A validated method for the determination of quetiapine fumarate tablets in human plasma by UPLC-MS/MS and its application to a pharmacokinetic study in healthy Chinese subjects.

A rapid, highly specific and sensitive UPLC-MS/MS method was developed for the determination of Quetiapine Fumarate, a therapeutic drug for various psychiatric disorders, in human plasma. The samples were pretreated using a protein precipitation method, followed by chromatographic separation using a column (Kinetex C18, 2.6µm 50*2.1mm) equipped with an ESI source and MRM mode mass spectrometer. In the validation results of the method, the analyte quetiapine showed a peak at approximately 1.0 minute and exhibited good linearity within the concentration from 2.5 to 2000ng/mL. The intra- and inter-batch precision CV% were within the range of -1.3% to 7.7% and precision of intra- and inter-batch were below 15.0%. Furthermore, this method demonstrated low matrix effects and high recovery rates. The quetiapine plasma sample solution remained stable at room temperature for 25 hours and following 4 freeze-thaw cycles. The prepared samples remained stable in the autosampler (The temperature control of the autosampler was 5oC) for 185 hours and after four freeze-thaw cycles at -20oC and -70oC for 40 days. The present work effectively employed this approach to investigate the pharmacokinetics of orally administered quetiapine fumarate tablets in a cohort of healthy Chinese individuals, both in a fasting state and after a meal.

Validation of an HPLC-HR-MS Method for the Determination and Quantification of Six Drugs (Morphine, Codeine, Methadone, Alprazolam, Clonazepam and Quetiapine) in Nails.

Keratinized matrices, including nails, are among the most resistant matrices that can be analyzed in cases where remains are deeply decomposed and relatively non-invasive for living people. In order to exploit these new matrices in the search for exogenous substances, it is necessary to develop analytical technologies capable of achieving high levels of sensitivity. In this technical note, an easy method is presented for the simultaneous extraction and quantification of three narcotic substances (morphine, codeine and methadone), two benzodiazepines (BDZs) (clonazepam and alprazolam) and an antipsychotic (quetiapine) from nail matrix by analysis in ultra-high-performance liquid chromatography at high-resolution mass spectrometry. The method has been validated following the Standard Practices for Method Validation in Forensic Toxicology of the Scientific Working Group for Forensic Toxicology. Nail specimens from eight authentic postmortem (PM) cases and 13 living donor samples were extracted and analyzed. Of the eight PM samples, five resulted positive for at least one of the three substances searched. Ten of the 13 living donor specimens were positive for at least one of the targeted BDZs or quetiapine.

Quantification of quetiapine fumarate based on electrochemical analysis by reduced graphene oxide modified nano-silica functionalized with polydopamine and gold nanostars: A novel pharmaceutical analysis strategy.

Quetiapine fumarate (QF) is an antipsychotic drug that has been most widely prescribed as an antipsychotic. In this regard, sensitive recognition of QF in bodily fluids must be done accurately. In this work, an electrochemical sensor for QF detection was fabricated, using GNSs-PDA@SiO2 modified rGO stabilized on glassy carbon electrode. According to the electrical nature of gold nanoparticles (GNPs), polydopamine (PDA), and its composition with nano-silica, the proposed hybrid material is able to enhance the electro-oxidation signals of QF toward its sensitive detection in complex biological media. The morphology of synthesized polymeric nanocomposites and various surfaces of electrodes were investigated using Field Emission Scanning Electron Microscopy and Energy-Dispersive X-Ray Spectroscopy methods. Using the square wave voltammetry technique, the fabricated electrochemical sensor could detect QF in the linear range of 500 µM to 3 mM, which low limit of quantification was obtained as 500 µM, indicating the sensor's appropriate sensitivity. For the first time, the application of novel hybrid material (GNSs-PDA@SiO2 ) for pharmaceutical analysis in human plasma was studied using electrochemical sensor technology. Based on the obtained analytical results, engineered nano-surface led to entrapment and oxidation of QF in real samples. So, a novel and efficient method for the analysis of QF was designed and validated, which opens a new horizon for pharmaceutical analysis and therapeutic drug monitoring.

Post mortem tissue distribution of quetiapine in forensic autopsies.

The antipsychotic drug quetiapine is widely used, and increasingly prescribed off-label. Furthermore, quetiapine use has been linked to increased mortality rates, most likely due to a range of cardiovascular and metabolic adverse effects. This makes quetiapine a relevant substance in forensic toxicology casework. Quetiapine is believed to undergo significant post mortem redistribution. Herein, we present tissue distribution and concentration levels of quetiapine in post mortem whole blood, brain tissue, skeletal muscle, and liver tissue in a series of 14 quetiapine-implicated forensic autopsy cases along with the quetiapine concentrations determined in femoral whole blood in conjunction with the autopsies. Quantification was performed using liquid-liquid extraction and a validated UPLC-MSMS method. Six deaths were attributed to intoxication with quetiapine in combination with other substances; there were no quetiapine monointoxications. In eight cases, death was attributed to other causes than drug toxicity. In a majority of the cases, liver tissue contained the highest quetiapine concentrations, while whole blood levels were the lowest. Central (heart) blood concentrations were generally higher than peripheral (femoral) blood levels. Quetiapine concentrations in femoral blood correlated most strongly with concentrations in skeletal muscle. Otherwise, there was no consistent hierarchy of quetiapine tissue concentrations, and the tissue distribution showed no clear relationship with the length of the post mortem interval.

The Difficult Interpretation of a Hair Test Result from a 32-Month-Old Child: Administration of Propranolol and Quetiapine or Contamination?

A 23-month-old boy was brought to a medical center by his mother, as she noticed that the father has gripped him around the neck and this had left marks. As a result of this, a child protection medical examination was requested. However, there was a significant chronology of mental health issues in the mother. Among the mother's medications, quetiapine and propranolol were the more active. Given a consultant pediatrician was concerned that the boy was vulnerable and potentially has experienced neglect and physical harm, the local authority instructed a hair test to document possible poisoning. However, this occurred several months later, due to court delays (postponed hearings and decisions) when the child was 32-month old. The laboratory received a strand of hair of the child (12 cm in length, light brown in color) and a strand of hair of the mother (>20 cm in length, dark in color) with the request to test both specimens by segmentation (12 x 1 cm) for quetiapine, an anti-psychotic drug and propranolol, a ß-blocker agent. After decontamination and segmentation, the specimens were incubated in borate buffer pH 9.5 and extracted by a mixture of ether/dichloromethane/hexane/isoamyl alcohol to test for the drugs, including norquetiapine by a specific LC-MS-MS method. The first 3 cm segments of the child's hair were free of drug, roughly corresponding to the period he was no more in contact with the mother. Propranolol tested positive in the other segments at 15-72 pg/mg, with a linear increase from the proximal to the distal end. This was also observed for quetiapine, with concentrations in the range 10-18 pg/mg. Norquetiapine was never identified in the child's hair. The following concentrations were observed in the mother's hair: 6028-10,284, 910-4576 and 1116-6956 pg/mg for propranolol, quetiapine and norquetiapine, respectively. This confirmed that the donor was a long-term repetitive user of propranolol and quetiapine. The hair test results have indicated that the child was in contact with propranolol and quetiapine for a long period. It is not possible to put a temporal period for each segment, as the hair growth at the age of 32 months is not the same as for an adult (difference in the duration of the anagen period), nor to put any quantitative dosage or frequency of exposure(s) when interpreting the data. An increase of concentrations from root to tip was observed which is considered highly indicative of external contamination, with the older hair segments (those which are the more concentrated) being in contact for a longer time with contaminated items (hands of the mother, home items such as furniture, dishes, beddings, etc.). Overinterpreting drug findings in hair can have very serious legal implications in child protection cases, particularly when no other toxicological test and no clinical report exist to support voluntary administration of drugs. Whatever the findings, a proper interpretation of hair test results is critical and should be done ideally with other information available, such as medical history, witness statements and the available circumstances of the matter. A single hair test should not be used to determine long-term exposure to a drug.

Postmortem analysis of quetiapine and pregabalin in human bone.

In this study quetiapine and pregabalin were analyzed in human bones. A method previously developed for the determination of antidepressants in human bone was tested for the analysis of these two substances. Bones were pulverized and subjected to the extraction protocol, and after undergoing solid-phase extraction, samples were analyzed using gas chromatography-mass spectrometry. The assay was validated in the range 0.3-500 ng/mg, mean analytical recovery was 76.9% for quetiapine and 90.9% for pregabalin, matrix effect was 83% for quetiapine and 91% for pregabalin and process efficiency was 63.8% for quetiapine and 82.7% for pregabalin. The intra- and inter-day precision was below 3% in all cases and the intra- and inter-assay accuracy values were in almost all cases better than 12%. The validated method was then applied to bone samples from forensic cases. Drugs were detected in bone in 2 of the 3 blood positive cases. The approximate concentrations in bone were 40 ng/mg for pregabalin and 7 ng/mg for quetiapine. To our knowledge, this is the first time these substances were detected in bones. With this study the number of substances with a validated protocol to be used in human bones in case of necessity is expanded.

Electrochemical determination of atypical antipsychotic drug quetiapine using nano-molecularly imprinted polymer modified carbon paste electrode.

In this research, the advantages of molecularly imprinted polymer (MIP) materials have been used to develop a new electrochemical sensor for determination of quetiapine (QTP) drug. MIP nanoparticles were synthesized by precipitation polymerization method and used as QTP recognition elements in the composition of modified carbon paste electrode (CPE) for selective and sensitive assay of this drug. Cyclic voltammetry (CV) and square wave voltammetry (SWV) techniques were used for electrochemical analysis. Some parameters affecting the sensor performance were optimized and under optimal conditions, the proposed sensor showed linear responses with QTP concentration in the range of 1.6 × 10-8 to 2.5 × 10-6 M (R2 = 0.9964). The limits of detection (LOD) and quantification (LOQ) were calculated 5.04 × 10-9 M and 1.68 × 10-8 M respectively. Also, the amounts of %RSD for evaluation of repeatability and reproducibility of the proposed sensors were respectively obtained 2.19 and 3.02%. The method was successfully applied to determination of QTP in its pharmaceutical formulation and human urine samples.

Degradation studies of quetiapine fumarate by liquid chromatography-diode array detection and tandem mass spectrometry methods.

Quetiapine fumarate (QUE) is an antipsychotic agent with a chemical structure that is susceptible to degradation; therefore, it is important to study its stability using appropriate analytical tools. Knowledge of the stability profile of a drug is important because chemical degradation of its active component often results in a loss of potency, affecting its efficacy and safety. This current work reports degradation studies of QUE as drug substance, under different stress conditions such as oxidation, hydrolysis, heat, humidity and photolysis, by a stability-indicating LC method. The chemical stability was evaluated using a simple HPLC/diode array detection method, with a core-shell C18 column under isocratic conditions, which allows the separation of all primary degradation products (DPs) in a short run time. QUE was mainly degraded under oxidative and hydrolytic conditions, with the formation of three and two DPs, respectively, which were identified by electrospray ionization-tandem mass spectrometry. The method was properly validated in terms of linearity, accuracy, precision, selectivity, robustness and quantitation limit. Commercial tablets containing 25 mg of QUE were quantified, with results obtained within the United States Pharmacopeia limits. The proposed method is suitable to assess the stability and perform routine analysis of QUE in pharmaceutical samples.

An LC-MS/MS method for the simultaneous determination of 12 psychotropic drugs and metabolites in hair: Identification of acute quetiapine poisoning using hair root.

A rapid, sensitive liquid chromatography-tandem mass spectrometry (LC-MS/MS) method for the determination and quantification of 12 psychotropic drugs and metabolites in hair was developed and validated. After freeze grinding with methanol, the supernatant was determined by LC-MS/MS using an Allure PFPPropyl column (100 × 2.1 mm, 5 µm) with a gradient elution of acetonitrile and 10 mmol/L ammonium acetate with 0.1% formic acid, and in the subsequent analysis using multiple reaction monitoring (MRM) mode, two ion transitions were monitored for each analyte. The limits of detection ranged from 0.002 to 0.05 ng/mg, and the limits of quantitation were in the range of 0.005-0.1 ng/mg. Good linearity (r > 0.995) was observed for all analytes over the linear range. Acceptable intraday and interday precision (RSD ≤ 20%) and accuracy (85.3%-112.9%) were achieved. This method of detection was applied to the analysis of guinea pig hair roots after a single dose of quetiapine. Quetiapine and 7-hydroxyquetiapine were both detected in guinea pig hair roots from 5 min post administration. The concentration of quetiapine (10.3-1733.8 ng/mg) was much higher than that of 7-hydroxyquetiapine (0.1-40.6 ng/mg) in the hair roots of guinea pigs, and higher concentrations of quetiapine and 7-hydroxyquetiapine occurred in black hair root than in that of white and brown. The animal experiment demonstrated that hair roots may be a good specimen for proving acute quetiapine poisoning when other biological matrices are not available.

Quetiapine Excretion Into Human Breast Milk.

BACKGROUND: Risk assessment of the use of quetiapine during breastfeeding is challenging owing to a paucity of data. METHODS: A pharmacokinetic study was conducted in lactating women who were taking quetiapine. The primary endpoint was to determine quetiapine concentration profiles in milk and estimated infant exposure levels. Multiple milk and a single blood quetiapine concentrations were determined using a highly sensitive liquid chromatography with tandem mass spectroscopy method. RESULTS: Nine subjects receiving fast-release quetiapine (mean dose, 41 mg/d) were analyzed at steady state. The mean milk/plasma drug concentration ratio at 2-hour postdose was 0.47 (SD, 0.50; range, 0.13-1.67). The mean milk concentration of each patient was 5.7 ng/mL (SD, 4.5; range, 1.4-13.9 ng/mL). The mean infant quetiapine dose via milk per body weight relative to weight-adjusted maternal dose was 0.16 % (SD, 0.08; range, 0.04%-0.35%). CONCLUSIONS: Infant exposure levels to quetiapine via milk are predicted to be very small.

Post-mortem quetiapine concentrations in hair segments of psychiatric patients - Correlation between hair concentration, dose and concentration in blood.

Drug analysis in hair is useful when seeking to establish drug intake over a period of months to years. Segmental hair analysis can also document whether psychiatric patients are receiving a stable intake of antipsychotics. This study describes segmental analysis of the antipsychotic drug quetiapine in post-mortem hair samples from long-term quetiapine users by ultra-high performance liquid chromatography-tandem mass spectrometry (UHPLC-MS/MS) analysis. The aim was to obtain more knowledge on quetiapine concentrations in hair and to relate the concentration in hair to the administered dose and the post-mortem concentration in femoral blood. We analyzed hair samples from 22 deceased quetiapine-treated individuals, who were divided into two groups: natural hair colour and dyed/bleached hair. Two to six 1cm long segments were analyzed per individual, depending on the length of the hair, with 6cm corresponding to the last six months before death. The average daily quetiapine dose and average concentration in hair for the last six months prior to death were examined for potential correlation. Estimated doses ranged from 45 to 1040mg quetiapine daily over the period, and the average concentration in hair ranged from 0.18 to 13ng/mg. A significant positive correlation was observed between estimated daily dosage of quetiapine and average concentration in hair for individuals with natural hair colour (p=0.00005), but statistical significance was not reached for individuals with dyed/bleached hair (p=0.31). The individual coefficient of variation (CV) of the quetiapine concentrations between segments ranged from 3 to 34% for individuals with natural hair colour and 22-62% for individuals with dyed/bleached hair. Dose-adjusted concentrations in hair were significantly lower in females with dyed/bleached hair than in individuals with natural hair colour. The quetiapine concentrations in post-mortem femoral blood and in the proximal hair segment, segment 1 (S1), representing the last month before death were also investigated for correlation. A significant positive correlation was observed between quetiapine concentrations in blood at the time of death and concentrations in S1 for individuals with natural hair colour (p=0.003) but not for individuals with dyed/bleached hair (p=0.31). The blood concentrations of quetiapine ranged from 0.006 to 1.9mg/kg, and the quetiapine concentrations in S1 ranged from 0.22 to 24ng/mg. The results of this study suggest a positive correlation of quetiapine between both concentrations in hair and doses, and between proximal hair (S1) and blood concentrations, when conditions such as hair treatments are taken into consideration.

Toxic Myocarditis Caused by Acetaminophen in a Multidrug Overdose.

We report the case of an 18-year-old woman with personality disorders who was hospitalized a few hours after suicidal ingestion of acetaminophen, quetiapine, acetylsalicylic acid, and ethanol. Twelve hours after admission, severe liver damage was evident, but the patient was stable and awaiting hepatic transplantation. Electrolytes were successfully controlled. The condition of the liver stabilized. Cardiac biomarkers then deteriorated unexpectedly. Localized ST-segment elevations were noted on electrocardiogram, but angiography ruled out myocardial infarction. A computed tomographic scan ruled out cerebral edema. The patient died of irreversible cardiac arrest 40 hours after admission. Heart failure remained unexplained, and the body underwent forensic autopsy.At autopsy, histologic findings were indicative of acute toxic myocarditis and were concluded to be caused by acetaminophen intoxication. Acetaminophen overdose is common and typically leads to liver failure requiring supportive treatment and emergency liver transplantation. Toxic myocarditis is an extremely rare complication of acetaminophen overdose. It has only been reported 4 times in the literature despite the widespread use and misuse of acetaminophen. Toxic myocarditis remains a possibility in many cases of overdose but can be overlooked in a clinical picture dominated by hepatorenal failure and encephalopathy. Clinicians and forensic pathologists should be aware of this rare potential complication.

Detection of the antipsychotic drug quetiapine in the blood, urine and hair samples of the victim of a drug-facilitated sexual assault.

A drug rape facilitated with the sedative antipsychotic drug quetiapine is presented here. A teenage girl and her girlfriend went to the home of an adult couple they had met at a bar. Here, the teenage girl (victim) felt tired after consuming some alcoholic drinks and fell asleep. While she was asleep, the others left her at the house alone and returned to the bar. Later, the girl woke up to witness the adult male having intercourse with her, but she was not able to resist the attack. She fell asleep again and slept through the next day and a half, after which she left the house. Forty-three hours after the suspected drug-facilitated sexual assault (DFSA), blood and urine samples were collected and the initial toxicological screening detected quetiapine. Confirmation and quantification by ultra high performance liquid chromatography coupled to tandem mass spectrometry (UHPLC-MS/MS) revealed a concentration of 0.007mg/kg quetiapine in blood and 0.19mg/l in urine. Six months after the DFSA, a hair sample was collected and segmental hair analysis was performed on four washed segments (0-3cm, 3-5cm, 5-7cm, and 7-9cm). The last segment contained 0.011ng/mg of quetiapine, whereas the other segments were negative. The low level of quetiapine in the hair segment and its absence in the other segments indicate that the victim had only consumed one or a few doses of quetiapine within that period and was not a regular user. This study describes the first drug-facilitated assault involving a single dose of quetiapine that was detected by hair, blood and urine analysis. This case illustrates the importance of having very sensitive analytical methods for measurement of a single dose in blood and urine and how the extended detection window for hair analysis can reveal more information in such cases.

Experimental and in silico assessment of fate and effects of the antipsychotic drug quetiapine and its bio- and phototransformation products in aquatic environments.

The antipsychotic drug quetiapine (QUT) has been frequently detected in sewage treatment plants. However, information on the fate of QUT in aquatic environments and its behavior during UV treatment is limited. In this study, QUT is shown not to be readily biodegradable in the Closed Bottle Test and the Manometric Respirometry Test according to OECD guidelines. The main biotransformation product (BTP) formed in the tests, a carboxylic acid derivative, was identified by means of high-resolution mass spectrometry. This BTP is presumably a human metabolite and showed higher detection rates than QUT in a river sampling campaign conducted in northern Germany. UV elimination kinetics of QUT at different initial concentrations (226.5, 45.3, 11.3, and 2.3 µmol L-1) were faster at lower initial concentrations. All seven phototransformation products (PTPs) could be still identified at initial concentration of 11.3 µmol L-1. The photolytic mixture generated after 128 min of photolysis of QUT was not better biodegradable than QUT. Initial UV treatment of QUT led to the formation of several additional BTPs. Four of them were identified. The bacterial cytotoxicity and genotoxicity before and after phototransformation of QUT in a modified luminescent bacteria test (LBT) and the umu-test (ISO/FDIS 13829) showed cytotoxic effects in the LBT for QUT. Furthermore, PTPs had similar cytotoxic effects on luminescent bacteria. The umu-test did not reveal any genotoxic activity for QUT or PTPs. In conclusion, the release of QUT into sewage treatment plants and aquatic environments could result in the formation of a main BTP. Additional UV treatment of QUT would lead to the formation of additional BTPs. Moreover, treatment did not result in lower toxicity to tested organisms. In conclusion, UV treatment of QUT should be considered critically as a potential treatment for QUT in aquatic systems.

Formulation and evaluation of buccoadhesive quetiapine fumarate tablets

The aim of present study was to develop and evaluate buccoadhesive Quetiapine Fumarate (QF) tablets, which is extensively metabolised by liver. Buccoadhesive tablets of QF were prepared using HPMC K4M, HPMC K15M and combination of carbopol and HPC as mucoadhesive polymers by direct compression method. Sodium deoxycholate was added to formulation to improve the permeation of drug. The formulations were tested for bioadhesion strength, ex vivo residence time, swelling time and in vitro dissolution studies and ex vivo permeation studies. Optimized formulation (F3) showed 92% in vitro release in 8 h and 67% permeation of drug through porcine buccal mucosa and followed fickian release mechanism with zero order kinetics. FTIR studies of optimized formulation showed no evidence of interaction between the drug and polymers. In vivo mucoadhesive behaviour of optimized formulation was performed and subjective parameters were evaluated.

O objetivo do presente estudo foi desenvolver e avaliar os comprimidos bucoadesivos de fumarato de quetiapina (FQ), que é extensivamente metabolizada no fígado. Os comprimidos bucoadesivos de FQ foram preparados utilizando-se HPMC K4M, HPMC K15M e a combinação de carbopol e HPC como polímeros mucoadesivos pelo método de compressão direta. O desoxicolato de sódio foi adicionado à formulação para melhorar a permeação do fármaco. As formulações foram testadas quanto à força de bioadesão, tempo de residência ex vivo, tempo de inchamento, dissolução in vitro e permeação ex vivo. A formulação otimizada (F3) mostrou 92% de liberação in vivo em 8 h e 67% de permeação do fármaco através da mucosa bucal de porco e seguiu o mecanismo fickiano de liberação com cinética de ordem zero. Os estudos de FTIR da formulação otimizada não mostraram evidência da interação entre o fármaco e os polímeros. O comportamento mucoadesivo in vivo da formulação otimizada foi efetuado e avaliaram-se os parâmetros subjetivos.