Simultaneous measurement of phenylalanine and tyrosine in phenylketonuric plasma and dried blood by high-performance liquid chromatography

Phenylketonuria (PKU) is a disorder characterized by an interruption in the conversion of phenylalanine to tyrosine, a reaction catalyzed by phenylalanine hydroxylase (PAH). Animal models of PKU used in this study were induced by daily subcutaneous injections of pups with alpha-methylphenylalanine plus phenylalanine in utero and postnatally from day 4 to day 14. Dry blood and plasma were utilized to measure phenylalanine concentration in PKU rats. The results indicated that the concentration of phenylalanine is higher and more stable in plasma than dry blood. Precolumn derivatization of dried blood and plasma free amino acids were conducted with phenylisothiocyanate (PITC). The phenylthiocarbamyl (PTC) derivatives were separated on a reversed-phase C-18 column (15 cm x 4.6 mm). A gradient high-performance liquid chromatography method with two eluents, 0.1 M sodium acetate buffer and 100% acetonitrile was developed to facilitate the separation of nine amino acids within 11 min. Tyrosine and phenylalanine eluted the column at 5.4 and 9.4 min, respectively. This method provides a quick and reliable technique for neonatal screening.     

Determination of amino acids in foods by reversed-phase HPLC with new precolumn derivatives,butylthiocarbamyl, and benzylthiocarbamyl derivatives compared to the phenylthiocarbamyl derivative and ion exchange chromatography

New precolumn derivatizing reagents for analysis of amino acids by HPLC—butylisothiocyanate (BITC) and benzylisothiocyanate (BZITC)—reacted quantitatively with 22 standard amino acids and the amino acids in the acid hydrolysate of food and protein standard, bovine serum albumin (BSA), at 40°C for 30 min to yield butylthiocarbamyl (BTC) amino acids and at 50°C for 30 min to yield benzylthiocarbammyl (BZTC) amino acids. BTC and BZTC amino acids were successfully separated in 35 min on the reversed-phase Nova-Pak C18 column (30 cm × 3.9 mm, 4 μm). The optimum wavelengths for determination of BTC and BZTC derivatives were 240 nm and 246 nm, respectively. Analysis of the results obtained with BSA and food samples as BTC and BZTC derivatives showed good agreement with those determined as ion-exchange chromatography and data presented in the literature. The advantage of BITC reagent over the phenylisothiocyanate (PITC) and BZITC was that it had high volatility, so the excess reagent and by-products were easily removed in about 10 min, compared to about 1 h in the PITC and BZITC reagents. In the BTC and BZTC derivatives, cystine and cysteine were determined separately, but in the PTC amino acids derivatized with PITC reagent they were resolved into single peak.     

两种柱前衍生反相高效液相色谱法测定血液和尿液中游离氨基酸

建立以PITC法和AQC法为柱前衍生试剂测定血液和尿液中游离氨基酸含量的测定方法。采用Waters-e2695操作系统,色谱柱为Shim-vp,ODS(250mm×4.6mm,5μm)(日本,岛津公司),以甲醇/乙腈/水和醋酸钠溶液(pH 6.5)为流动相,梯度洗脱。分别采用紫外和荧光检测器对血液和尿液中游离氨基酸进行含量测定。结果显示,两种衍生化方法灵敏度好、分离度高,具有良好的线性范围(r>0.990 0),准确度高(平均回收率为75.1%～127.0%),进样精密度好(RSD为0.12%～3.42%)。PITC法在尿液中游离氨基酸含量测定中显示了良好的测试准确性;而AQC法测定尿液中组氨酸、苏氨酸、脯氨酸超出线性范围,需要对尿样的前处理进行深入研究。     

High-performance liquid chromatographic method for the determination of gabapentin in human plasma

A sensitive high-performance liquid chromatography (HPLC) method using UV detection for the determination of gabapentin in human plasma has been developed. In this method, gabapentin was extracted from human plasma with a reversed-phase solid-phase extraction (SPE) cartridge followed by derivatization with phenylisothiocyanate. Analysis was achieved by using a HPLC system that was equipped with a UV detector. The quantitation limit of gabapentin in human plasma was 0.03 microg/ml. The method is sensitive with excellent selectivity and reproducibility and it has been applied to a bioequivalence clinical study with great success.     

Solid-phase protein and peptide sequencing using either 4-N,N-dimethylaminoazobenzene 4'-isothiocyanate or phenylisothiocyanate

Automated solid-phase sequencing using 4-N,N-dimethylaminoazobenzene 4'-isothiocyanate (DABITC) double coupling or regular phenylisothiocyanate (PITC) degradation procedures have been investigated. Employing sensitive high-performance liquid chromatography for the identification of amino acid thiohydantoin derivatives (PTH and DABTH), both methods were capable of sequencing immobilized peptides or proteins at the subnanomole levels. In the sequencing program using DABITC, alternate methanol and dichloroethane washes and automated conversion using methanolic HCl containing dithiothreitol were introduced to obtain clean thiazolinones and to ensure high recovery yields of the thiohydantoins. Using regular PITC degradation with a 59-min program, the background peaks of the side products could be reduced to enhance HPLC identification. Peptides or proteins attached to the glass beads or resins via the carboxyl terminii or epsilon-amino groups of lysyl residues could be readily sequenced up to 30 identifiable degradation cycles, where the sequencing is generally terminated due to the increased background components.     

High-performance liquid chromatographic separation of kyotorphin, a basic TyrArg dipetide, in rat brain tissue and quantification using fluorimetric detection

Two HPLC procedures based on sample derivatization at the N-terminal Tyr moiety with agents yielding fluorescent derivatives were applied to the selective and sensitive detection as well as quantification of the basic kyotorphin, TyrArg dipeptide, in rat brain tissue. The first one is a post-column fluorescence derivatization method, whereby the peptides extracted from the brain tissue are separated on an octadecylsilyl-silica gel column, followed by on-line fluorescence derivatization for detection. The other one is a pre-column derivatization method, where the extracted peptides are first reacted with fluorogenic agents at the N-terminal Tyr moiety to their corresponding fluorescent derivatives, subsequently separated on an octadecyl-poly(vinyl alcohol) copolymer gel column, and signal responses are measured fluorimetrically. Both methods permitted the quantification of the synthetic kyotorphin added to the rat brain tissues. The concentration range of kyotorphin-like biogenic peptide was 60–100 pmol/g in the cortex, striatum and hypothalamus tissues.     

High-performance liquid chromatographic separation of kyotorphin, a basic Tyr---Arg dipetide, in rat brain tissue and quantification using fluorimetric detection

Two HPLC procedures based on sample derivatization at the N-terminal Tyr moiety with agents yielding fluorescent derivatives were applied to the selective and sensitive detection as well as quantification of the basic kyotorphin, Tyr---Arg dipeptide, in rat brain tissue. The first one is a post-column fluorescence derivatization method, whereby the peptides extracted from the brain tissue are separated on an octadecylsilyl-silica gel column, followed by on-line fluorescence derivatization for detection. The other one is a pre-column derivatization method, where the extracted peptides are first reacted with fluorogenic agents at the N-terminal Tyr moiety to their corresponding fluorescent derivatives, subsequently separated on an octadecyl-poly(vinyl alcohol) copolymer gel column, and signal responses are measured fluorimetrically. Both methods permitted the quantification of the synthetic kyotorphin added to the rat brain tissues. The concentration range of kyotorphin-like biogenic peptide was 60–100 pmol/g in the cortex, striatum and hypothalamus tissues.     

Determination of diaminopimelic acid in rat feces by high-performance liquid chromatography using the Pico Tag method

The purpose of the study was to develop a method for the determination of diaminopimelic acid (DAPA) concentrations in rat feces by reversed-phase high-performance liquid chromatography (HPLC) using the Pico Tag method. Precolumn derivatization with phenylisothyocyanate (PITC) and UV (254 nm filter) detection were used. Samples were hydrolysed in 6 M HCl at 110 degrees C for 24 h. Hydrolysates were then diluted, dried and derivatized, and samples (10 microliter injected onto a 300x3.9 mm NovaPak C(18) (Waters) HPLC column. Under the conditions used, DAPA eluted as one single peak between those of tyrosine and valine. On-column DAPA concentrations in standards were 41.5-83 pmol, which were in the range of the amounts present in fecal samples of rats fed semisynthetic diets. Amounts of DAPA determined in fecal samples of rats fed broad bean- or chickpea-based diets were, respectively, 2.56 and 2.98 mg g(-1). The advantages of the method and the relevance of the results for nutritional studies in monogastric animals are discussed.     

Measurement of picomoles of phosphoamino acids by high-performance liquid chromatography.

A reverse-phase, high-performance liquid chromatographic system (HPLC) is described that makes possible optimal resolution and quantitation of picomole levels of phosphoamino acids, both with or without the presence of a large excess of nonphosphorylated amino acids. The assay involves precolumn derivatization of an amino acid mixture with phenyl isothiocyanate (PITC) at room temperature, followed by separation of phosphoamino acids from other amino acids by HPLC. The liquid chromatography was carried out on a C18 reverse-phase column at pH 7.4 and 30 degrees C using gradient elution with eluent A as 157 mM sodium acetate containing 2% acetonitrile and eluent B as 60% acetonitrile in water. A uv absorption at 254 nm is employed for detection of the PITC-derivatized amino acids eluting from the column. Amino acids are eluted with baseline resolution in the following order: phosphoserine, phosphothreonine, aspartic acid, glutamic acid, and phosphotyrosine followed by other amino acids. The sensitivity is in the picomole range, and the separation time, injection to injection, is 36 min. Phosphoserine, phosphothreonine, and phosphotyrosine are resolved within the first 8 min. This procedure enables determination of as low as 5 pmol of nonradioactive phosphoamino acids in a 100-fold excess of amino acids, as is usually present in most phosphoproteins in the natural state. Phosphoamino acids in polypeptides separated by sodium dodecyl sulfate-polyacrylamide electrophoresis and transferred to polyvinylidene difluoride (PVDF) membrane, or protein samples directly blotted on the membrane, can also be analyzed by this procedure after acid hydrolysis of the proteins bound to the PVDF membrane.     

Trace analysis of tobramycin in human plasma by derivatization and high-performance liquid chromatography with ultraviolet detection

A simple and sensitive high-performance liquid chromatographic (HPLC) method is established for the trace determination of tobramycin in human plasma by derivatization. The method is based on the chemical derivatization of aminoglycoside antibiotic, tobramycin in human plasma, with 1-naphthyl isothiocyanate (NITC) in pyridine at 70 degrees C. After derivatization reaction, a methylamine/acetonitrile solution was added to the reaction mixture to eliminate the excess derivatizing agent and shorten the analysis time. The resulting derivative was separated using a Purospher STAR RP-18e column and a water-acetonitrile (50:50, v/v) mobile phase (detection at 230 nm). Optimization conditions for the derivatization of tobramycin were investigated by HPLC. The linear range for the quantitation of tobramycin in spiked plasma was over 0.93-9.34 mg/l; the detection limit (signal-to-noise ratio=3; injection volume, 10 microl) was about 0.23 mg/l. The relative standard deviation was less than 2.1% for intra-day assay (n=6) and 5.2% for inter-day assay (n=6) and relative recoveries were found greater than 99%.     

Determination of glucosamine sulfate in human plasma by precolumn derivatization using high performance liquid chromatography with fluorescence detection: its application to a bioequivalence study

A simple, rapid, selective and specific high-performance liquid chromatography (HPLC) method with fluorescence detection was developed for determination of glucosamine sulfate in human plasma and application to a bioequivalence in healthy volunteers. Precipitation of plasma was accomplished with acetonitrile to separate interfering endogenous products from the compound of interest. After vortex mixing and centrifugation, the supernatant was transferred and derivatized with 9-fluorenylmethoxycarbonyl chloride-acetonitrile solution in borate buffer (pH=8.0) at 30 degrees C for 30 min. The chromatographic separation was performed on a Diamonsil C18 column (150.0 mmx4.6 mm, 5 microm) with a mobile phase gradient consisting of water and acetonitrile at a flow rate of 1 mL/min. The method was linear in the range of 0.1-10.0 microg/mL with a correlation coefficient (r) of 0.9996. The limit of detection was 15 ng/mL. Inter- and intra-day precisions were 相似文献   

昆虫体内多胺的高效液相色谱(HPLC)测定

建立丹磺酰氯柱前衍生HPLC快速测定昆虫体内多胺含量的方法。以C18(250mm×4.6mm,5μm)为固定相,甲醇和水为流动相,梯度洗脱,柱温40℃,流速1mL/min,荧光检测波长激发波长(Ex)280nm,发射波长(Em)515nm,测得腐胺(put)、亚精胺(spd)和精胺(spm)三者回收率分别为98.7%,99.2%和97.8%,回归方程线性良好(r值均大于0.99),分析时间为16min。该法简洁、快速、灵敏度高、重现性好,可有效分析昆虫及其他生物样品中微量多胺的含量。     

Highly sensitive HPLC method for the determination of galantamine in human plasma and urine through derivatization with dansyl chloride using fluorescence detector

A new method based on fluorescence derivatization with 5‐(dimethylamino) naphthalene‐1‐sulfonyl chloride (dansyl chloride) was developed for the quantitative determination of galantamine in human plasma and urine using high‐performance liquid chromatography. The reaction between galantamine and dansyl chloride was optimally realized in 30 min at room temperature and pH 10.5, with a reagent to galantamine molar ratio of 2.13. The derivative was extracted with dichloromethane, and the extract was dried under a nitrogen stream and dissolved in the mobile phase. Chromatographic analysis was performed with an Inertsil C₁₈ column and a mobile phase comprising 40% acetonitrile and 60% 10 mM o‐phosphoric acid, 1.2 ml/min. The injection volume was 20 μl. The derivatives were detected with a fluorescence detector (excitation 375 nm/emission 537 nm). The retention time for the dansyl derivative of galantamine was 16.8 min. Linearity was observed between 125 and 2000 ng/ml in water, urine and plasma. The limit of detection and limit of quantification for the developed method were 6.27–70.99 and 18.81–212.97 ng/ml, respectively. Per cent recovery was calculated as 95.15 for urine and 95.78 for plasma. Interday repeatability values for urine and plasma samples (n = 6) at three different concentrations were calculated as a per cent relative standard deviation of 0.24–0.59 and 0.35–0.56. The corresponding per cent relative standard deviation values for intraday repeatability were 0.13–0.51 and 0.04–0.15, respectively.     

A semi-automated 96-well plate method for the simultaneous determination of oral contraceptives concentrations in human plasma using ultra performance liquid chromatography coupled with tandem mass spectrometry

Two semi-automated, relatively high throughput methods using ultra performance liquid chromatography coupled with tandem mass spectrometry (UPLC-MS/MS) were developed for the simultaneous determination of ethinyl estradiol (EE) in combination with either 19-norethindrone (NE) or levonorgestrel (LN) in human plasma. Using 300 microL plasma, the methods were validated over the concentration ranges of 0.01-2 ng/mL and 0.1-20 ng/mL for EE and NE (or LN), respectively. The existing methods for the determination of the oral contraceptives in human plasma require large volumes of plasma (> or =500 microL), and sample extraction is labor-intensive. The LC run time is at least 6 min, enabling analysis of only about 100 samples a day. In the present work the throughput was greatly improved by employing a semi-automated sample preparation process involving liquid-liquid extraction and derivatization with dansyl chloride followed by UPLC separation on a small particle size column achieving a run time of 2.7 min. The validation and actual sample analysis results show that both methods are rugged, precise, accurate, and well suitable to support pharmacokinetic studies where approximately 300 samples can be extracted and analyzed in a day.     

Monolithic silica liquid chromatography columns for the determination of cyclooxygenase II inhibitors in human plasma

Methods employing monolithic HPLC columns for the determination of the cyclooxygenase II inhibitors rofecoxib (I) and 3-isopropoxy-4-(4-methanesulfonylphenyl)-5,5'-dimethyl-5H-furan-2-one (DFP, III) in human plasma are described. Each analyte, together with an internal standard was extracted from the plasma matrix using solid-phase extraction in the 96-well format. The analytes were chromatographed on a Chromolith Speed Rod monolithic HPLC column (4.6 x 50 mm). Analyte detection for rofecoxib was via fluorescence following post-column photochemical derivatization. Detection for III was based on the native fluorescence of the compound. The precision, accuracy, and linearity of the methods were found to be comparable to those obtained using methods employing conventional packed HPLC columns. Use of the monolithic column permitted mobile phase flow-rates of up to 6.5 ml/min to be employed in the assays. The use of elevated flow-rates enabled the per sample analysis time to be reduced by up to a factor of 5 compared with assays based on packed HPLC columns. The results of experiments aimed at evaluating the ruggedness and reproducibility of monolithic columns employed in bioanalytical methods are presented.     

Polyamine analysis using N-hydroxysuccinimidyl-6-aminoquinoyl carbamate for pre-column derivatization

N-Hyroxysuccinimidyl-6-aminoquinoyl carbamate (AccQ.Fluor) was used as a polyamine pre-column derivatization reagent prior to HPLC analysis using a 5-μm C₈ reversed-phase column. The fluorescence detector excitation wavelength was set at 250 nm and emission at 395 nm. Quantitation, reproducibility, linearity, recovery and stability were demonstrated. The lower limit of detection was 660 fmol. This method is 45 and 61 times more sensitive than those using the pre-column derivatizing agents dansyl chloride and orthophthalaldehyde, respectively. Applicability to biological samples was demonstrated by analyses of polyamines in extracts of mouse erythrocytes and Trypanosoma brucei brucei.     

Two‐dimensional chromatography method applied to the enantiomeric determination of lansoprazole in human plasma by direct sample injection

A two‐dimensional HPLC method based on the direct injection of biological samples has been developed and validated for the determination of lansoprazole enantiomers in human plasma. The lansoprazole enantiomers were extracted from the biological matrix using an octyl restricted access media bovine serum albumin column (C₈ RAM BSA) and the enantioseparation was performed on an amylose tris(3,5‐dimethoxyphenylcarbamate) chiral column using acetonitrile:water (35:65 v/v) and UV detection at 285 nm. Analysis time was 25 min with no time spent on sample preparation. The method was applied to the analysis of the plasma samples obtained from nine Brazilian volunteers who received a 30 mg oral dose of racemic lansoprazole and was able to quantify the enantiomers of lansoprazole in the clinical samples analyzed. Chirality 2010. © 2009 Wiley‐Liss, Inc.     

Derivatization and high-performance liquid chromatographic analysis of pentaazapentacosane pentahydrochloride

A rapid high-performance liquid chromatographic method for determination of the dansyl derivative of pentaazapentacosane (PAPC) pentahydrochloride has been developed. The chromatographic system uses a reversed-phase C₈ column, a mobile phase of acetic acid buffer and acetonitrile and UV detection. The dansylation conditions were optimized with a pH of 11.0 and a 20-fold dansyl chloride excess. The yield of dansyl PAPC increased 10-fold as the reaction pH was changed from 9.5 to 10.5. Under derivatization conditions of pH 8.5–11.0 and 1–30-fold excess dansyl chloride only perdansyl PAPC was found.     

Amino acid analysis utilizing phenylisothiocyanate derivatives

Advances in liquid chromatography have brought about the development of new techniques in amino acid analysis which take full advantage of precolumn derivatization procedures. Using phenylisothiocyanate as the reagent, detection limits under 1 pmol can be routinely achieved, allowing the analysis of submicrogram protein samples. Analysis times as short as 10 min for samples after hydrolysis and 1 h for physiologic samples are possible. Accurate, reproducible quantitation of amino acids can be obtained from complex matrices such as plasma, urine, feed, and food samples. This level of performance and flexibility gives the analyst the first realistic alternative to ion-exchange analysis without compromising desirable features of the traditional methodology.     

Separation of oxazepam,lorazepam, and temazepam enantiomers by HPLC on a derivatized cyclodextrin-bonded phase: application to the determination of oxazepam in plasma

The enantioselective high-performance liquid chromatography (HPLC) of three racemic 3-hydroxybenzodiazepines, oxazepam (Oxa), lorazepam (Lor), and temazepam (Tem), is a difficult operation because of the spontaneous chiral inversion in polar solvent. To solve this problem, we have developed an HPLC method based on a chiral Cyclobond I-2000 RSP column, maintained at 12 degrees C, and a reversed mobile phase (acetonitrile in 1% triethylamine acetate buffer, TEAA) at a flow rate of 0.4 ml/min. Peaks were detected by a photodiode-array detector at 230 nm for quantification and by an optical rotation detector for identification of (+) and (-) enantiomers. The results showed that peak resolutions of Oxa, Lor, and Tem enantiomers, analyzed under the same conditions, were 3.2, 2.0, and 1.8, respectively. For the determination of Oxa enantiomers in plasma of rabbits, extraction with diethyl ether at pH 1.5, a polar organic mobile phase, and a Cyclobond I-2000 SP column were used. Other analytical conditions were the same as previously described. Blood samples were immediately cooled at 4 degrees C and centrifuged at 0 degrees C for the collection of plasma. The results showed a difference in plasma S(+)- and R(-)-oxazepam concentrations in rabbits. No racemization of S(+)- or R(-)-Oxa enantiomers, added alone to blank plasma, was observed after extraction and enantioselective HPLC analysis.