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Quetiapine


is an medication classified as a dibenzothiazepine derivative, primarily indicated for the treatment of , acute manic or mixed episodes associated with , and as adjunctive therapy with antidepressants for . Marketed under the brand name Seroquel by , it exerts its therapeutic effects through antagonism of D2 and serotonin 5-HT2A receptors, among others, though its precise mechanism in treating these conditions remains incompletely understood. Clinical evidence from randomized controlled trials supports quetiapine's efficacy in alleviating positive and negative symptoms of at doses ranging from 150 to 750 mg daily, as well as in managing depressive episodes and preventing manic relapses during maintenance therapy. However, its use has drawn scrutiny due to substantial risks of metabolic disturbances, including , , and increased incidence, which stem from its receptor affinity profile and are more pronounced than with some other antipsychotics. Off-label prescribing at low doses for persists despite limited efficacy data and heightened adverse event profiles, such as and , raising concerns over inappropriate utilization. Extended-release formulations offer once-daily dosing to improve adherence but do not mitigate these tolerability issues.

Medical Uses

Schizophrenia

Quetiapine received FDA approval in September 1997 for the acute and maintenance treatment of in adults. The recommended dosing begins at 25 mg twice daily, titrated to 300-400 mg/day by day 4, with maintenance doses typically ranging from 400-800 mg/day in divided doses to achieve therapeutic effects while minimizing side effects. Randomized controlled trials and meta-analyses have established quetiapine's efficacy over in alleviating core symptoms of , including positive symptoms such as hallucinations and delusions, as well as negative symptoms like social withdrawal and blunted affect. In the Clinical Trials of (CATIE) study, a large-scale pragmatic involving over 1,400 patients, quetiapine demonstrated modest symptom improvements comparable to other second-generation antipsychotics, though it exhibited higher discontinuation rates due to inefficacy (approximately 24-34% across phases) relative to . For relapse prevention, maintenance therapy with quetiapine extended-release (400-800 mg/day) significantly outperforms in randomized trials of stable patients, reducing risk by approximately 60-70% over 1-2 years compared to discontinuation rates of 20-30% lower than baselines in controlled settings. These outcomes stem from sustained dopamine D2 and serotonin 5-HT2A receptor antagonism, which stabilizes psychotic episodes and delays symptomatic recurrence, as evidenced by lower hospitalization needs in long-term follow-up data from such trials.

Bipolar Disorder

Quetiapine is approved by the (FDA) for the treatment of acute manic episodes in , with approval granted in 2004 at doses of 400-800 mg/day, typically titrated from 50 mg twice daily on day 1 to target ranges over four days. For acute depressive episodes in , FDA approval followed in 2008, with recommended doses of 300 mg/day extended-release formulation, starting at 50 mg/day and increasing to 300 mg by day 4. Maintenance treatment approval in 2008 supports its use to delay time to relapse of mood episodes (manic or depressive) in , with continuation at effective acute doses showing sustained efficacy over 26-52 weeks in responders from acute trials. These approvals stem from randomized controlled trials demonstrating quetiapine's ability to reduce manic symptoms and prevent episode recurrence, though long-term data emphasize monitoring for tolerability given its atypical antipsychotic profile. In acute mania, quetiapine monotherapy exhibits robust efficacy, with (NNT) values of 5 for both response and remission compared to across doses of 300-600 mg/day, based on trials measuring Young Mania Rating Scale improvements. For depression, the BOLDER I and II studies (AstraZeneca-sponsored, double-blind, -controlled trials involving over 1,000 patients with I or II ) established quetiapine's superiority over , with 300 mg/day and 600 mg/day doses yielding significant reductions in Montgomery-Åsberg Depression Rating Scale scores by week 8, and response rates 15-20% higher than . The EMBOLDEN I and II trials further corroborated these findings, showing quetiapine (300-600 mg/day) outperformed and in acute depressive episodes, with sustained benefits in continuation phases reducing relapse risk. A 2025 randomized in (including subtypes) reported quetiapine augmentation led to lower symptom severity than over 12 weeks, with effect sizes favoring quetiapine on Depression Rating Scale scores, though broader -specific superiority in remains tied to acute rather than consistent head-to-head maintenance comparisons.00028-8/fulltext) Quetiapine's therapeutic effects in arise from its receptor binding profile, including transient dopamine D2 receptor occupancy (leading to stabilization rather than persistent blockade) combined with serotonin 5-HT2A antagonism, which modulates mesolimbic hyperactivity in while enhancing prefrontal in via downstream norquetiapine metabolite effects on norepinephrine transporters. This causal mechanism supports mood episode prevention by normalizing dopaminergic dysregulation central to , as evidenced by correlations of reduced manic symptoms with occupancy below 60% at therapeutic doses, avoiding extrapyramidal risks seen in higher-affinity antipsychotics. Empirical outcomes prioritize these pharmacodynamic actions over speculative biases in sponsor-funded studies, with meta-analyses confirming NNT benefits persist across phases despite potential underreporting of metabolic risks in early data.

Major Depressive Disorder

Quetiapine extended-release (XR) was approved by the U.S. (FDA) on December 4, 2009, as an adjunctive therapy to medications for the treatment of (MDD) in adults who had an inadequate response to monotherapy. This approval was based on two pivotal 6-week, randomized, placebo-controlled trials demonstrating when added to ongoing treatment, primarily selective serotonin reuptake inhibitors or serotonin-norepinephrine reuptake inhibitors. The recommended dosing for adjunctive use is 150 to 300 mg once daily, titrated from an initial 50 mg to achieve therapeutic levels while minimizing early adverse effects. Empirical evidence from randomized controlled trials and meta-analyses supports quetiapine's role in augmenting antidepressants for treatment-resistant MDD, showing statistically significant symptom reductions over . In pooled analyses of augmentation trials, quetiapine XR at 300 mg/day yielded greater improvements on the Hamilton Depression Rating Scale (HAM-D), with mean reductions approximately 8-10 points superior to in responsive subgroups, alongside benefits on anxiety and measures. A 2025 pragmatic, comparing quetiapine to augmentation in found quetiapine associated with lower cumulative depressive symptom burden over 12 months, as measured by standardized scales, suggesting superior clinical effectiveness for long-term management. These findings align with broader meta-analyses indicating atypical antipsychotics like quetiapine enhance response rates when added to antidepressants, though is inferred from controlled designs rather than direct mechanistic proof. Despite efficacy, limitations include modest effect sizes in meta-regressions of certain subgroups, such as those with milder severity or shorter trial durations, where responses were comparably high. Adjunctive quetiapine carries risks of , , metabolic disturbances, and , which can offset benefits and require and ongoing of , lipids, glucose, and suicidality, particularly given black-box warnings for increased mortality in elderly patients with dementia-related (though not directly applicable to MDD). Real-world emphasize individualized risk-benefit , as dropout rates due to adverse events in trials exceeded 10% at higher doses.

Other Indications

Quetiapine has been studied for managing and in dementia-related conditions, such as , but lacks regulatory approval for these uses due to insufficient evidence of net benefit and substantial safety concerns. In the CATIE-AD trial, a randomized study of 421 patients with and or , quetiapine led to response rates of 26% on the of Change scale after 12 weeks, comparable to (29%) and (32%), yet all antipsychotics showed high discontinuation rates—over 60% for quetiapine—primarily from adverse events like , , and . Smaller short-term trials, such as a 2007 randomized study of 333 patients, reported quetiapine at 200 mg/day reduced scores modestly versus , with better tolerability than , though improvements were inconsistent across behavioral domains. Systematic reviews of antipsychotics in dementia-related indicate quetiapine yields numerically small reductions in psychotic symptoms but fails to demonstrate sustained , with dropout rates exceeding 50% in many trials due to side effects outweighing benefits. The U.S. and Drug Administration's warning, extended to atypical antipsychotics like quetiapine in , highlights a 1.6- to 1.7-fold increased mortality risk—primarily from cardiovascular or infectious causes—in elderly patients with dementia-related , based on pooled data from 17 placebo-controlled trials showing 4.5% versus 2.6% death rates. This risk profile underscores that and serotonin receptor blockade may transiently alleviate psychotic agitation but exacerbates vulnerability in frail populations through , metabolic disruption, and cerebrovascular events, rendering routine use inadvisable absent acute necessity. As of 2025, no large-scale trials have overturned these findings, with ongoing scrutiny of off-label prescribing in settings.

Off-Label Uses

Quetiapine is commonly prescribed off-label at low doses of 25 to 100 mg for , particularly in medical and psychiatric settings, despite the absence of regulatory approval for this purpose. A 2022 systematic review and of 21 randomized controlled trials reported subjective improvements with low-dose quetiapine versus , yielding a standardized mean difference of -0.57 for quality scores, though polysomnographic measures showed minimal changes and no robust for sustained benefits beyond short-term use. Long-term data are lacking, with trials limited by small sample sizes, high dropout rates due to side effects, and comorbidities. Guidelines from bodies such as the and the U.S. Department of explicitly recommend against routine off-label use for primary , citing inadequate efficacy evidence and risks including , , , and potential for tolerance or dependence that may exacerbate sleep architecture disruption over time. Safety assessments underscore that even low doses carry metabolic and cardiovascular liabilities comparable to higher therapeutic levels, with retrospective data linking them to elevated morbidity in non-psychotic populations; (CBT-I) demonstrates superior long-term outcomes without such hazards. Off-label applications extend to anxiety disorders and (PTSD), where quetiapine is sometimes used as monotherapy or augmentation. A 2016 randomized trial of 50 veterans with PTSD found quetiapine (up to 800 mg/day) superior to in reducing core symptoms and comorbid anxiety/, with response rates around 60% at 8 weeks, though effect sizes were modest and dropout exceeded 20% due to adverse events. Evidence for generalized anxiety remains weaker, with meta-analyses indicating short-term effects from atypical antipsychotics like quetiapine but no clear advantage over selective serotonin reuptake inhibitors and heightened risks of . Systematic evaluations classify these uses as low-quality, prone to and influenced by industry funding in early studies. Prescription data reveal escalating off-label trends, with U.S. claims showing quetiapine dispensing rising faster than other atypicals from 2015 to 2022, attributable to sleep and anxiety indications comprising over 50% of new low-dose scripts in some cohorts. European registries documented a 3.3-fold increase in quetiapine utilization from 2012 to 2021, predominantly at sub-100 mg doses for non-approved purposes, correlating with broader off-label expansion amid limited oversight. This pattern reflects diagnostic expansion and sedative appeal over rigorous outcome tracking, underscoring imbalances where marginal gains in subjective symptoms fail to justify population-level exposure to documented harms.

Adverse Effects

Common Side Effects

The most common adverse effects associated with short-term quetiapine use in clinical trials include , reported in up to 57% of patients where the incidence was at least twice that of , dry mouth in 44%, in 18%, and in 10%. These effects are typically dose-dependent, with higher rates at elevated doses, and often transient, tending to decrease in intensity after the initial weeks of therapy.
  • Somnolence: Occurs frequently due to quetiapine's strong antagonism at histamine H1 receptors, leading to greater sedation than observed with many other atypical antipsychotics; incidence ranges from 18% at lower doses (e.g., 50 mg) to over 50% in broader trial populations.
  • Dry mouth: Affects up to 40% of users, linked to anticholinergic properties.
  • Dizziness: Reported in 11-18% of patients, often related to orthostatic hypotension from alpha-1 adrenergic blockade.
  • Constipation: Seen in up to 11%, attributable to muscarinic receptor antagonism.
Headache emerges in approximately 10-20% of trial participants across pivotal studies for and . , manifesting as upon standing, affects similar proportions and is more pronounced during dose . These non-severe effects generally do not necessitate discontinuation in most cases but require monitoring, particularly in elderly patients or those with comorbidities.

Metabolic and Cardiovascular Risks

Quetiapine is associated with significant , even at low doses typically used off-label for or anxiety, with a 2025 and of randomized controlled trials reporting a mean difference of 0.58 (95% : 0.32–0.83) compared to . Clinically relevant weight gain of ≥7% from baseline occurs in a dose-dependent manner, affecting up to 10–20% of patients on standard therapeutic doses for or , based on longitudinal cohort data. This effect stems from quetiapine's potent antagonism at H1 and serotonin 5-HT2C receptors, which disrupts hypothalamic appetite regulation and promotes hyperphagia independent of baseline or duration of use. Glycemic disturbances, including and new-onset , represent a moderate among antipsychotics, with quetiapine implicated in approximately one-third of attributable cases in exposed populations per epidemiologic analyses. and emerge through mechanisms involving impaired glucose , though low-dose use (e.g., <150 mg/day) shows no excess incidence versus selective serotonin reuptake inhibitors in cohort studies of nonsevere mental illness patients. Longitudinal monitoring reveals fasting glucose elevations in 5–10% of users, necessitating baseline and periodic assessments. Dyslipidemia manifests as reduced high-density lipoprotein (HDL) cholesterol (mean difference -1.25 mg/dL at low doses) and elevated triglycerides, driven by direct hepatic effects beyond weight gain. These changes contribute to cardiovascular vulnerability, with low-dose quetiapine linked to a 42% higher adjusted hazard ratio for major adverse cardiovascular events (including myocardial infarction and stroke) relative to antidepressants in nationwide cohort data. Antipsychotic exposure overall elevates stroke risk across multiple observational studies, underscoring causal metabolic pathways. Guidelines from bodies like the American Psychiatric Association recommend baseline measurement of weight, fasting glucose, lipid profile, and blood pressure prior to quetiapine initiation, with follow-up at 4–8 weeks, 12 weeks, and annually thereafter, or more frequently if metabolic changes occur, to mitigate cumulative risks.

Neurological and Hematological Effects

Quetiapine exhibits a lower incidence of extrapyramidal symptoms (EPS) compared to first-generation antipsychotics such as , with rates typically ranging from 5% to 10% in clinical use, often approaching placebo levels in monotherapy trials. Akathisia remains possible, particularly at higher doses, though overall EPS tolerability is favorable due to quetiapine's weaker dopamine D2 receptor blockade. Risks can accumulate with polypharmacy or long-term exposure, necessitating monitoring for parkinsonism or dystonia in vulnerable patients. Tardive dyskinesia (TD) occurs at a reduced rate with quetiapine versus typical antipsychotics, with an annual incidence estimated at 0.8% in non-elderly adults during second-generation antipsychotic treatment, compared to 5.4% for first-generation agents. Long-term cumulative risk may approach 3-5% over several years, elevated in elderly patients (up to 2.7%) or those with predisposing factors like prior EPS or diabetes. Isolated cases of TD emergence, including early-onset in low-dose regimens, underscore persistent concerns despite quetiapine's profile. Quetiapine can lower the seizure threshold in a dose-dependent manner, with elevated risk at doses exceeding 600 mg daily or in combination therapies. In pediatric and adolescent populations, adjusted hazard ratios for seizures reached 2.36 with quetiapine exposure, higher still with polypharmacy (2.92). Clinical trials involving over 3,700 patients reported seizure rates comparable to placebo at standard doses, but postmarketing surveillance highlights vulnerabilities in patients with seizurogenic conditions or rapid titration. Hematological adverse effects with quetiapine are uncommon, including neutropenia (incidence <0.01% in postmarketing data) and leukopenia, often reversible upon discontinuation. Rates increase significantly in combinations, such as with valproate (32.3% versus 6.9% in quetiapine monotherapy), prompting baseline and periodic blood monitoring, especially in elderly or comorbid patients. Thrombocytopenia and bicytopenia occur rarely, typically within weeks to years of initiation, with case reports linking them to doses from 100 mg daily upward. Electrocardiographic changes, including QTc prolongation, show dose-dependent association with quetiapine, though severe prolongation affects fewer than 13% in select cohorts and remains relatively uncommon overall. Risk escalates with polypharmacy or QT-prolonging co-medications like furosemide, as noted in 2024 real-world analyses, warranting ECG evaluation in high-risk cases.

Discontinuation and Withdrawal

Abrupt discontinuation of quetiapine is associated with withdrawal symptoms such as insomnia, nausea, vomiting, agitation, restlessness, diaphoresis, irritability, dizziness, and increased heart rate, with a systematic review of case reports and studies identifying rapid cessation as a key risk factor. These somatic and psychiatric effects typically emerge within days of stopping and may peak in severity around days 3-7, though they are described as uncommon overall compared to discontinuation syndromes from or . Rebound psychosis represents a severe potential outcome, where psychotic symptoms recur or intensify beyond baseline levels shortly after cessation, as documented in case series and clinical observations; for instance, abrupt withdrawal has precipitated catatonia or exacerbated psychosis in susceptible patients, distinct from relapse due to underlying illness. This phenomenon, potentially linked to supersensitivity from chronic blockade, underscores the need to differentiate withdrawal-induced rebound from disease progression, with empirical data indicating higher incidence following rapid dose reductions. Clinical guidelines emphasize gradual tapering to mitigate these risks, typically recommending dose reductions of 10-25% weekly or 25-50 mg every 1-2 weeks under medical supervision, adjusted based on patient response and duration of use; slower schedules, such as 10% monthly, may be employed for long-term users to allow neuroadaptations to resolve. Unlike true dependence syndromes involving tolerance and craving, quetiapine withdrawal lacks strong evidence of addictive potential but involves underreported cholinergic or dopaminergic rebound effects, necessitating monitoring for symptom recurrence during taper.

Pregnancy, Lactation, and Special Populations

Quetiapine is classified as FDA Pregnancy Category C, indicating that animal reproduction studies have shown adverse effects on the fetus, but there are no adequate and well-controlled studies in humans, and potential benefits may warrant use despite potential risks. Limited published data report no major malformations associated with quetiapine exposure during pregnancy, and analyses from the National Pregnancy Registry for Atypical Antipsychotics indicate absolute risks of major congenital malformations of approximately 1.85% in exposed infants, comparable to 1.77% in unexposed controls, with no statistically significant elevation in risk. However, quetiapine crosses the placenta, resulting in fetal exposure, and some observational data suggest a possible association with low birth weight (less than 2500 grams), though causality remains unestablished due to confounding factors such as maternal illness severity. Exposure to quetiapine near term or during the third trimester carries risks of and/or , occurring in up to 30% of exposed newborns based on data, with symptoms including agitation, hypertonia or hypotonia, tremor, somnolence, , and feeding difficulties. These effects are generally self-limited, resolving within weeks, but may necessitate neonatal monitoring and supportive care. Quetiapine is excreted into breast milk at low concentrations, with maternal doses up to 400 mg daily yielding infant exposures estimated at less than 1% of the weight-adjusted maternal dose (mean relative infant dose 0.16%, range 0.04-0.35%). Among second-generation antipsychotics, quetiapine is considered a preferred option during lactation due to its favorable pharmacokinetics and minimal reported infant adverse effects, though monitoring for sedation or developmental delays is advised given sparse long-term data. In elderly patients, particularly those with dementia-related psychosis, quetiapine carries a black box warning for increased mortality risk, with analyses of 17 controlled trials showing a 1.6- to 1.7-fold higher rate of death compared to placebo, primarily from cardiovascular or infectious causes; it is not approved for this indication. Elderly individuals exhibit heightened sensitivity to orthostatic hypotension, sedation, and anticholinergic effects, warranting initial doses as low as 25 mg daily and gradual titration. For patients with hepatic impairment, quetiapine requires dose adjustments due to its extensive first-pass metabolism via in the liver, which prolongs half-life and increases exposure; recommended initiation is 25 mg daily, with increments of 25-50 mg daily to an effective dose, not exceeding standard maxima. No dosage adjustment is necessary for renal impairment, as clearance is minimally affected, though caution is advised in severe cases due to potential accumulation of metabolites.

Misuse Potential

Quetiapine has been associated with misuse primarily for its sedative and euphoric effects, particularly among individuals with histories of substance abuse or incarceration. Case reports document recreational use via intranasal, intravenous, or oral routes, often in combination with , , or to enhance sedation or mitigate withdrawal symptoms. A 2019 systematic review of 14 years of data identified abuse predominantly in addict populations and those with legal involvement, with users reporting subjective "highs" at doses exceeding 100 mg, though objective evidence of strong reinforcing properties remains limited compared to traditional drugs of abuse like . Polypharmacy interactions amplify risks, as quetiapine's histamine and adrenergic blockade potentiates central nervous system depression when mixed with other depressants. In correctional settings, quetiapine diversion has risen notably, with street values of $3–8 per tablet under names like "quell" or "baby heroin," driven by malingered psychiatric symptoms to obtain prescriptions for resale or self-medication. Institutional data from U.S. prisons show frequent abuse attempts, prompting formulary removals in some facilities by 2012, where discontinuation succeeded in over 95% of cases without rebound psychosis. Overall abuse reports to regulatory bodies like the remain low relative to opioids, with a 2019 analysis of poison center data indicating quetiapine involved in fewer than 1% of substance misuse calls, but clustered in high-risk groups. Recent reviews from 2020–2022 challenge the notion of quetiapine abuse as mere "myth," confirming 1,089 pharmacovigilance reports of abuse, dependence, and withdrawal, predominantly for quetiapine among second-generation antipsychotics. Dependence manifests via withdrawal symptoms like insomnia, nausea, restlessness, and rebound anxiety upon abrupt cessation, affecting up to 73% of surveyed users attempting discontinuation, though severe effects are rarer than with benzodiazepines. This iatrogenic risk stems from normalized off-label prescribing for insomnia at low doses (25–100 mg), which bypasses FDA approvals and fuels diversion without adequate monitoring for metabolic or cardiac complications. Empirical patterns suggest restricting such uses to mitigate unintended abuse pathways, prioritizing evidence-based alternatives over sedative convenience.

Overdose and Toxicity

Symptoms and Management

Quetiapine overdose primarily manifests as dose-dependent central nervous system depression, ranging from sedation and lethargy to coma, particularly with ingestions exceeding 3 grams. Tachycardia and hypotension are frequent cardiovascular effects, while respiratory depression may require ventilatory support in severe cases. QT interval prolongation poses an additional risk, potentially leading to arrhythmias, though seizures occur rarely (<5% of cases). Management focuses on supportive care, as no specific antidote exists. Activated charcoal should be administered promptly if the ingestion occurred within 1-2 hours, to reduce absorption. Airway protection via intubation may be necessary for coma or respiratory compromise, with continuous cardiac monitoring for dysrhythmias. Agitation or seizures are treated with benzodiazepines, such as lorazepam at 0.1 mg/kg intravenously, while hypotension responds to intravenous fluids and, if refractory, vasopressors like noradrenaline. Ingestions over 10 grams increase the potential for fatality due to profound coma and hemodynamic instability, yet empirical data indicate lower lethality compared to typical antipsychotics, with survival rates approaching 90-98% under intensive care. Fatalities are uncommon in isolated overdoses up to 30 grams when managed aggressively, though outcomes worsen with co-ingestants or delayed presentation.

Outcomes and Risks

Mortality from quetiapine overdose remains low, with fatalities occurring in fewer than 5% of reported cases, often attributable to co-ingestion of other substances such as or rather than quetiapine alone. In cohort analyses, direct attribution to quetiapine toxicity yields death rates around 1.2%, though intentional overdoses elevate this risk when polypharmacy is involved. Autopsy data from overdose fatalities frequently reveal underlying comorbidities, including in 11-29% of cases and in 13-14%, which compound lethality. Morbidity in overdose survivors includes central nervous system depression leading to coma, with potential long-term sequelae such as aspiration pneumonia from prolonged intubation, rhabdomyolysis, acute kidney injury, and respiratory failure if not promptly managed. Higher ingested doses correlate with increased severity, including tachycardia, hypotension, and seizures, prolonging hospital stays and necessitating ventilatory support in severe instances. Prognostic factors for poor outcomes encompass doses exceeding 3 grams, which heighten risks of coma and cardiovascular instability, alongside patient-specific vulnerabilities like advanced age and preexisting cardiac conditions that predispose to arrhythmias. Recent electrocardiographic studies, including those from 2024-2025, demonstrate that severe quetiapine overdoses can induce changes akin to , such as and ectopic atrial tachycardia, elevating arrhythmia risk. Severe in these cases associates with heightened odds of ventricular arrhythmias and sudden cardiac events, particularly in individuals with baseline cardiac history. Causally, alpha-1 adrenergic blockade from quetiapine contributes to hypotension, often refractory to certain vasopressors like epinephrine, underscoring the need for alternative agents such as norepinephrine in management.

Pharmacology

Pharmacodynamics

Quetiapine acts as a multi-receptor antagonist, primarily targeting dopamine D2, serotonin 5-HT2A, histamine H1, and adrenergic α1 receptors, with binding affinities reflected in Ki values of approximately 626 nM at D2, 640 nM at 5-HT2A, 6.9 nM at H1, and 22 nM at α1A. Its low affinity and rapid dissociation rate from the D2 receptor result in transient occupancy, typically around 30-50% at therapeutic doses, which limits extrapyramidal side effects (EPS) compared to typical antipsychotics that achieve sustained high occupancy. H1 antagonism contributes to sedation, while α1 blockade underlies orthostatic hypotension. In antipsychotic efficacy, quetiapine's antagonism of D2 receptors in mesolimbic pathways reduces hyperdopaminergic activity associated with positive symptoms of , while 5-HT2A blockade in mesocortical regions may enhance release to address negative and cognitive symptoms. This profile achieves a functional balance, suppressing excessive signaling in limbic areas without prolonged nigrostriatal blockade that provokes or . Partial agonism at 5-HT1A receptors (Ki ≈ 390 nM) further modulates serotonergic transmission, potentially aiding and effects. The norquetiapine (N-desalkylquetiapine) enhances quetiapine's profile by potently inhibiting the (NET, Ki = 23 nM), increasing synaptic norepinephrine levels, and acting as a partial 5-HT1A , mechanisms implicated in its activity beyond core actions. Norquetiapine also exhibits affinities for H1, 5-HT2A, and α1 receptors similar to the parent compound, amplifying downstream effects on mood stabilization and sedation.

Pharmacokinetics

Quetiapine is rapidly absorbed following , with peak concentrations (Tmax) occurring approximately 1 to 2 hours after dosing for immediate-release () formulations. The absolute oral is low at around 9% due to extensive first-pass hepatic , though food intake increases the area under the curve (AUC) by about 15% and maximum concentration (Cmax) by 25% for forms. For extended-release (XR) formulations, Tmax is delayed to 5 to 6 hours, and administration is recommended without food or with a light meal (≤300 calories) to avoid altered release profiles from high-fat meals. Distribution of quetiapine is widespread, with a of approximately 10 L/kg, and it is about 83% bound to proteins. The pharmacokinetics are linear and dose-proportional within therapeutic ranges, with steady-state concentrations achieved after about 2 days of dosing due to the short . Quetiapine undergoes extensive hepatic metabolism primarily via 3A4 () oxidation, forming the active metabolite norquetiapine (N-desalkylquetiapine) and other inactive metabolites through sulfoxidation and dealkylation pathways. The parent drug accounts for most pharmacological activity, while norquetiapine contributes to some effects via norepinephrine reuptake inhibition. Elimination occurs mainly through (about 73% of dose) and (20%), with less than 5% excreted unchanged. The mean terminal elimination is 6 to 7 hours for both IR and XR formulations across typical clinical doses. clearance averages 1 to 4 L/h/kg, though values can vary with dose and formulation. In elderly patients, clearance is reduced by 30% to 50% compared to younger adults, necessitating lower starting doses. Hepatic impairment, particularly moderate to severe, decreases clearance and prolongs in affected individuals, requiring dose adjustments and monitoring. Renal impairment has minimal impact on . CYP3A4 inhibitors like can increase quetiapine exposure by up to 4-fold, while inducers like reduce it.

Chemistry

Chemical Structure and Properties


Quetiapine is a dibenzothiazepine derivative with the IUPAC name 2-[2-(4-dibenzo[b,f][1,4]thiazepin-11-ylpiperazin-1-yl)ethoxy]. Its molecular formula is C_{21}H_{25}N_{3}O_{2}S, and it has a molecular weight of 383.51 g/mol. The compound features a dibenzothiazepine core linked to a ring via an ethyl bridge terminated by a hydroxyethoxy group, contributing to its classification among atypical antipsychotics structurally akin to , which differs by having a central diazepine ring instead of thiazepine. Quetiapine manifests as a solid, lipophilic substance with an experimental of approximately 2.8–3.0, facilitating membrane permeability. It displays low aqueous , around 0.04–0.05 mg/mL under neutral conditions, and is more soluble in organic solvents like . The values are 2.78 and 7.46, reflecting sites on the moiety. Quetiapine remains stable in physiological environments, showing no appreciable across 5–9, though it is vulnerable to upon direct sunlight exposure.

Synthesis

The industrial synthesis of quetiapine proceeds through a multi-step process centered on constructing the dibenzo[b,f][1,4]thiazepine , with key intermediates including dibenzo[b,f][1,4]thiazepin-11(10H)-one. This core is typically prepared via one-pot cyclization methods involving of appropriately substituted aminothiophenols and carboxylic acids or derivatives, followed by , to enhance efficiency and yields in large-scale production. The undergoes chlorination with to yield 11-chlorodibenzo[b,f][1,4]thiazepine, which is then displaced by to form 11-(piperazin-1-yl)dibenzo[b,f][1,4]thiazepine. This secondary amine is subsequently alkylated at the piperazine nitrogen using 2-(2-chloroethoxy) under basic conditions, often with phase-transfer or in alcoholic solvents, to install the ethoxyethanol and complete the quetiapine . The original process, detailed in patents now expired as of September 2011, forms the basis for routes, which prioritize similar sequential displacements while optimizing for control and overall process yields exceeding 70% from the core intermediate in reported variants.

History

Development and Initial Approvals

Quetiapine, chemically known as 2-(2-(4-dibenzo[b,f][1,4]thiazepin-11-ylpiperazin-1-yl)ethoxy)ethanol fumarate, was discovered in 1984 by researchers at ICI Pharmaceuticals (subsequently Zeneca Pharmaceuticals, now part of ) under the code name ICI 204,636. This dibenzothiazepine derivative was developed as a potential , aiming to replicate clozapine's efficacy against positive and negative symptoms of while minimizing risks like and extrapyramidal side effects (). Preclinical studies in the mid-1980s confirmed its affinity for dopamine D2 and serotonin 5-HT2A receptors, with rapid dissociation from D2 sites contributing to a lower EPS liability compared to typical antipsychotics. Following risperidone's FDA approval in 1993 as the first widely available after , quetiapine advanced through Phase II and III trials in the early to mid-1990s. These multicenter, randomized, double-blind studies enrolled over 1,000 patients with acute , evaluating fixed doses from 75 mg/day to 750 mg/day against and (up to 13 mg/day). Results showed dose-dependent improvements in (PANSS) total scores, with optimal efficacy at 300-600 mg/day and equivalence to in reducing positive symptoms, but with significantly fewer and less need for medications—hallmarks of its profile. Initial dosing regimens emphasized gradual from 25 mg twice daily to minimize and orthostasis observed at higher starting doses. The U.S. granted initial approval for quetiapine fumarate (branded as Seroquel) on September 26, 1997, for the in adults aged 18 and older, based on these pivotal trials demonstrating sustained efficacy over 6 weeks and short-term safety. Marketing authorization followed in several European countries, with the UK's Medicines and Healthcare products Regulatory Agency issuing the first approval on June 25, 2000, for treatment at similar doses. Early post-approval data reinforced its tolerability, with common adverse events including (18-52% incidence) and (averaging 2-3 kg over 6 weeks), though less pronounced than with some predecessors.

Expansion of Indications

In 2004, the U.S. Food and Drug Administration (FDA) expanded quetiapine's indications to include acute manic or mixed episodes associated with bipolar I disorder, either as monotherapy or adjunctive therapy with lithium or divalproex, based on three placebo-controlled trials demonstrating significant reductions in Young Mania Rating Scale (YMRS) scores at doses of 400-800 mg/day. This approval followed the drug's initial 1997 authorization for schizophrenia and reflected evidence from randomized controlled trials (RCTs) establishing antipsychotic efficacy in mania without requiring superiority over established mood stabilizers in head-to-head comparisons. Globally, approvals for bipolar mania occurred variably, with the European Medicines Agency (EMA) granting similar authorization in 2003, though implementation differed by country due to local regulatory thresholds for manic episode severity. By 2008, the FDA further approved quetiapine (both immediate- and extended-release formulations) as monotherapy for acute depressive episodes in (I and II), supported by the BOLDER I and II trials conducted in 2004-2005, which enrolled over 1,000 patients and showed statistically significant improvements in Montgomery-Åsberg Depression Rating Scale (MADRS) scores versus at 300 mg/day (p<0.01) and 600 mg/day doses, with remission rates of 53% in quetiapine arms compared to 38% for . These pivotal studies met FDA evidence standards through double-blind, -controlled designs demonstrating effect sizes of 0.3-0.4 on depressive symptoms, though post-hoc analyses highlighted consistent benefits in bipolar II subgroups. Meta-analyses of these and subsequent trials have reinforced quetiapine's role, with pooled relative risks for response around 1.4 (95% CI 1.2-1.6), underscoring causal links via D2 and serotonin antagonism in mood stabilization. approvals for followed in 2009, with some regions requiring additional long-term data for maintenance claims. In 2009, the FDA authorized extended-release quetiapine as adjunctive therapy to for (MDD) in adults who had inadequate response to monotherapy, drawing from two 6-week RCTs involving 902 patients where add-on quetiapine (150-300 mg/day) yielded MADRS score reductions of 6-8 points greater than (p<0.001), meeting response criteria in 25-28% more participants. This expansion targeted treatment-resistant cases implicitly, as trials enrolled non-responders after 8 weeks of therapy, though labeling emphasized short-term augmentation without endorsing indefinite use due to metabolic risks observed in 10-15% of participants. variations persisted, with some agencies like approving adjunctive MDD use by 2011 but others limiting to bipolar indications amid debates over off-label promotion influences. As of , accumulating evidence from pragmatic trials, including a head-to-head comparison of quetiapine versus augmentation in (TRD), supports quetiapine's preferential use in select TRD populations, with modest symptom reductions ( ~0.2) and lower discontinuation rates versus alternatives, though without new FDA label expansions.00028-8/fulltext) These findings, derived from open-label designs with over 200 participants, align with meta-analytic thresholds for augmentation efficacy ( ~8 for response) but highlight needs for personalized dosing to mitigate sedation and weight gain, reported in 20-30% of cases, informing clinical guidelines without altering core indications.

Formulation Advances and Post-Marketing Surveillance

The extended-release (XR) formulation of quetiapine, marketed as Seroquel XR, received FDA approval on November 15, 2007, for once-daily administration in the acute treatment of in adults. This advance addressed limitations of the immediate-release form by enabling sustained plasma concentrations over 24 hours, with pharmacokinetic studies demonstrating to multiple daily doses of the immediate-release version under fasting and fed conditions. The XR design reduces fluctuations in drug levels, potentially lowering peak-associated sedation and facilitating higher tolerable doses while improving adherence through simplified dosing. Post-approval has centered on real-world safety signals from systems like the FDA Adverse Event Reporting System (FAERS). In the mid-2000s, analyses of antipsychotics, including quetiapine, prompted class-wide label updates; by 2008, a warning was added for increased mortality risk (1.6- to 1.7-fold higher than ) in elderly patients with dementia-related , primarily due to cardiovascular or infectious causes. An additional warning highlighted risks, including rare cases of , hyperosmolar coma, or death, observed in post-marketing reports across antipsychotics. Recent surveillance (2024–2025) has scrutinized off-label low-dose use (<150 mg/day), often for or anxiety, revealing elevated cardiovascular risks; a reported low-dose quetiapine linked to higher incidences of ischemic and compared to non-use. Retrospective reviews have also flagged metabolic effects like and even at these doses, underscoring dose-independent concerns. FAERS trends show disproportionate reports of quetiapine-related cardiac events, including QT prolongation and ventricular arrhythmias, with mining indicating signals for sudden cardiac death in vulnerable populations. A 2024 Japanese post-marketing study of XR in confirmed known adverse drug reactions (e.g., in 15.9% of cases) but identified no novel signals. Ongoing monitoring emphasizes caution in elderly and low-dose contexts, with FAERS data highlighting rising abuse/misuse reports, particularly among middle-aged females.

Society and Culture

Regulatory Status

Quetiapine fumarate, sold under the brand name Seroquel among others, received initial U.S. (FDA) approval on September 26, 1997, for the in adults. Subsequent FDA approvals expanded its indications to include acute manic or mixed episodes in (2004), maintenance treatment for (2008), and adjunctive therapy for (2009). The drug holds no controlled substance scheduling under the U.S. Drug Enforcement Administration's , reflecting its classification as a non-narcotic with low abuse potential despite isolated reports of misuse. The original for immediate-release quetiapine expired on March 26, 2011, following a six-month pediatric exclusivity extension, enabling the entry of formulations and reducing branded market exclusivity. Extended-release versions faced patent challenges, with generics approved starting November 2016 for certain strengths, further broadening availability. FDA labeling mandates black-box warnings for heightened mortality risk—1.6- to 1.7-fold increase—in elderly patients with dementia-related , based on analyses of 17 placebo-controlled trials, and for suicidality in pediatric and populations during initial treatment phases. In the , quetiapine is authorized via the () for similar indications, including and , with centralized marketing authorizations granted to products like Seroquel since 2002; EMA labels echo FDA black-box equivalents, contraindicating use in dementia-related due to cerebrovascular and mortality risks. Neither the FDA nor EMA endorses quetiapine for primary , with 2025 clinical reviews emphasizing scant evidence for efficacy at low doses alongside metabolic and neurological hazards, prompting calls to curb off-label prescribing. Regulatory frameworks internationally designate quetiapine as prescription-only (e.g., Schedule 4 in , in the UK), without narcotic-level controls or stringent / restrictions in most jurisdictions, though travelers must comply with destination-specific documentation for personal quantities. Variations persist, such as Class C1 scheduling in for controlled prescription oversight, but global harmonization under WHO essential medicines lists supports broad access for approved psychotic indications.

Prescribing Trends and Off-Label Promotion

Quetiapine prescriptions have exhibited a marked increase over the past two decades, with nationwide data from settings indicating a 13-fold rise in its use from 2003 to 2021, outpacing other s and contributing disproportionately to overall prescribing growth. This escalation correlates with expanded off-label applications, particularly low-dose regimens (typically under 50 mg) for and anxiety, which lack robust support and carry risks such as metabolic disturbances and increased HbA1c levels even at these doses. (CMS) data reflect this pattern, showing sustained upward trends in quetiapine dispensing, often for non-psychotic indications where evidence of efficacy is anecdotal or preliminary rather than derived from randomized controlled trials. Pharmaceutical promotion has played a causal role in diffusing these off-label practices, as evidenced by AstraZeneca's marketing of Seroquel (quetiapine) for unapproved uses, including dementia-related agitation and pediatric , prompting a $520 million with the U.S. of in 2010 for violations stemming from kickbacks and misleading safety claims to induce off-label prescriptions. Such campaigns, involving speaker programs and ghostwritten articles, incentivized prescribers to favor quetiapine over alternatives with stronger evidence bases, fostering habitual low-dose use despite post-marketing surveillance revealing adverse events like and risk disproportionate to benefits in non-schizophrenia populations. Empirical analyses highlight overprescription relative to evidentiary standards, with interventions like peer-comparison warning letters to high-volume prescribers reducing quetiapine use in by up to 10% without increasing patient harms, suggesting prior volumes exceeded clinical necessity. In care, for instance, quetiapine is frequently initiated off-label despite FDA black-box warnings for elderly mortality risk, driven more by prescribing than causal data. Global market projections underscore ongoing demand, estimating quetiapine revenues at approximately $2.5 billion by 2025, fueled by generic availability yet persistent off-label momentum in . This divergence—high utilization amid equivocal evidence for many applications—points to pharma-influenced diffusion outpacing rigorous causal validation, with low-dose prescribing exemplifying a pattern warranting scrutiny beyond institutional endorsements.

Legal and Ethical Controversies

In April 2010, agreed to pay $520 million to the U.S. Department of Justice to resolve allegations that it illegally promoted quetiapine (Seroquel) for unapproved uses, including in the elderly, aggression or agitation in patients, , and off-label psychiatric conditions such as attention-deficit hyperactivity disorder and anxiety, between 2001 and 2006. The did not require to admit liability but addressed claims that the company paid physicians to conduct studies on these unapproved indications, provided kickbacks disguised as consulting fees, and disseminated misleading safety data to minimize s like and . In March 2011, reached an additional $68.5 million with 37 states, including prohibitions on future off-label and requirements for accurate in materials. Allegations of ghostwriting emerged in related litigation, where was accused of commissioning medical communication firms to draft articles and studies promoting quetiapine's efficacy for unapproved uses, which were then submitted for publication under the names of paid academic physicians without disclosing industry involvement. Court documents from 2009 cases argued that such practices concealed internal data on metabolic risks, including elevated incidences of and , prioritizing market expansion over transparent evidence-based reporting. defended these collaborations as legitimate educational efforts to disseminate clinical data, though critics, including whistleblower lawsuits, contended they constituted deceptive influence on prescribing patterns amid known signals from post-marketing surveillance. Product liability lawsuits, peaking in the late 2000s, alleged that AstraZeneca inadequately warned of quetiapine's risks for severe hyperglycemia, type 2 diabetes, and tardive dyskinesia, with over 17,500 claims settled for $198 million in 2010 without admission of fault. Plaintiffs cited internal documents showing the company downplayed dose-dependent metabolic effects in certain demographics, such as higher diabetes rates in African American patients, as evidenced in a 2009 case where AstraZeneca invoked racial predisposition in defense but lost on summary judgment grounds. Ethically, these controversies highlight tensions between pharmaceutical incentives for broad indications—yielding peak U.S. sales of $4.9 billion in 2008—and causal evidence of harm, such as FDA-mandated warnings added in 2003 for hyperglycemia after reports of diabetic ketoacidosis and deaths, which critics argue were delayed despite pre-approval trial data indicating 20-30% weight gain and glucose elevations. While AstraZeneca maintained that off-label use reflects evolving clinical judgment supported by real-world data, settlements underscore systemic failures in risk prioritization, with empirical outcomes showing disproportionate off-label prescribing correlated to elevated adverse events like tardive dyskinesia in vulnerable populations.

Economic and Access Issues

Quetiapine, marketed as Seroquel by , achieved peak global sales exceeding $5 billion annually in the late , driven by widespread prescribing for and . expiration for the immediate-release formulation in March 2011 triggered rapid entry, eroding revenues and reducing prices by approximately 80% within five years as intensified among multiple manufacturers. This shift democratized access in developed markets, where now dominate over 90% of prescriptions, but formulations persist in extended-release variants amid ongoing litigation over delayed for Seroquel XR. The global quetiapine market, valued at roughly $1.8 billion in 2023, is forecasted to expand to $3.4 billion by 2032, with growth propelled by rising diagnoses in emerging markets like and , where increasing urbanization and healthcare infrastructure facilitate uptake despite uneven regulatory enforcement. However, access disparities persist: in low-resource settings, generic availability has lowered per-unit costs to fractions of original prices, yet total expenditures can rise 50% or more with quetiapine substitution due to higher dosing needs and limited formulary alternatives, prompting critiques of overreliance without robust local efficacy data. In the United States, insurance coverage under and private plans routinely includes quetiapine for approved indications like and mania, often with low copays for generics, but off-label applications—such as , which account for a growing share of prescriptions—frequently encounter hurdles or outright denials, reflecting payers' emphasis on evidence-based use amid safety concerns like metabolic risks. Internationally, essential medicines lists endorse quetiapine for severe psychiatric conditions, yet procurement challenges in and limit distribution, where cost-benefit analyses favor cheaper first-generation antipsychotics unless second-generation benefits in adherence demonstrably offset expenses. These dynamics underscore causal trade-offs: while generics enhance affordability, unchecked off-label expansion risks inflating healthcare budgets without commensurate outcomes, particularly where non-drug therapies remain underutilized.