Pharmaceutical compound
Clinical data | |
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Trade names | Depixol, Fluanxol |
AHFS/Drugs.com | Micromedex Detailed Consumer Information |
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Routes of administration | Oral, IM (including a depot) |
Drug class | Typical antipsychotic |
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Pharmacokinetic data | |
Bioavailability | 40–55% (oral) |
Metabolism | Gut wall, hepatic |
Elimination half-life | 35 hours |
Excretion | Renal (negligible) |
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CompTox Dashboard (EPA) | |
ECHA InfoCard | 100.018.459 |
Chemical and physical data | |
Formula | C23H25F3N2OS |
Molar mass | 434.52 g·mol |
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Flupentixol (INN), also known as flupenthixol (former BAN), marketed under brand names such as Depixol and Fluanxol is a typical antipsychotic drug of the thioxanthene class. It was introduced in 1965 by Lundbeck. In addition to single drug preparations, it is also available as flupentixol/melitracen—a combination product containing both melitracen (a tricyclic antidepressant) and flupentixol (marketed as Deanxit). Flupentixol is not approved for use in the United States. It is, however, approved for use in the UK, Australia, Canada, Russian Federation, South Africa, New Zealand, Philippines, Iran, Germany, and various other countries.
Medical uses
Flupentixol's main use is as a long-acting injection given once in every two or three weeks to individuals with schizophrenia who have poor compliance with medication and have frequent relapses of illness, though it is also commonly given as a tablet. There is little formal evidence to support its use for this indication but it has been in use for over fifty years.
Flupentixol is also used in low doses as an antidepressant. There is tentative evidence that it reduces the rate of deliberate self-harm, among those who self-harm repeatedly.
Adverse effects
Adverse effect incidence
- Common (>1% incidence) adverse effects include
- Extrapyramidal side effects such as: (which usually become apparent soon after therapy is begun or soon after an increase in dose is made)
- Dry mouth
- Constipation
- Hypersalivation – excessive salivation
- Blurred vision
- Diaphoresis – excessive sweating
- Nausea
- Dizziness
- Somnolence
- Restlessness
- Insomnia
- Overactivity
- Headache
- Nervousness
- Fatigue
- Myalgia
- Hyperprolactinemia and its complications such as: (acutely)
- Sexual dysfunction
- Amenorrhea – cessation of menstrual cycles
- Gynecomastia – enlargement of breast tissue in males
- Galactorrhea – the expulsion of breast milk that's not related to breastfeeding or pregnancy
- and if the hyperprolactinemia persists chronically, the following adverse effects may be seen:
- Reduced bone mineral density leading to osteoporosis (brittle bones)
- Infertility
- Dyspepsia – indigestion
- Abdominal pain
- Flatulence
- Nasal congestion
- Polyuria – passing more urine than usual
- Uncommon (0.1–1% incidence) adverse effects include
- Fainting
- Palpitations
- Rare (<0.1% incidence) adverse effects include
- Blood dyscrasias (abnormalities in the cell composition of blood), such as:
- Agranulocytosis – a drop in white blood cell counts that leaves one open to potentially life-threatening infections
- Neutropenia – a drop in the number of neutrophils (white blood cells that specifically fight bacteria) in one's blood
- Leucopenia – a less severe drop in white blood cell counts than agranulocytosis
- Thrombocytopenia – a drop in the number of platelets in the blood. Platelets are responsible for blood clotting and hence this leads to an increased risk of bruising and other bleeds
- Neuroleptic malignant syndrome – a potentially fatal condition that appear to result from central D2 receptor blockade. The symptoms include:
- Hyperthermia
- Muscle rigidity
- Rhabdomyolysis
- Autonomic instability (e.g., tachycardia, diarrhea, diaphoresis, etc.)
- Mental status changes (e.g., coma, agitation, anxiety, confusion, etc.)
- Unknown incidence adverse effects include
- Jaundice
- Abnormal liver function test results
- Tardive dyskinesia – an often incurable movement disorder that usually results from years of continuous treatment with antipsychotic drugs, especially typical antipsychotics like flupenthixol. It presents with repetitive, involuntary, purposeless and slow movements; TD can be triggered by a fast dose reduction in any antipsychotic.
- Hypotension
- Confusional state
- Seizures
- Mania
- Hypomania
- Depression
- Hot flush
- Anergia
- Appetite changes
- Weight changes
- Hyperglycemia – high blood glucose (sugar) levels
- Abnormal glucose tolerance
- Pruritus – itchiness
- Rash
- Dermatitis
- Photosensitivity – sensitivity to light
- Oculogyric crisis
- Accommodation disorder
- Sleep disorder
- Impaired concentration
- Tachycardia
- QTc interval prolongation – an abnormality in the electrical activity of the heart that can lead to potentially fatal changes in heart rhythm (only in overdose or <10 ms increases in QTc)
- Torsades de pointes
- Miosis – constriction of the pupil of the eye
- Paralytic ileus – paralysis of the bowel muscles leading to severe constipation, inability to pass wind, etc.
- Mydriasis
- Glaucoma
Interactions
It should not be used concomitantly with medications known to prolong the QTc interval (e.g., 5-HT3 antagonists, tricyclic antidepressants, citalopram, etc.) as this may lead to an increased risk of QTc interval prolongation. Neither should it be given concurrently with lithium (medication) as it may increase the risk of lithium toxicity and neuroleptic malignant syndrome. It should not be given concurrently with other antipsychotics due to the potential for this to increase the risk of side effects, especially neurological side effects such as neuroleptic malignant syndrome. It should be avoided in patients on CNS depressants such as opioids, alcohol and barbiturates.
Contraindications
It should not be given in the following disease states:
- Pheochromocytoma
- Prolactin-dependent tumors such as pituitary prolactinomas and breast cancer
- Long QT syndrome
- Coma
- Circulatory collapse
- Subcortical brain damage
- Blood dyscrasia
- Parkinson's disease
- Dementia with Lewy bodies
Pharmacology
Pharmacodynamics
Binding profile
Protein | cis-flupentixol | trans-flupentixol |
---|---|---|
5-HT1A | 8028 | — |
5-HT2A | 87.5 (HFC) | — |
5-HT2C | 102.2 (RC) | — |
mAChRs | Neg. | Neg. |
D1 | 3.5 | 474 (MB) |
D2 | 0.35 | 120 |
D3 | 1.75 | 162.5 |
D4 | 66.3 | >1000 |
H1 | 0.86 | 5.73 |
Acronyms used:
HFC – Human frontal cortex receptor
MB – Mouse brain receptor
RC – Cloned rat receptor
A study measuring the in vivo receptor occupancies of 13 schizophrenic patients treated with 5.7 ± 1.4 mg/day of flupentixol found 50-70% receptor occupancy for D2, 20 ± 5% for D1, and 20 ± 10% for 5-HT2A.
Its antipsychotic effects are predominantly a function of D2 antagonism.
Its antidepressant effects at lower doses are not well understood; however, it may be mediated by functional selectivity and/or preferentially binding to D2 autoreceptors at low doses, resulting in increased postsynaptic activation via higher dopamine levels. Flupentixol's demonstrated ability to raise dopamine levels in mice and flies lends credibility to the supposition of autoreceptor bias. Functional selectivity may be responsible through causing preferential autoreceptor binding or other means. The effective dosage guideline for an antipsychotic is very closely related to its receptor residency time (i.e., where drugs like aripiprazole take several minutes or more to disassociate from a receptor while drugs like quetiapine and clozapine—with guideline dosages in the hundreds of milligrams—take under 30s) and long receptor residency time is strongly correlated with likehood of pronounced functional selectivity; thus, with a maximum guideline dose of only 18 mg/day for schizophrenia, there is a significant possibility of this drug possessing unique signalling characteristics that permit counterintuitive dopaminergic action at low doses.
Pharmacokinetics
Medication | Brand name | Class | Vehicle | Dosage | Tmax | t1/2 single | t1/2 multiple | logP | Ref |
---|---|---|---|---|---|---|---|---|---|
Aripiprazole lauroxil | Aristada | Atypical | Water | 441–1064 mg/4–8 weeks | 24–35 days | ? | 54–57 days | 7.9–10.0 | |
Aripiprazole monohydrate | Abilify Maintena | Atypical | Water | 300–400 mg/4 weeks | 7 days | ? | 30–47 days | 4.9–5.2 | |
Bromperidol decanoate | Impromen Decanoas | Typical | Sesame oil | 40–300 mg/4 weeks | 3–9 days | ? | 21–25 days | 7.9 | |
Clopentixol decanoate | Sordinol Depot | Typical | Viscoleo | 50–600 mg/1–4 weeks | 4–7 days | ? | 19 days | 9.0 | |
Flupentixol decanoate | Depixol | Typical | Viscoleo | 10–200 mg/2–4 weeks | 4–10 days | 8 days | 17 days | 7.2–9.2 | |
Fluphenazine decanoate | Prolixin Decanoate | Typical | Sesame oil | 12.5–100 mg/2–5 weeks | 1–2 days | 1–10 days | 14–100 days | 7.2–9.0 | |
Fluphenazine enanthate | Prolixin Enanthate | Typical | Sesame oil | 12.5–100 mg/1–4 weeks | 2–3 days | 4 days | ? | 6.4–7.4 | |
Fluspirilene | Imap, Redeptin | Typical | Water | 2–12 mg/1 week | 1–8 days | 7 days | ? | 5.2–5.8 | |
Haloperidol decanoate | Haldol Decanoate | Typical | Sesame oil | 20–400 mg/2–4 weeks | 3–9 days | 18–21 days | 7.2–7.9 | ||
Olanzapine pamoate | Zyprexa Relprevv | Atypical | Water | 150–405 mg/2–4 weeks | 7 days | ? | 30 days | – | |
Oxyprothepin decanoate | Meclopin | Typical | ? | ? | ? | ? | ? | 8.5–8.7 | |
Paliperidone palmitate | Invega Sustenna | Atypical | Water | 39–819 mg/4–12 weeks | 13–33 days | 25–139 days | ? | 8.1–10.1 | |
Perphenazine decanoate | Trilafon Dekanoat | Typical | Sesame oil | 50–200 mg/2–4 weeks | ? | ? | 27 days | 8.9 | |
Perphenazine enanthate | Trilafon Enanthate | Typical | Sesame oil | 25–200 mg/2 weeks | 2–3 days | ? | 4–7 days | 6.4–7.2 | |
Pipotiazine palmitate | Piportil Longum | Typical | Viscoleo | 25–400 mg/4 weeks | 9–10 days | ? | 14–21 days | 8.5–11.6 | |
Pipotiazine undecylenate | Piportil Medium | Typical | Sesame oil | 100–200 mg/2 weeks | ? | ? | ? | 8.4 | |
Risperidone | Risperdal Consta | Atypical | Microspheres | 12.5–75 mg/2 weeks | 21 days | ? | 3–6 days | – | |
Zuclopentixol acetate | Clopixol Acuphase | Typical | Viscoleo | 50–200 mg/1–3 days | 1–2 days | 1–2 days | 4.7–4.9 | ||
Zuclopentixol decanoate | Clopixol Depot | Typical | Viscoleo | 50–800 mg/2–4 weeks | 4–9 days | ? | 11–21 days | 7.5–9.0 | |
Note: All by intramuscular injection. Footnotes: = Microcrystalline or nanocrystalline aqueous suspension. = Low-viscosity vegetable oil (specifically fractionated coconut oil with medium-chain triglycerides). = Predicted, from PubChem and DrugBank. Sources: Main: See template. |
History
In March 1963 the Danish pharmaceutical company Lundbeck began research into further agents for schizophrenia, having already developed the thioxanthene derivatives clopenthixol and chlorprothixene. By 1965 the promising agent flupenthixol had been developed and trialled in two hospitals in Vienna by Austrian psychiatrist Heinrich Gross. The long- acting decanoate preparation was synthesised in 1967 and introduced into hospital practice in Sweden in 1968, with a reduction in relapses among patients who were put on the depot.
References
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