Study of semi-automated solid-phase extraction for the determination of acaricide residues in honey by liquid chromatography

A solid-phase extraction (SPE) method followed by a reversed-phase high-performance liquid chromatography (HPLC) procedure is reported for the assay of a wide polarity range acaricide residues in honey. After selection of suitable chromatographic and detection conditions, most steps of the SPE procedure that may affect to the recovery were investigated. Honey sample was buffered at pH 6 and then applied to the preconditioned C₁₈ sorbent. A washing step was performed with 1 ml of a mixture of tetrahydrofuran (THF)–phosphate buffer (10:90, v/v) and finally, the analytes were eluted with 1 ml of THF. The extract was evaporated to dryness, reconstituted in mobile phase and chromatographed on a reversed-phase C₁₈ column with diode array detection. The recoveries of the more polar acaricides were higher than 80% and 60–70% for the more apolar ones. Limits of detection obtained ranged from 1 to 200 ng/g.     

High Performance Liquid Chromatographic Determination of Neomycin in Milk Using a Hisep Column

Abstract

A high performance liquid chromatographic (HPLC) method for the determination of neomycin in milk is described. Milk is passed directly through an amberlite CG-50 ion exchange resin column, and the neomycin which is retained on the column is derivatized with ortho-phthalaldehyde (OPA) reagent. The derivatized neomycin is eluted from the column with potassium borate buffer/methanol and analyzed by HPLC. A HISEP HPLC column with fluororoetric detection was used. Recoveries ranged from 94 to 102% in samples fortified between 0.1 to 5ppra levels. The detection limit is 50ppb.     

A Simple Isocratic High-Performance Liquid Chromatographic (HPLC) Determination of Naproxen in Human Plasma using a Microbore Column Technique

Abstract

A simple and sensitive HPLC method was developed for the determination of naproxen in human plasma. The assay employs a microbore column packed with a C18 reversed-phase material (5 μm ODS Hypersil) with an isocratic mixture of acetonitrile and 10 mM phosphate buffer, pH 2.5 (40:60, v/v) as the mobile phase. The mobile phase was pumped at a flow rate of 0.5 ml/min. For sample analysis 200 μl of acetonitrile containing internal standard (flurbiprofen) was added to 100 μl of plasma. After centrifugation 10 mM phosphate buffer, pH 7.4 (200 μl) was added to the tube, then vortexed and centrifuged. The supernatant (20 μl) was injected onto the HPLC column. The chromatographic separation was monitored by a fluorescence detector at an emission wavelength of 350 nm with an excitation wavelength of 225 nm. The direct precipitation of plasma protein using acetonitrile gave a good recovery for both naproxen and the internal standard. The detection limit was 0.1 μg/ml for naproxen. The intra- and inter-assay coefficients of variation at different concentrations evaluated were less than 10%.     

Solid Phase Extraction of Sulfonamides Using Cyclobond-I Cartridges

Abstract

The use of cyclobond-I solid phase extraction (SPE) cartridges in the analysis of sulfonamides was investigated. an aqueous solution of sulfonamides in 0.1 M potassium phosphate buffer (pH 4.0) was passed through the SPE cartridge. the sulfonamides which were retained on the cartridge by formation of inclusion complexes between the sulfonamides and B-cyclodextrin were eluted with 50% aqueous methanol. the eluate was directly analysed by High Performance Liquid Chromatograph with UV detection at 265nm.     

Cyclodextrin Bonded Phase for Liquid Chromatographic Separation and Analysis of Some Oral Contraceptives

Abstract

A specific and sensitive analytical HPLC procedure was described for quantitative determination of ethinylestradiol and norethisterone acetate (Anovlar 1) and ethinylestradiol and norgestrel (Primovlar) in tablet formulation. These steroids were extracted from the tablets with methanol. The steroids were then determined with high performance liquid Chromatograph-Cyclobond 1 column using mobile phase phosphate buffer pH 7.0: methanol (60:40), flow rate 0.5 ml min^?1 and the detection was effected spectrophotometrically at 280 nm, using variable wavelength UV detector.

There was > 99.3% recovery from synthetic mixtures and the coefficient of variation was < 2.0% for the formulations investigated. The method is highly quantitative and reproducible.     

Purification of Human Platelet Monoamine Oxidase B by High Performance Liquid Chromatography

Abstract

Human platelet monoamine oxidase (MAO B), a membrane bound enzyme was purified to homogeneity by DEAE-Sephacel column chromatography, chromatofocusing, and high performance liquid chromatography (HPLC). The crucial purification step was HPLC on a anion exchange column (SynChropak AX 300). The HPLC column was eluted initially with potassium phosphate buffer (100 mM, pH 7.4) for 10 min at a flow rate of 1.0 ml/min, followed by a gradient (0–1%) of octyl-β-D-glucopyranoside (octylglucoside) in the same buffer for 10 min, and finally with buffered octylglucoside (1%) for 40 min. The elution of pargyline-bound or active MAO was established by determining either radioactivity in each fraction when MAO B had previously been covalently labeled with [³H]-pargyline [³H(G)] or catalytic activity using [¹⁴C-methylene]-benzylamine as substrate. [³H]-pargyline-bound and active MAO B eluted from the column at approximately 34 min. The extent of homogeneity and the subunit M_r (approximately 59,000) of MAO B were determined by sodium-dodecyl sulfate polyacrylamide gel electrophoresis followed by silver staining for proteins.     

Determination of momordicoside A in bitter melon by high-performance liquid chromatography after solid-phase extraction

Summary Momordicoside A has been determined by solid-phase extraction (SPE) on a Envi Carb cartridge (3 mL, 250mg) then high-performance liquid chromatography (HPLC) on a C₁₈ column (4.6 mm×250 mm, 5 μm particle) with acetonitrile-methanol-50mm potassium dihydrogen phosphate buffer, 25:20:60 (v/v), as mobile phase, at a flow rate of 0.8 mL min⁻¹, and UV detection at 208 nm. The analytical method was shown to be highly reproducible, with precision (asRSD) and accuracy (asRME)<10%, both intra-day and inter-day. Absolute recoveries were >90%. The method was applied to the determination of momordicoside A in various tissues from different varieties of bitter melon from different producing areas.     

固相萃取和高效液相色谱相结合快速测定苦瓜甙A的含量(英文)

 建立了一个快速、简单、准确的固相萃取和高效液相色谱相结合的测定苦瓜甙A含量的方法。样品经石墨碳固相萃取管 (3mL/ 2 5 0mg)纯化后以高效液相色谱检测。色谱柱为C18,流动相为V(乙腈 )∶V(甲醇 )∶V(5 0mmol/L磷酸二氢钾缓冲液 ) =2 5∶2 0∶6 0 ,流速为 0 .8mL/min ,检测波长为 2 0 8nm。标准曲线自 10mg/L到 10 0 0mg/L呈线形关系 (r2 =0 .9992 )。该方法具有很好的重现性 ,日内或日间的相对标准偏差和相对平均误差均小于 10 %。样品回收率大于 90 %。     

Piroxicam quantitation in human plasma by high-performance liquid chromatography with on- and off-line solid-phase extraction.

A comparative study of two analytical methodologies for piroxicam quantitation in plasma by off-line and on-line solid-phase extraction (SPE) and high-performance liquid chromatography (HPLC) is described. The SPE cartridges contained C8 for both extraction methods. The analytes piroxicam and tenoxican (internal standard) were separated on a C18 column with a mobile phase consisting of acetonitrile:20 mM phosphate buffer pH 3.1 (50:50, v/v) followed by UV detection at 360 nm. The validation of the methods demonstrated good recoveries (over 90%), sensitivity (limits of quantification of 0.05 microgram/ml with on-line SPE and 0.1 microgram/ml with off-line SPE, based on a 100 microliters and 200 microliters sample volume, respectively), accuracy and precision (better than 9.5%). Both methodologies have been used for bioequivalence studies.     

High-Performance Liquid Chromatographic Determination of Atenolol in Tablets

Abstract

A reversed phase high-performance liquid chromatographic method was developed for the determination of atenolol in four oral 100 mg atenolol preparations.

An aliquot of the sample is dissolved in a mobile phase consisting of 0.0612 M potassium hydrogen phosphate - isopropanol-tetrahydrofuran (84:10:6) v/v). The pH was adjusted to 6.7 with phosphate buffer. Nicotinamide was used as internal standard and chromatographed on a Pinkerton column ISRP (GFF-S5–80) 5 μm, 150 × 4.6 mm i.d. The applied column is convenient for the assay at least 90 samples of atenolol without degrading column performance. The detection was performed at 272 nm. The retention time for atenolol was 5.07 min.

The proposed HPLC method was found to be suitable for the rapid and precise routine analysis of atenolol in tablets.     

High Performance Liquid Chromatographic Determination of Amiodarone in Plasma and Tissues

Abstract

A simple and rapid high-performance liquid chromatographic (HPLC) method for the determination of amiodarone (AD) in plasma and tissues was developed. The method involved deproteinization of plasma or homogenized tissue with acetonitrile containing an internal standard (N-Cetylpyridinium chloride) followed by reversed phase chromatography using μ bondapack C₁₈ column (10μm) with a mobile phase consisting of acetonitrile - methanol - sodium dihydrogen phosphate buffer (70:10:20%, v/v), the pH adjusted to 4.0 and pumped at flow rate of 1.0 ml/min. The column effluent was monitored at 242 nm. A linear relationship was obtained between peak height ratios (drug to internal standard) versus drug levels over the concentration range of 50–750 ng/ml. The detection limit of AD in plasma and tissues by this method was 20 ng/ml.     

Automatic Determination of Indomethacin in Human Plasma Using Liquid-Solid Extraction on Disposable Cartridges in Combination with HPLC

Abstract

A sensitive and automatic method for the analysis of indomethacin in plasma has been developed using liquid-solid extraction (LSE) on disposable extraction cartridges (DECs) coupled to high-performance liquid chromatography (HPLC). The fully automated system handles the plasma samples by performing the same operations as in a manuel procedure by means of an autosampler equipped with a robotic arm at which is attached a needle dispensing the different liquids. The DEC is first conditioned with methanol and phosphate buffer pH 7.4. A 1.0-mL volume of plasma is then applied onto the DEC; the latter is washed with the same buffer before the elution with 0.25 mL of methanol. The eluting strength of the eluate is reduced by dispensing 0.30 mL of phosphate buffer pH 7.4 in the collection tube prior to the injection onto the HPLC column via a 0.1-ml loop. The chromatographic separation is performed on an octadecylsilica column with a mixture of methanol and phosphate buffer pH 7.4 as mobile phase (60:40, v/v) and indomethacin is monitored photometrically at 254 nm. The effect of the plasma dispensing flow rate on the drug recovery and the importance of the guard column for the stability of the analytical column have been studied. The absolute recovery of the drug is 96.0 9s and the limit of detection, 2 ng/mL. At the concentration of 100 ng/mL, relative standard deviations of 1.5% (with in-day) and 2.3% (between-day) have been obtained.     

Analysis of Indenolol In Biological Fluids By High Performance Liquid Chromatography

Abstract

The analysis of indenolol in plasma and urine is described. The method involves extraction of the drug from plasma or urine using chloroform at basic pH. The separation was performed on CN column using methanol and 0.01M potassium dihydrogen phosphate solution 50:50. The efficiency of extraction was 97%. Minimum detectable amount by fluorescence was 20 ng/ml.     

Sensitive Determination of Piritramide in Human Plasma by High-Performance Liquid Chromatography

Abstract

A selective and sensitive method for the determination of piritramide in human plasma is described. After addition of 50 μl of 2 M ammonia and 20 μl of aqueous promethazine solution (100 ng/10 μ1) as an internal standard, 1 ml of plasma was extracted with 5 ml of toluene (extraction efficiency: 93.9 × 2.6%; mean × S. D.; n = 5). HPLC was performed with a phenyl hypersil NC-04 column, particle size 5 μm, 250 × 4 mm I. D.; mobile phase: 8 parts of acetonitrile and 2 parts of 10 mM potassium phosphate buffer (pH 3. 3). The flow rate was set to 2 ml/min and the column temperature was 22°C. The assay was linear in a concentration range of 3.75 ? 3000 ng/ml (r = 0.999), with a lower limit of detection of 3 ng/ml. The precision was determined using spiked plasma samples (15 ng/ml; 300 ng/ml), with coefficients of variation of 6.1 and 5.9% (intraday; n = 5) and 6.5 and 0.2% (interday; n = 3). In the range of 5.6 ? 1500 ng/ml, the accuracy of the assay was 2.82%. The method was used for the determination of piritramide plasma concentrations in patients receiving intra- or postoperative analgesia.     

Automated Solid Phase Extraction and Hplc Analysis of Ibuprofen in Plasma

Abstract

Ibuprofen is a non-steroidal anti-inflammatory drug, widely used in arthritis and other disorders. We describe a high pressure liquid chromatographic (HPLC) method for the analysis of ibuprofen in plasma, using an automated solid phase extraction technique (the Varian AASP^R). In this method ibuprofen was extracted from 0.5 ml of plasma by application to a C₂ extraction cartridge followed by “on line” elution with the HPLC mobile phase (55% acetonitrile / 45% 0.02 H phosphate buffer; pH 3.0), at a flow rate of 1.5 ml/min. The analytical column was a Nucleosil C₁₈ column and the fluorescence detector was set at 253 nm (excitation wavelength) and 300 nm (emission wavelength). Chromatography was complete in less than 10 mins and the limit of detection was 1.3 /μg/ml. The method is linear through the range of 1.0 to 100.0 /μg/ml with a mean correlation coefficient of 0.9964. Absolute recovery of ibuprofen from the spiked plasma samples ranged from 77.8% to 86.5%. The method was shown to be precise within 11% C.V. and accurate to within 8% over the concentration range studied.     

Quantitation of nifedipine in human plasma by on-line solid-phase extraction and high-performance liquid chromatography

An analytical methodology for nifedipine quantitation in plasma by on-line solid-phase extraction (SPE) and high-performance liquid chromatography (HPLC) is described. The SPE cartridges contain C₂ and the analytes nifedipine and nitrendipine (internal standard) are separated on a C₁₈ column with a mobile phase consisting of acetonitrile–13 mM phosphate buffer pH 7 (65:35, v/v) followed by UV detection at 338 nm. Validation of the method demonstrated good recoveries (>90%), sensitivity (limit of quantification, 2 ng/ml), based on a 500 μl sample volume, accuracy and precision (<5.5% in concentrations greater than the limit of quantitation). This methodology has been used for bioequivalence studies.     

Simple High-Performance Liquid Chromatographic Method for the Analysis of Quinine in Human Plasma without Extraction

Abstract

A simple, rapid and sensitive assay, capable of quantitating quinine (Q) in human plasma samples is reported. The assay uses a reversed-phase C18 HPLC column packed with 5 μ ODS Hypersil. The chromatographic separation was accomplished with an isocratic mobile phase comprising acetonitrile-aqueous phosphate buffer pH 2 (50:50, v/v) containing 25 mM sodium dodecyl sulfate and 3 mM tetrabutylammonium bromide at a flow rate of 0.5 ml/min. The eluant was monitored by a fluorescence detector (excitation wavelength at 350 nm and emission wavelength at 450 nm). The assay was based on a simple plasma protein precipitation technique. To 200 μ of plasma sample, 400 μ of internal standard (cinchocaine 30 μ/ml in methanol) was added. After brief vortexing and centrifugation, the clear supernatant was injected onto the HPLC column. The inter- and intra-assay coefficients of variation were found to be less than 10%. The lowest limit of detection for Q in plasma was 18 ng/ml.     

Simultaneous Determination of Diazepam,Oxazepam and Temazepam in Spiked Urine By Hplc

ABSTRACT|Oxazepam and temazepam are two minor metabolites of diazepam. These three benzodiazepines may be found in presence of each other in biological fluids.

Therefore, in this study an HPLC method was developed to separate and analyze them. Benzodiazepines have ability to form inclusion complexes with p-cyclodextrin (β-CyD). According to the degree of binding constant with β-CyD, these compounds can be separated by β-CyD bound to silica (cyclobond column) as the stationary phase using HPLC.

The development and validation of the HPLC procedure for the separation and determination of these compounds in mixtures were studied. The mobile-phase system consisted of phosphate buffer (pH 7): methanol [75:25], with flow rate 0.8 ml min^?1 and UV detection at 240 nm was used.

The calibration graphs were rectilinear from 0.1-2.5 μg/ml and coefficients of variation were <2% for the three compounds in bulk forms.

The method was used to analyse these bezodiazepines in spiked urine containing all three compounds in combination. Recoveries were 97-99.8%

The limit of detection and limit of quantitation were 0.05 μg/ml and 0.1 μg/ml, respectively.

The described method is selective, rapid, simple, reproducible and accurate.     

Semi-automated, solid-phase extraction procedure for liquid chromatographic determination of papaverine, diltiazem, desipramine and nicardipine in urine

Summary A solid-phase extraction (SPE) method for sample clean-up followed by a reversed-phase HPLC procedure is reported for the assay of papaverine, diltiazem, desipramine and nicardipine in urine. Disposable extraction cartridges (DECs) filled with C18, C8, C2, CH and PH silica-bonded phases were used. The effect on recovery of sample pH, composition of washing and elution solvents and nature of SPE cartridge were evaluated. The selectivity of SPE was examined using spiked urine samples and the PH cartridge gave rise to the cleanest extracts. Phenyl cartridges were conditioned with methanol and acetic acid-sodium acetate buffer. Urine sample was buffered and then applied to the DEC. The washing step was with acetone-water and subsequently with methanol-acetate buffer. The analytes were eluted with methanol-acetate buffer. The extract was evaporated to dryness, reconstituted in mobile phase, and chromatographed on a reversed-phase C18 column with UV detection at 212 nm. Recoveries of the tested compounds from spiked urine samples using the PH cartridge were in all cases>80%. The within-day and between-day repeatabilities were<5% and 9%, respectively.     

聚合物整体柱微萃取-高效液相色谱法检测鸡蛋中的磺胺嘧啶和磺胺二甲嘧啶残留

建立了鸡蛋中磺胺嘧啶和磺胺二甲嘧啶残留量的聚合物整体柱微萃取和高效液相色谱检测方法。以聚(甲基丙烯酸-乙二醇二甲基丙烯酸酯)毛细管整体柱作为萃取装置。为了得到较高的萃取效率,优化了影响萃取效率的参数(萃取流速、萃取体积、样品基质pH值)。样品经过匀浆、乙醇提取、磷酸盐缓冲溶液稀释、离心等步骤后直接进行萃取。鸡蛋中磺胺嘧啶和磺胺二甲嘧啶的检出限分别为11.2 ng/g和8.8 ng/g,在50～5000 ng/g的浓度范围内具有良好的线性关系。加标回收率大于65%,日内、日间测定的相对标准偏差不高于8.2%。结果表明,方法简单、快速、灵敏度高,适用于鸡蛋中磺胺嘧啶和磺胺二甲嘧啶的常规分析。