dual Wavelength Differential First Derivative Spectrophotometric Method for Identification and Determination of Carbon Monoxide Generated During the Microsomal Metabolism of Xenobiotics in vitro

A dual wavelength differential first derivative spectrophotometric method has been developed to standardize the concentration of a saturated aqueous solution of carbon monoxide (CO) as the standard and to identify and to determine CO formed during the microsomal metabolism of xenobiotics in vitro. The method can significantly eliminate the background interference in the assay media and increase the quantitative accuracy and the sensitivity. There is a good linear relationship between CO concentration in the range of 2～10 μmol·L 1 CO and the distance D between the first derivative peak at 415 nm amd valley at 426 nm with r=0.9999(n=5),the regression equation being C (mmol·L 1 )=17.6D 0.4, the detection limit lower than 0.1 μmol·L 1 CO. The average recoveries of CO from the assay system and the sample were 102.1%, RSD=2.9% (n=7) and 79.7%, RSD=6.8% (n=12),respectively. The RSD of within day was 4.4%(n=18),and the RSD of day to day was 6.1%(n=16). By this method, four trihaloanilines and one trihalobenzene were tested, the results showed that only 2,4,5 trifluoroaniline could be converted to CO by the incubation with rat hepatic microsomes, NADPH and oxygen, the ability of phenobarbital or dexamethasone to induce rat hepatic microsomes to catalyze CO formation was 3 or 8 times higher than that of the control.

Dual-wavelength dual-indicator catalytic kinetic spectrophotometry for determination of trace Ru(Ⅲ)

A new dual-wavelength dual-indicator catalytic kinetic spectrophotometric method for the determination of trace Ru(III)was studied.This method was based on Ru(III)-catalyzing oxidation of Arsenazo I and indigo carmine by potassium bromate in sulfuric acid.The absorbances of the catalytic and noncatalytic systems were measured at 510 and610 nm,respectively.Under the optimum conditions,the linear range of determination is 0–0.12 lgáml-1and the detection limit is 1.21 9 10-4lgáml-1.The method was applied for the determination of trace Ru(III)in ore samples with satisfactory results.

双波长光度法测定热处理橡胶木中支链淀粉和直链淀粉的含量

橡胶木中直链淀粉和支链淀粉的组成比例直接影响淀粉的化学特性,橡胶木热处理过程中,淀粉发生不同程度热降解影响其比例发生变化,分析其含量变化将为热处理橡胶木热解机制研究提供理论基础.研究采用单因素法优化了提取方法参数,并建立了双波长光度法检测橡胶木中直链淀粉和支链淀粉含量的定量分析方法,检验了该分析方法的精密度、稳定性和加标回收率.结果表明,直链淀粉和支链淀粉的标准曲线方程分别为y=0.02499x-0.1136和y=0.00159x-0.0005,其回归系数R^(2)均为0.998,方法前处理样品简便、快速,分析方法稳定性好、灵敏度高,回收率稳定,适用于橡胶木中直链淀粉和支链淀粉含量的定量分析.分析比较了橡胶木素材及不同温度(125、155、185℃)热处理橡胶木中直链淀粉和支链淀粉的含量,橡胶木素材中支链淀粉含量远高于直链淀粉,质量比约为8∶1.随着热处理温度升高至155℃,直链淀粉含量出现明显下降,而温度升高至185℃,支链淀粉含量出现明显下降趋势.

双波长法测定人参中淀粉含量

目的:建立双波长测定人参中直链淀粉和支链淀粉两类淀粉含量的方法。方法:以人参中直链淀粉和支链淀粉为研究对象,测定不同生长年限林下山参和园参中直链淀粉和支链淀粉含量并分析其分布规律,以碘比色法中双波长法为检测方法,对测定条件和方法进行优化,最后通过方法学验证最佳方法的准确性。结果:根据双波长法的测定原理和扫描光图谱,确定直链淀粉的测定波长和参比波长分别为600、471 nm;支链淀粉测定波长和参比波长分别为540、702 nm。直链淀粉和支链淀粉质量浓度分别在0.004~0.060(r=0.9998)、0.02~0.16 mg·mL^(-1)(r=0.9997)时具有良好的线性关系。平均加样回收率分别为100.03%和101.84%,RSD分别为1.29%和1.92%。结论:该方法操作简便,准确性、稳定性和重复性均良好,适用于人参中直链淀粉和支链淀粉含量的测定,可为人参的质量控制提供参考。

双波长叠加可见分光光度法测定天然甜味剂甘草酸的含量

由于甘草酸二铵的稳定性和生物活性优于甘草酸,采用测定甘草酸二铵含量来间接测定甘草酸的含量,建立一种新的甘草酸的双波长叠加分光光度的测定方法。在pH 3.8的Clark-Lubs介质中,甘草酸二铵以甘草酸形式与结晶紫反应形成以氢键组装的超分子聚集体,最大负吸收波长位于496 nm,次大正吸收波长位于594 nm。甘草酸二铵的质量浓度与吸光度差值ΔA在一定范围内均呈良好的线性关系。采用双波长叠加法测定时,线性范围是1.8~4.2 mg/L,相关系数为0.9989,表观摩尔吸光系数可达5.85×105 L/(mol·cm),检出限为0.098 mg/L。应用此方法测定了市售不同级别酱油样品中甘草酸的含量,测定值的相对标准偏差(n=6)均在2%以内。该方法操作简便,灵敏度高,可用于酱油中甘草酸的快速测定。

双波长HPLC法同时测定消炎灵胶囊中四种成分的含量

目的:建立双波长HPLC法同时测定消炎灵胶囊中苦玄参苷Ⅰ_(A)、苦玄参苷Ⅰ_(B)、甘草苷、甘草酸含量,对市售消炎灵胶囊中苦玄参和甘草质量进行研究与评价。方法:使用HPLC,选择Waters Xselect C_(18)色谱柱,以乙腈为流动相A,0.1%磷酸溶液为流动相B进行梯度洗脱,流速1.0 mL/min,柱温30℃,检测波长237 nm(甘草苷、甘草酸)、264 nm(苦玄参苷Ⅰ_(A)、苦玄参苷Ⅰ_(B))。结果:65批消炎灵胶囊4种成分线性关系良好(r=0.9998~1.0000),平均加样回收率为97.6%~98.6%(RSD值均小于1%)。部分企业消炎灵胶囊不同批次间4种成分含量存在较大差异,说明各批次间均一性较差。提示各生产企业加强对药材质量控制。结论:该方法简单快捷,可同时测定4个成分含量,并具有良好精密度、重复性和稳定性,为消炎灵胶囊中苦玄参苷Ⅰ_(A)、苦玄参苷Ⅰ_(B)、甘草苷、甘草酸质量评价提供参考。

Two spectrophotometric methods for simultaneous determination of some antihyperlipidemic drugs

Two simple, accurate, precise and economic spectrophotometric methods have been developed for simultaneous determination of Atorvastatin calcium (ATR) and Ezetimibe (EZ) in their bulk powder and pharmaceutical dosage form. Method (I) is based on dual wavelength analysis while method (II) is the mean centering of ratio spectra spectrophotometric (MCR) method. In method (I), two wavelengths were selected for each drug in such a way that the difference in absorbance was zero for the second drug. At wavelengths 226.6 and 244 nm EZ had equal absorbance values; therefore, these two wavelengths have been used to determine ATR; on a similar basis 228.6 and 262.8 nm were selected to determine EZ in their binary mixtures. In method II, the absorption spectra of both ATR and EZ with different concentrations were recorded over the range 200-350, divided by the spectrum of suitable divisor of both ATR and EZ and then the obtained ratio spectra were mean centered. The concentrations of active components were then determined from the calibration graphs obtained by measuring the amplitudes at 215-260 nm (peak to peak) for both ATR and EZ. Accuracy and precision of the developed methods have been tested; in addition recovery studies have been carried out in order to confirm their accuracy. On the other hand, selectivities of the methods were tested by application for determination of different synthetic mixtures containing different ratios of the studied drugs. The developed methods have been successfully used for determination of ATR and EZ in their combined dosage form and statistical comparison of the developed methods with the reported spectrophotometric one using F and Student’s t-tests showed no significant difference regarding both accuracy and precision.

复方新诺明注射液的制备及质量控制

为探究复方新诺明注射液制备工艺及其质量标准,以药物高压前后含量的变化为评价标准,通过L9(3^(4))正交试验筛选辅料、优化处方,制备复方新诺明注射液,并对注射液的质量控制进行考察。最终确定复方新诺明注射液的最优处方为:每100 mL复方新诺明注射液含有机助溶剂45%,焦亚硫酸钠0.3 g,PEG-4003 mL,pH为8.0。质量控制结果显示,该注射液呈淡黄色,澄清,无可见异物,pH在8.0左右,无热原反应,注射液稳定性良好,用等吸收点双波长紫外分光光度法测定药物含量的方法准确可靠。

双波长法测定常用淀粉原料中直链淀粉、支链淀粉及总淀粉含量

建立了双波长法测定常用淀粉原料中直链淀粉、支链淀粉和总淀粉含量的方法。按照双波长测定的等吸收点作图法确定2种淀粉的测定波长和参比波长，直链淀粉的测定波长分别为630、480nm，支链淀粉的测定波长分别为550、735nm。结果表明．直链淀粉浓度在0-36μg／mL、支链淀粉浓度在40～100μg／mL范围内线性关系良好，符合比耳定律，具有较高的精确度和准确度。常用淀粉原料的总淀粉含量在66．51％～83．65％，其中绿豆淀粉和豌豆淀粉的直链淀粉含量比明显高于其他淀粉原料；糯米粉中的支链淀粉含量最高．其直链淀粉含量过低，导致吸光值太小而检测不出。

双波长法测定小麦及小麦芽中直链、支链淀粉含量

采用双波长法对15种小麦品种的直、支链淀粉的含量进行了测定,并选择淀粉含量及支链/直链比有代表性的6个品种进行制麦试验,研究了小麦制麦芽期间淀粉含量的变化,以期探讨一种简便快捷的测定小麦及麦芽中淀粉含量的方法,并为筛选适合制麦芽小麦品种提供依据。根据碘-直链淀粉和碘-支链淀粉复合物的吸收光谱,选择直链淀粉的测定波长为631 nm和480 nm,支链淀粉的测定波长为554 nm和754 nm,依据回归方程可求出直链和支链淀粉的含量。直链淀粉的浓度在0～30μg/mL,支链淀粉在0～110μg/mL范围内符合比耳定律。制麦前后总淀粉降解程度与原小麦中支链/直链淀粉存在正相关性（P〈0.1）,相关系数r=0.802。

三波长与双波长分光光度法对高铁酸盐溶液中Fe(Ⅵ)和Fe(Ⅳ)的同时测定

采用分光光度法 ,选用560、605、669nm三波长消除Fe(Ⅵ)对Fe(Ⅳ)的干扰而测定Fe(Ⅳ)的浓度 ,选用507、695.8nm双波长消除Fe(Ⅳ)对Fe(Ⅵ)的干扰而测定Fe(Ⅵ)的浓度 ;该法快速、准确、可靠 ,回收率可以达到99 %～102 % ;对于多种高铁酸盐共存时的测定不失为一种有效的方法。

用双波长分光光度法测定鲜食玉米中直链淀粉和支链淀粉含量

以碘为显色剂,应用双波长分光光度法测定了鲜食玉米中直链淀粉和支链淀粉的含量.根据碘-直链淀粉和碘-支链淀粉复合物的吸收光谱,选择直链淀粉的测定波长为629 nm和463 nm,支链淀粉的测定波长为553 nm和738 nm,并依据回归方程求出直链淀粉和支链淀粉的含量.直链淀粉的含量在10～60 mg/L、支链淀粉在60～200 mg/L范围内符合比耳定律.用双波长法测定不同品种鲜食玉米中直链淀粉和支链淀粉含量取得了良好的效果.

双波长法测定山药中直链和支链淀粉含量

使用双波长分光光度法测定不同品种山药中直链淀粉和支链淀粉的含量,根据双波长法的测定原理,确定山药直链及支链淀粉的测定波长和参比波长,直链淀粉分别为624 nm和410 nm,支链淀粉分别为538 nm和758 nm。试验结果表明,该测定方法标准曲线良好。直链淀粉在0~50μg/mL质量浓度范围内其碘复合物与吸光度呈线性关系(R^2=0.999 7),支链淀粉在0~250μg/mL质量浓度范围内其碘复合物与吸光度呈线性关系(R^2=0.998 4)。山药中直链淀粉含量为0.026 mg/mL,回收率在96.72%~98.73%之间;支链淀粉的含量为0.072 mg/mL,回收率在95.74%~97.87%之间,RSD均小于1.5%。

双波长法测定木薯淀粉中直链和支链淀粉的含量

目的:分离纯化木薯淀粉中的直链和支链淀粉,建立同时测定木薯淀粉中直链与支链淀粉含量的双波长法。方法:采用正丁醇结晶法分离纯化直链和支链淀粉,蓝值比较法表征直链与支链淀粉的纯度;根据双波长法原理,分别在测定波长624、538nm,参比波长440、750nm处测定木薯淀粉中直链与支链淀粉含量。结果:分离纯化得到的直链与支链淀粉蓝值分别为0.979和0.144,分别落在0.8～1.2与0.08～0.22范围内,表明纯化后木薯直链与支链淀粉的纯度较高;直链淀粉在0～80mg/L质量浓度范围内其碘复合物与吸光度呈线性关系(r=0.9992),支链淀粉在0～220mg/L质量浓度范围内其碘复合物与吸光度呈线性关系(r=0.9995)。结论:正丁醇结晶法能有效地分离木薯直链与支链淀粉;双波长法操作快速、准确,无需分离即可同时测定木薯淀粉样品中直链和支链淀粉含量。

双波长分光光度法测定烟草中的直链淀粉和支链淀粉

根据双波长比色原理,选择直链淀粉的测定波长为512和596 nm,支链淀粉的测定波长为560和695 nm,依据回归方程求出直链和支链淀粉的含量。结果表明:用双波长分光光度法测定直链淀粉和支链淀粉的含量结果准确,适用于批量分析。

双波长和三波长分光光度法同时测定乙醛酸和乙二醛

利用醛基的成肟反应，用双波长法、三波长法同时测定乙醛酸、乙二醛的含量。它们的回收率分别为１００．９％～１０２．３％（ｎ＝６）和９６．８％～１０３．０％（ｎ＝１１）。

两次双波长分光光度法同时测定钼和钨的研究

本文把等吸收双波长法和双峰双波长法结合起来。建立了一种新型高灵敏度的同时测定铝、钨的两次双波长光度法。测定Mo、W的摩尔吸光系数分别为1.9×10~5和1.7×10~5L·mol^(-1).cm^(-1),测定范围1.5～8.0μg/25ml和4.0～15μg/25ml,相互允许量Mo:W=2:1～1:10,该法用于合成水样及标准钢样中的Mo和W的同时测定,结果满意。

双波长分光光度法测定木薯块根淀粉含量的动态变化

以双波长分光光度法测定SC201、SC205、GR891和GR911共4个木薯品种生育期块根中直链淀粉与支链淀粉含量的动态变化。结果表明,4个木薯品种块根直链淀粉的含量是随生育期的延长而逐渐增加的,而支链淀粉的含量却缓慢下降,支链淀粉/直链淀粉的比例呈现下降趋势,到12月份4个品种的这一比例已接近相同;以鲜重计的总淀粉含量,4个品种均呈逐渐增加的趋势;而以干重计的总淀粉含量的变化则4个品种表现不一致。研究初步揭示了木薯块根直链淀粉、支链淀粉和总淀粉含量的积累规律。

双波长分光光度法同时测定灌木饲料中的铁和铝

利用铁、铝与邻苯二酚紫 (PCV)形成的络合物的最大吸收波长相差 30nm的光谱性质 ,建立了同时测定铁和铝的双波长分光光度法 ,并对络合物的形成条件及相互干扰情况进行研究 ,方法用于灌木饲料样品中铁和铝测定。

双波长分光光度法测定芦荟苷的含量

目的 :应用等吸收点双波长分光光度法对芦荟中芦荟苷含量测定进行研究。方法 :依据芦荟苷与芦荟大黄素的光谱特征 ,选择 36 1.4nm为测定波长 ,480 .9nm为参比波长。结果 :芦荟苷线性范围 1× 10 -6～ 1× 10 -4 mol/L ,回收率为 97.4%～10 1.6 % ,RSD为 0 .5 5 %～ 0 .74% ,芦荟大黄素对测定不干扰。结论 :本方法简便可靠 ,重现性好 。