Sotirios Athanaselis

A fully validated method for the simultaneous determination of 11 antidepressant drugs in whole blood by gas chromatography–mass spectrometry

Antidepressant drugs are widely used for the treatment of depression and other psychiatric disorders and as a result they are involved in numerous clinical and forensic cases. The aim of this study was the development, optimization and validation of a simple, specific and sensitive GC/MS method for the simultaneous determination of 11 antidepressant drugs and 4 of their metabolites (amitriptyline, citalopram, clomipramine, fluoxetine, fluvoxamine, maprotiline, desmethyl-maprotiline, mirtazapine, desmethyl-mirtazapine, nortriptyline, paroxetine, sertraline, desmethyl-sertraline, venlafaxine and desmethyl-venlafaxine) in whole blood. The combination of solid-phase extraction with derivatization using heptafluorobutyric anhydride efficiently reduced matrix effect and improved sensitivity of the method. In this assay, protriptyline was used as internal standard. Absolute recovery values for all analytes were ranged from 79.2 to 102.6%. LODs and LOQs were found to be between 0.30-1.50 μg/L and 1.00-5.00 μg/L, respectively. The calibration curves were linear (R(2)≥0.990) within the range of 5.00-1000 μg/L for all analytes. Accuracy expressed as the % E(r) was found to be between -12.3 and 12.2%. Precision expressed as the % RSD was found to be less than 11.7% for all antidepressants. The developed method proved to be suitable for routine work and it was used to successfully analyze more than 2500 clinical and forensic blood samples.

Development and validation of an EI–GC–MS method for the determination of benzodiazepine drugs and their metabolites in blood: Applications in clinical and forensic toxicology

Benzodiazepines are used widely in daily clinical practice, due to their multiple pharmacological actions. The frequent problems associated with the wide use of benzodiazepines, as well as the multiple incidents of poisonings, led to the necessity for the development of a precise, sensitive and rapid method for the simultaneous determination of the 23 most commonly used benzodiazepines (diazepam, nordiazepam, oxazepam, bromazepam, alprazolam, lorazepam, medazepam, flurazepam, fludiazepam, tetrazepam, chlordiazepoxide, clobazam, midazolam, flunitrazepam, 7-amino-flunitrazepam, triazolam, prazepam, nimetazepam, nitrazepam, temazepam, lormetazepam, clonazepam, camazepam) in blood. A gas chromatographic method combined with mass spectrometric detection was developed, optimized and validated for the determination of the above substances. This method includes liquid-liquid extraction with chloroform at pH 9 and two stages of derivatization using tetramethylammonium hydroxide and propyliodide (propylation), as well as a mixture of triethylamine:propionic anhydride (propionylation). The recoveries were higher than 74% for all the benzodiazepines. The calibration curves were linear within the dynamic range of each benzodiazepine with a correlation coefficient higher than 0.9981. The limits of detection and quantification for each analyte were statistically calculated from the relative calibration curves. Accuracy and precision were also calculated and were found to be less than 8.5% and 11.1%, respectively. The developed method was successfully applied for the investigation of both forensic and clinical toxicological cases of accidental and suicidal poisoning.

Development and validation of a GC/MS method for the determination of tadalafil in whole blood

Tadalafil is a phosphodiesterase type 5 (PDE-5) inhibitor and it is used in the treatment of pulmonary arterial hypertension and erectile dysfunction. A sensitive and specific method is described for the determination of tadalafil in whole blood. Tadalafil and its internal standard (protriptyline) were isolated from the matrix by solid phase extraction, and were analyzed by gas chromatography/mass spectrometry (GC/MS) after derivatization by N,O-bis(trimethylsilyl)-trifluoracetamide (BSTFA) with 1% trimethylchlorsilane (TMCS). Limits of detection and quantification for tadalafil were 0.70 and 2.00 μg/L, respectively. The calibration curve was linear between 2.00 and 500.0 μg/L, with a correlation coefficient higher than 0.991. The values obtained for intra- and inter-day accuracy was found to be between -10.5 to 8.5% and -4.2 to 4.5%, respectively, while intra- and inter-day precision were less than 8.4 and 11.2%, correspondingly. Absolute recovery was determined at three concentration levels and ranged from 92.1 to 98.9%. The proposed method is the first fully validated GC/MS method for the determination of tadalafil in whole blood and it can be routinely applied by toxicological laboratories, for pharmacokinetic studies, for therapeutic drug level monitoring or for the investigation of related forensic cases.

Mass intoxication with Datura innoxia—case series and confirmation by analytical toxicology

Background. Anticholinergic plants contain a variety of alkaloids that are toxic if ingested. Datura innoxia belongs to the family of Solanaceae and contains two main toxic alkaloids, atropine and scopolamine. Case series. In this study we report the case series of seven individuals who were admitted to two different hospitals of Athens with an anticholinergic syndrome. All symptoms manifested after consumption of cooked vegetables (blites). Investigation. The investigation of the cases revealed that among the vegetables there was also Datura innoxia, which has a similar appearance to blites. Urine and plasma samples of the seven patients, as well as a sample of cooked vegetables, were analyzed with gas chromatography–mass spectrometry. Atropine and scopolamine were confirmed in all urine and vegetable samples, but not in plasma probably because of the delay in sample collection. The urine samples of all patients contained atropine in concentrations between 67.1 and 691.7 ng/mL, while urine concentrations of scopolamine ranged from 32.4 to 186.4 ng/mL. The concentrations of atropine and scopolamine in the cooked vegetables were found to be 0.8 and 1.2 μg/g, respectively. Conclusion. All patients recovered completely, although some required mechanical ventilation. The investigation and the presentation of this case series illustrate not only mass intoxication with D. innoxia, but also the utility of analytical toxicology. It also illustrates the dangers of collection of vegetables in the wild.

Stability of Morphine, Codeine, and 6‐Acetylmorphine in Blood at Different Sampling and Storage Conditions

The stability of drugs in biological specimens is a major concern during the evaluation of the toxicological results. The stability of morphine, codeine, and 6‐acetyl‐morphine in blood was studied after different sampling conditions: (i) in glass, polypropylene or polystyrene tubes, (ii) with addition of dipotassium ethylene diamine tetraacetic acid (K2EDTA) or sodium oxalate (Na2C2O4), and (iii) with or without the addition of sodium fluoride (NaF). Spiked blood samples were stored at two different temperatures (4 and −20°C), analyzed after different storage times and after three freeze–thaw cycles. Opiate concentrations were decreased in all conditions, but the most unstable was 6‐acetyl‐morphine. The addition of NaF as preservative improved the stability of opiates at all conditions studied, whereas the type of anticoagulant did not affect the stability of opiates. It was concluded that blood samples should be stored at −20°C in glass tubes containing oxalate and NaF for maximum stability.

Androgen glucuronides analysis by liquid chromatography tandem-mass spectrometry: could it raise new perspectives in the diagnostic field of hormone-dependent malignancies?

Breast and prostate constitute organs of intense steroidogenic activity. Clinical and epidemiologic data provide strong evidence on the influence of androgens and estrogens on the risk of typical hormone-dependent malignancies, like breast and prostate cancer. Recent studies have focused on the role of androgen metabolites in regulating androgen concentrations in hormone-sensitive tissues. Steroid glucuronidation has been suggested to have a prominent role in controlling the levels and the biological activity of unconjugated androgens. It is well-established that serum levels of androgen glucuronides reflect androgen metabolism in androgen-sensitive tissues. Quantitative analysis of androgen metabolites in blood specimens is the only minimally invasive approach permitting an accurate estimate of the total pool of androgens. During the past years, androgen glucuronides analysis most often involved radioimmunoassays (RIA) or direct immunoassays, both methods bearing serious limitations. However, recent impressive technical advances in mass spectrometry, and particularly in high performance liquid chromatography coupled with mass spectrometry (LC-MS/MS), have overcome these drawbacks enabling the simultaneous, quantitative analysis of multiple steroids even at low concentrations. Blood androgen profiling by LC-MS/MS, a robust and reliable technique of high selectivity, sensitivity, specificity, precision and accuracy emerges as a promising new approach in the study of human pathology. The present review offers a contemporary insight in androgen glucuronides profiling through the application of LC-MS/MS, highlighting new perspectives in the study of steroids and their implication in hormone-dependent malignancies.

Development and validation of an EI-GC/MS method for the determination of sertraline and its major metabolite desmethyl-sertraline in blood.

A sensitive and specific GC/MS method for the determination of sertraline and its main metabolite desmethyl-sertraline in whole blood has been developed, optimized and validated. Sample preparation included solid-phase extraction of both analytes and their derivatization with heptafluorobutyric anhydride (HFBA). Protriptyline was used as internal standard for the determination of both analytes. Limits of detection and quantification for both sertraline and desmethyl-sertraline were 0.30 and 1.00 μg/L, respectively. The calibration curves were linear within the dynamic range of each analyte (1.00-500.0 μg/L) with a correlation coefficient (R(2)) exceeding 0.991. Extraction efficiency ranged from 90.1(± 5.8)% to 95.4(± 3.0)% for sertraline, and from 84.9(± 8.2)% to 107.7(± 4.4)% for desmethyl-sertraline. The precision for sertraline and desmethyl-sertraline was between 3.6-5.5% and 4.7-7.2%, respectively, while the accuracy was in the range of -6.67% to 2.20% and -6.33% to 2.88% for sertraline and desmethyl-sertraline, respectively. The method was applied to real blood samples obtained from patients that follow sertraline treatment and also in cases of forensic interest. The developed method can be used in routine every day analysis by clinical and forensic laboratories, for pharmacokinetic studies, for therapeutic sertraline monitoring or for the investigation of forensic cases where sertraline is involved.

Development and validation of a highly sensitive GC/MS method for the determination of buprenorphine and nor-buprenorphine in blood

A sensitive and specific GC/MS method for the determination of buprenorphine (BPN) and its main metabolite nor-buprenorphine (nor-BPN) in blood has been developed, optimized and validated. Sample preparation includes solid-phase extraction of both analytes and their derivatization with acetic anhydride in pyridine. BPN-d4 was used as internal standard for the determination of both analytes. Limits of detection and quantification for BPN and nor-BPN were 0.02 and 0.05 μg/L, respectively. The calibration curves were linear within the dynamic range of each analyte (0.05-30.0 μg/L) with a correlation coefficient higher than 0.996. Absolute recovery ranged from 90.2 to 97.6% for both analytes and their internal standard. Intra- and inter-day accuracy was found to be between -5.40 to 1.73% and -2.45 to 2.80%, respectively, while intra- and inter-day precision were less than 5.8 and 4.7%, for both analytes. The method was applied to real blood samples obtained from patients that follow BPN maintenance program. The developed method can be used in routine every day analysis by clinical and forensic laboratories, for pharmacokinetic studies, for therapeutic drug level monitoring in order to adjust BPN dosage of BPN maintained patients or for the investigation of forensic cases.

Direct urine analysis for the identification and quantification of selected benzodiazepines for toxicology screening.

A simple and rapid LC/MS method with direct injection analysis was developed and validated for the identification and quantification of ten benzodiazepines (flunitrazepam, nordiazepam, diazepam, 7-aminoflunitrazepam, flurazepam, bromazepam, midazolam, alprazolam, temazepam and oxazepam) in human urine using diazepam-d5 as internal standard (IS). The main advantage of the proposed methodology is the minimal sample preparation procedure, as diluted urine samples were directly injected into LC/MS system. Electrospray ionization in positive mode using selected ion monitoring was chosen for the identification and quantification of the analytes. The linear range was 50-1000 ng/mL for each analyte, with square correlation coefficient (r(2))≥0.981. Interday and intraday errors were found to be ≤5.72%. The LC/MS method was applied at ten real samples found initially to be positive and negative, using immunoassay technique. Finally the results were confirmed with GC/MS. The method demonstrates simplicity and fast sample preparation, accuracy and specificity of the analytes which make it suitable for replacement of immunoassay screening in urine avoiding thus false negative/false positive results. Using this method, laboratories may overcome the problem of high cost instrumentation such as LC-MS/MS by providing similar sensitivity and specificity with other methods.

Development and validation of a gas chromatography‐mass spectrometric method for the determination of sildenafil and desmethyl‐sildenafil in whole blood

Sildenafil (SDL) is a phosphodiesterase type 5 inhibitor and it is approved for the treatment of erectile dysfunction and pulmonary hypertension. SDL is extensively metabolized to its pharmacologically active metabolite, desmethyl-sildenafil (DSDL). A sensitive and specific GC/MS method for the determination of SDL and DSDL in whole blood was developed and validated to support therapeutic drug monitoring of SDL patients. The combination of solid-phase extraction with derivatization using BSTFA with 1% TMCS in acetonitrile efficiently reduced matrix effect and improved sensitivity of the method. In this assay, protriptyline was used as internal standard for both analytes. The LODs were 1.50 and 5.00 ng/mL for SDL and DSDL, respectively, whereas the respective LOQs were 5.00 and 15.0 ng/mL. The calibration curves were linear up to 500.0 ng/mL (SDL: R(2) 0.992, DSDL: R(2) 0.990). Absolute recovery values for both analytes ranged from 83.1 to 93.2%. Within- and between-batch accuracy was less than 11.8 and 10.2%, respectively, whereas within- and between-batch precision was less than 8.1 and 10.8%, correspondingly. The developed method is suitable for the determination of SDL and DSDL concentrations in blood samples obtained from patients under Viagra(®) treatment, for pharmacokinetic studies or for the investigation of related forensic cases.