Simple and sensitive fluorimetric liquid chromatography method for the determination of valproic acid in plasma

A simple and sensitive liquid chromatographic method is described for the analysis of valproic acid in human plasma. The method is based on the derivatization of valproic acid extracted from acidified plasma with 2-(2-naphthoxy)ethyl 2-(piperidino)ethanesulfonate. The resulting derivative is highly responsive to a fluorimetric detector (excitation at 230 nm and emission at 350 nm), giving a low detection limit of 0.6 microM (S/N = 3, 10 microl injected). The relative standard deviations of the method for intra- and inter-day analyses (n = 5) are below 3.3 and 4.1%, respectively. Toluene was used for the extraction of valproic acid from plasma and the toluene extract obtained was subjected to subsequent derivatization without solvent replacement. The simple method was applied to the analysis of valproic acid in plasma of dosed patients using only small amount of sample (10-50 microl plasma).     

Optimisation and validation of a sensitive high-performance liquid chromatography assay for routine measurement of pyridoxal 5-phosphate in human plasma and red cells using pre-column semicarbazide derivatisation

There are few studies in which direct measurement of vitamin B6 status in both plasma and red cells has been assessed. The aims of the present study were to evaluate the use of a simple, robust HPLC method of direct pyridoxal 5'-phosphate (PLP) measurement in plasma and red cells and to assess its use in establishing reference ranges in a healthy population. A reverse phase HPLC method with pre-column derivatisation using semicarbazide for the simultaneous measurement of PLP, its degradation product, 4-pyridoxic acid (PA) and pyridoxal (PL) in plasma and red cells was developed. Pre-column derivatisation, reverse phase chromatography and detection procedures were optimised. The recovery, precision, linearity and sensitivity of the assay for plasma and red cell PLP, PA and PL was established. The recovery of PLP was greater than 95% for both plasma and red cell samples. The Intra and Inter batch imprecision for PLP was less than 6% and 7%, respectively. The method for PLP was linear up to at least 1000 nmol/l and the detection limit was 2.1 nmol/l (limit of quantification; 5.8 nmol/l). Accuracy of PLP measurements in plasma were acceptable, showing a mean bias of 4.5% from the mean value of laboratories (N=34) participating in an external quality assurance scheme. Geometric mean (95% reference intervals) for plasma and red cell PLP in the healthy subjects (N=126) were 56 (21-138) nmol/l and 410 (250-680) pmol/g Hb, respectively. There was a strong positive correlation (r(2)=0.81) between plasma and red cell PLP levels in the reference population. The HPLC method described was found to be suitable for the routine measurement of PLP in both plasma and red cells.     

Rapid determination of acetone in human plasma by gas chromatography-mass spectrometry and solid-phase microextraction with on-fiber derivatization

Acetone is an important volatile disease marker. Due to its nature of activity and volatility, it is a difficult task to measure the concentration of acetone in biological samples with accuracy. In this paper, we developed a novel method for determination of trace amount acetone in human plasma by solid-phase microextraction technique with on-fiber derivatization. In this method, the poly(dimethylsiloxane)/divinylbenzene (PDMS/DVB) fiber was used and O-2,3,4,5,6-(pentafluorobenzyl) hydroxylamine hydrochloride (PFBHA) was first loaded on the fiber. Acetone in plasma sample was agitated into headspace and extracted by solid-phase microextraction (SPME) fiber and subsequently derivatized with PFBHA on the fiber. Acetone oxime was analyzed by gas chromatography-mass spectrometry (GC-MS). Quantitative analysis of acetone in plasma was carried out by using external standard method. The SPME conditions (extraction temperature and time) and the method validation were studied. The present method was tested by determination of acetone in diabetes plasma and normal plasma. Acetone concentration in diabetes plasma was found to be higher than 1.8mM, while in normal plasma was lower than 0.017 mM. The results show that the present method is a potential tool for diagnosis of diabetes.     

Measurement of oxalate in human plasma ultrafiltrate by ion chromatography

An improved ion chromatographic method for the measurement of oxalate in human plasma ultrafiltrate is described. Ultrafiltration was carried out using an appropriate device and procedure. Centrifugation of 0.5 ml heparin plasma at 4°C for 50 min yielded water-clear ultrafiltrate in amounts allowing replicate measurements of oxalate. The specificity of the method was confirmed. The recovery of oxalate added to plasma was approximately 80%, whereas dilution of plasma, and of an oxalate-containing salt solution, resulted in falsely high values; the mechanism(s) underlying this phenomenon are insufficiently understood at present. The intra-assay of the method was assessed and from replicates of a pool plasma, the inter-assay precision from ten measurements of the same plasma on different days; the observed ranges of oxalate were 1.32-1.56 (mean 1.42) and 1.42-1.64 (mean 1.53) μmol/l, respectively. In plasma ultrafiltrate of a limited number of healthy volunteers the range of oxalate was 1.81-2.50 μmol/l, thus permitting renal oxalate handling to be studied.     

Utility of Cremophor RH 40 as a micellar improvement for spectrofluorimetric estimation of sorafenib in pure form,commercial preparation,and human plasma

An easy, quick, simple and accurate spectrofluorimetric method was recognized and validated for evaluation of sorafenib (SOR) in pure form and biologically in plasma. Cremophor RH 40 (Cr RH 40) used for enhancing the fluorescence activity of SOR in phosphate buffer (pH 7). Cr RH 40 improved the native fluorescence of SOR remarkably in water. The fluorescence spectrum of SOR was observed at 405 nm after excitation at 265 nm. The linearity appeared to be in the range of 5 to 600 ng ml^?1 for pure and from 9 to 500 ng ml^?1 for plasma using the protein precipitation (ppt) method while from 10 to 500 ng ml^?1 for plasma using liquid–liquid extraction method. The precisions and the accuracy of the estimated method gave satisfactory results. The recommended method was effectively applied for determination of SOR in human plasma with high recovery values. The results of some compounds that are possibly found in plasma were studied. The proposed method was also focused on real volunteers and a drug dissolution test.     

Surface plasmon resonance (SPR) analysis of coagulation in whole blood with application in prothrombin time assay

It is previously shown that surface plasmon resonance (SPR) can be used to study blood plasma coagulation. This work explores the use of this technique for the analysis of tissue factor induced coagulation, i.e. prothrombin time (PT) analysis, of whole blood and plasma. The reference method was nephelometry. The prothrombin time analysis by SPR was performed by mixing two volumes of blood/plasma, one volume of thromboplastin, and one volume of CaCl2 solution directly on a sensor surface. The measurements show good agreement between nephelometry and SPR plasma analysis and also between SPR plasma and whole blood analysis. The effect of anticoagulant treatment on the clotting times was significant both quantitatively and qualitatively. The impact on the SPR signal of different physiological events in the coagulation process is discussed, and tentative interpretations of the sensorgram features are given. The major advantage of the SPR method compared to nephelometry is the possibility to perform analysis on whole blood instead of plasma. In conclusion, SPR is a promising method for whole blood coagulation analysis.     

Determination of amitriptyline and nortriptyline in human plasma by quantitative thin-layer chromatography

A thin-layer chromatographic method for simultaneous determination of amitriptyline (AT) and nortriptyline (NT) in human plasma is described. Both substances are extracted from biological material by means of a single extraction. The extract is evaporated until dry and the residue quantitatively applied to a silica gel thin-layer plate. AT and NT are separated from interfering plasma components by chromatography. The spots are visualized by nitration, reduction and coupling with N-(1-naphtyl)ethylenediamine on the plate. The intensity of the azo-dyes formed can be measured densitometrically. Using 1 ml of plasma, the sensitivity limit was 0.5 ng/ml for both substances. About 10–15 plasma samples can be analysed per day. The method is applicable to pharmacokinetic studies after a single oral dose of 25 mg AT as hydrochloride in man.     

Rapid non-enzymatic HPLC determination of total MHPG in human plasma

We have previously reported a method for the determination of total 3-methoxy-4-hydroxy phenylethylene glycol (MHPG) in brain, based on a simple acid-catalyzed hydrolysis. Now we extend this procedure to the determination of plasma total MHPG. The method involves the deproteinization of plasma with perchloric acid, followed by 3 minutes of an acid-catalyzed step. The hydrolysates are injected into the HPLC system, using a formic acid/methanol eluent with fluorimetric detection. Sample detection limit is below 1 ng MHPG/mL of plasma. This procedure has been used for the determination of plasma total MHPG from 109 healthy individuals of both sexes. Mean value was: 5.4 + 2.3 ng total MHPG/mL of plasma (means +/- S.D., N = 109). No sex differences were observed, and a slight correlation with age (r = 0.24, p less than 0.02) has been found. Plasma-free MHPG was also determined in a subgroup of 15 randomly chosen individuals (3.0 +/- 1.2 ng free MHPG/mL plasma, means +/- S.D.). A significant correlation was obtained with plasma total MHPG (r = 0.77, p less than 0.001, N = 15). The main advantage of the present method lays in its simplicity, since no enzymatic hydrolysis or extraction procedures are needed, being its reliability fully proven through 109 plasma total MHPG determinations.     

Pharmacokinetics of kakkalide and its main metabolites in rat plasma determined by HPLC-DAD and LC-MSn

This study was undertaken to assess the plasma pharmacokinetic profile of kakkalide (KA), the major isoflavone found in extracts from the dried flower of Pueraria lobata. The main metabolites were identified using HPLC-DAD or LC/MS/MS method, and a HPLC-UV method for simultaneous quantification of the metabolites as well as the parent compound in plasma was developed. Rat plasma contained three glucuronide metabolites, irisolidone-7-O-glucuronide (Ir-7G), tectorigenin-7-O-glucuronide (Te-7G) and 6-OH biochanin A-glucuronide (6-OH BiA-G), as well as KA and trace amount of irisolidone (Ir) after oral administration of 200 mg/kg KA. The pharmacokinetics of KA and three glucuronide conjugates in rat plasma was determined for the first time using a simple, selective and accurate HPLC method. The AUC(0-t) values of the glucuronide metabolites are significantly greater than that of KA. They were detectable in rat plasma at different time points, indicating that glucuronidation during KA metabolism in vivo may occur in different sites, first in intestine and then in liver. Moreover, enterohepatic recirculation may result in the slow elimination of these glucuronide metabolites.     

A novel spectrofluorimetric method for determination of imatinib in pure,pharmaceutical preparation,human plasma,and human urine

The following paper represents a simple, highly sensitive, responsive validated and developed spectrofluorimetric method for estimation of imatinib (IMB) in its pure, commercial preparation, human urine and human blood plasma. The calibration curve was in the range 4–900 ng ml^?1 for pure form and urine and 8–900 ng ml^?1 for plasma in a medium contains carboxymethyl cellulose (CMC) and acetate buffer (pH 5) with excitation wavelength (λ_ex) 230 nm and emission wavelength (λ_em) 307 nm. The limit of detection (LOD) was 0.37 ng ml^?1 for the pure form, 0.64 ng ml^?1 for human urine, and 0.70 ng ml^?1 for human plasma, while the limit of quantitation (LOQ) was 1.2 for pure form, 1.91 for urine and 2.1 for plasma. The suggested method was successfully applied for evaluation of IMB in tablets within 99% mean percentage recovery. The excipients that are usually used as additives in pharmaceutical dosage form did not interfere with the suggested method. The method was efficiently used for estimation of IMB in human urine and human plasma. The effect of some cations that might be present in urine and plasma was also studied. The method was also focused on human volunteers and in vitro drug release.     

Investigation of the pharmacokinetics and determination of tramadol in rabbit plasma by a high-performance liquid chromatography-diode array detector method using liquid-liquid extraction

An HPLC system using a new, simple and rapid liquid-liquid extraction and high-performance liquid chromatography-diode array detector method (HPLC-DAD) detection was validated to determine tramadol concentration in rabbit plasma. The method described was applied to a pharmacokinetic study of intravenous tramadol injections in rabbits. The extraction with ethylacetate yielded good response. The recovery of tramadol from plasma averaged 90.40%. Serial plasma samples were obtained prior to, during and after completion of the infusion for determination of tramadol concentrations. Tramadol concentrations were measured using reverse-phase high-performance liquid chromatography and pharmacokinetic application with intravenous tramadol in rabbits revealed that tramadol followed one-compartment open model. Maximum plasma concentration (C(max)) and area under the plasma concentration-time curve (AUC) for tramadol were 14.3 microg mL(-1) and 42.2 microg h mL(-1), respectively. The method developed was successfully applied to a simple, rapid, specific, sensitive and accurate HPLC method for investigation of the pharmacokinetics of tramadol in rabbit plasma.     

Isolation of esterified fatty acids bound to serum albumin purified from human plasma and characterised by MALDI mass spectrometry.

Human serum albumin (HSA) is the most abundant protein in plasma. It is known to transport drugs as well as endogenous ligands, like free fatty acids (FFA). A mass spectrometry based method was applied to analyze the albumin bound lipid ligands. HSA was isolated from a human plasma pool by cold ethanol fractionation and ion exchange chromatography. HSA was defatted using a solvent extraction method to release the copurified lipids bound to the protein. The extracts were then analyzed by matrix-assisted laser desorption ionisation (MALDI) mass spectrometry (MS). Using this method, phospholipids and acylglycerols were detected. The phospholipids were identified to be lyso-phosphatidylcholine (lyso-PC) with distribution of different fatty acids (palmitic, stearic, oleic, and linoleic acids). An abundant species in the HSA lipid extract was found to be a diacylglycerol, composed of two linoleic and/or oleic acid chains. The identified motifs reflect structures that are known to be present in plasma. The binding of lysophospholipids has already been described but it is the first ever-reported evidence of native diacylglycerol ligands bound to HSA. Besides the native ligands from plasma a triacylglycerol was detected that has been added during the albumin preparation steps.     

Optimization of Conditions for Blood Plasma Peptidome Analysis

The conditions for peptidome analysis of blood plasma were optimized and the efficacy of the proposed approach was compared with the methods described in the literature. The method implies solution of two main problems: inactivation of blood plasma proteases and dissociation of peptides from major blood plasma proteins, which they are quantitatively associated with. To solve these problems, we proposed a new method of sample preparation. The essence of the method is simultaneous denaturation of plasma proteins plus reduction and alkylation of thiol groups of Cys, which is achieved by heating a blood plasma sample (95°C) in the presence of sodium deoxycholate, tris(2-carboxyethyl)phosphine, and 2-chloroacetamide. After separation of peptides from proteins by ultrafiltration on microcentrifuge filters and removal of sodium deoxycholate, the peptides are identified by LC-MS/MS using a Q Exactive HF (Thermo Scientific) mass spectrometer. As a result of one LC-MS/MS run of the peptide mixture obtained from ~15 μL of blood plasma, 2257 peptide fragments of 867 proteins were identified, which is 1.5 times higher than the values achieved by using the generally accepted method of differential solubilization. Our immediate plans include the use of our approach for cataloguing human blood plasma peptides, as well as establishing the magnitude of individual variability and the features of the peptidome that are related to gender and age.     

Oleate replacement ultrafiltration: A new method for quantitative recovery of organic acids from human plasma

A method was developed for the isolation of organic acids in high yields from body fluids containing a high protein content. The method, which includes ultrafiltration followed by anion-exchange chromatography, was used to recover organic acids from human plasma. It is based on the addition of oleic acid to the plasma sample before the ultrafiltration step. The oleic acid, which effectively competes for binding sites on the protein, results in the release of other organic acids, which are then recovered in the ultrafiltrate. Comparison of the recovery of various acids (with and without added oleic acid) shows that the yield of certain acids (like citric acid) can be increased by more than an order of magnitude when oleic acid is added to the plasma sample. The satisfactory reproducibility of this method, even for small amounts of plasma (less than 1 ml), makes it suitable for quantitative metabolic profiling analysis.     

Simple liquid chromatography method for the rapid simultaneous determination of prednisolone and cortisol in plasma and urine using hydrophilic lipophilic balanced solid phase extraction cartridges

This article describes the development and validation of a simple solid phase extraction (SPE) and HPLC method for the extraction and the specific determination of prednisolone and hydrocortisone (cortisol) in both plasma and urine using one washing step with Oasis hydrophilic lipophilic balanced (HLB) cartridges (1 ml/30 mg, 30 microm). Recoveries of prednisolone and cortisol from plasma and urine exceeded 82%. The limit of quantification (LOQ) in plasma and urine was 9.9 and 6.7 ng/ml for cortisol, respectively, and 11.6 and 8.0 ng/ml for prednisolone, respectively. The intraday and interday precision (measured by CV%) for both prednisolone and cortisol in both plasma and urine was always less than 7%. The accuracy (measured by relative error %) for both prednisolone and cortisol in both plasma and urine was always less than 8%. The advantages of the developed method are the use of a one step washing SPE utilising HLB cartridges which do not suffer the drying out problems of conventional SPE cartridges and the time saving when compared with solvent extraction (SE), in addition to the simultaneous determination of prednisolone and cortisol in both plasma and urine.     

Quantification of steroid glycosides from Hoodia gordonii in porcine plasma using high performance liquid chromatography-mass spectrometry

An HPLC-ESI-MS/MS method using collision induced dissociation - multiple reaction monitoring was developed for the quantification of eight Hoodia gordonii steroid glycosides and their metabolites in porcine plasma samples. The method was validated for the three most important glycosides and was successfully applied also for the related glycosides and metabolites. The limits of quantification were 0.04 ng ml(-1) for the two main steroid glycosides and 0.1 ng ml(-1) for the detiglated metabolites. These limits are sufficiently low to allow monitoring the concentration-time profiles in plasma after feeding H. gordonii. The standard deviations of the intra-day measurements were better than 20% for concentrations below 5 ng ml(-1) and better than 10% for concentrations above 5 ng ml(-1). The method was successfully applied to plasma samples collected from a porcine pharmacokinetics study.     

LC-MS/MS-analysis of sphingosine-1-phosphate and related compounds in plasma samples

Sphingosine-1-phosphate (S1P) and related compounds are important signaling molecules and are normal constituents of human plasma. So far, only a few methods exist for their determination specifically in plasma demanding radioactive agents, more or less time consuming extraction or derivatization procedures. Here, we describe a very simple, reliable, sensitive standard-addition method for the simultaneous determination of S1P, sphingosine (SPH), sphinganine (SAPH) and sphinganine-1-phosphate (SA1P) in human and rat plasma samples. After methanol precipitation of plasma samples the supernatants were directly assessed by liquid chromatography-electrospray ionisation-tandem mass spectrometry (LC-ESI-MS/MS). HPLC analysis was done under gradient conditions using a C18 reversed phase column. The lower limit of quantification (LLOQ) was <10.2, <4.6, <1.9 and 0.57ng/ml for S1P, SPH, SAPH and SA1P, respectively. Variations in accuracy and intraday and interday precision were <15% over the range of calibration. All analytes were normal constituents both in human and rat plasma although the SA1P concentrations in a few rat plasma samples were below the lower limit of quantification. This validated method is suitable to generate new pharmacological findings by monitoring plasma concentrations of S1P and related compounds especially when low amounts of plasma samples are present (e.g. plasma samples from rodents).     

Determination of higenamine in human plasma and urine using liquid chromatography coupled to positive electrospray ionization tandem mass spectrometry

Higenamine is an active ingredient of Aconite root in Chinese herbal medicine and might be used as a new agent for a pharmaceutical stress test and was approved to undergo clinical pharmacokinetic study. Therefore, there exists a need to establish a sensitive and rapid method for the determination of higenamine in human plasma and urine. This paper described a sensitive and rapid method based on liquid chromatography coupled to tandem mass spectrometry (LC-MS/MS) for the determination of higenamine in human plasma and urine. Solid-phase extraction (SPE) was used to isolate the compounds from biological matrices followed by injection of the extracts onto an Atlantis dC18 column with isocratic elution. The mobile phase was 0.05% formic acid in water-methanol (40:60, v/v). The mass spectrometry was carried out using positive electrospray ionization (ESI) and data acquisition was carried out in the multiple reaction monitoring (MRM) mode. The method was fully validated over the concentration range of 0.100-50.0 ng/mL and 1.00-500 ng/mL in plasma and urine, respectively. The lower limits of quantification (LLOQs) were 0.100 and 1.00 ng/mL in plasma and urine, respectively. Inter- and intra-batch precision was less than 15% and the accuracy was within 85-115% for both plasma and urine. Extraction recovery was 82.1% and 56.6% in plasma and urine, respectively. Selectivity, matrix effects and stability were also validated in human plasma and urine. The method was applied to the pharmacokinetic study of higenamine hydrochloride in Chinese healthy subjects.     

Establishment of a new perchloric acid treatment method to allow determination of the total endotoxin content in human plasma by the limulus test and clinical application.

We established a new method of plasma treatment for the removal of interfering factors in the plasma to allow detection of endotoxin by limulus test. The limulus test used was an endotoxin-specific chromogenic test, the Endospecy test. Perchloric acid (PCA) treatment and centrifugation (PCA method) is usually used to remove interfering factors from plasma, with the precipitate being discarded and the supernatant used to detect endotoxin. As the solubilized precipitates of endotoxin-spiked plasma and some patient plasma were found to contain the Endospecy activity, we have devised a new method assaying endotoxin in both the supernatant and precipitate. This study confirmed that the solubilized precipitate of endotoxin-spiked plasma had Endospecy activity and found that the precipitate had other endotoxin activities, such as lethality in galactosamine-sensitized mice and pyrogenicity in rabbits. We also confirmed that interfering factors were completely removed from plasma samples by this new method. The endotoxin level after the new PCA method was found to be about 8 times higher than that determined after PCA treatment and the new PCA method surpasses the conventional PCA method with regard to the positive rate of endotoxin contents in clinical samples. These results indicate that the new PCA method is superior to the PCA method as a plasma pretreatment method for limulus test.     

Gas chromatographic-tandem mass spectrometric quantification of free 3-nitrotyrosine in human plasma at the basal state

A fully validated gas chromatographic-tandem mass spectrometric (GC-tandem MS) method for the accurate and precise quantification of free 3-nitrotyrosine in human plasma at the basal state is described. In the plasma of 11 healthy humans a mean concentration of 2.8 nM (range 1.4-4.2 nM) for free 3-nitrotyrosine was determined by this method. This is the lowest concentration reported for free 3-nitrotyrosine in plasma of healthy humans. The presence of endogenous free 3-nitrotyrosine in human plasma was unequivocally shown by generating a daughter mass spectrum. Various precautions had to be taken to avoid artifactual formation of 3-nitrotyrosine from nitrate during sample treatment. Endogenous plasma 3-nitrotyrosine and 3-nitro-l-[(2)H(3)]tyrosine added for use as internal standard were isolated by high-performance liquid chromatographic (HPLC) analysis of 200-microl aliquots of plasma ultrafiltrate samples (20 kDa cut-off), extracted from a single HPLC fraction by solid-phase extraction, derivatized to their n-propyl ester-pentafluoropropionyl amide-trimethylsilyl ether derivatives, and quantified by GC-tandem MS. Overall recovery was determined as 50 +/- 5% using 3-nitro-l-[(14)C(9)]tyrosine. The limit of detection of the method was 4 amol of 3-nitrotyrosine, while the limit of quantitation was 125 pM using 3-nitro-l-[(14)C(9)]tyrosine. 3-Nitrotyrosine added to human plasma at 1 nM was quantitated with an accuracy of > or = 80% and a precision of > or = 94%. The method should be useful to investigate the utility of plasma free 3-nitrotyrosine as an indicator of nitric oxide ((.)NO)-associated oxidative stress in vivo in humans.