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Imipramine

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Imipramine
Imipramine.svg
Imipramine-3D-balls.png
Clinical data
Trade names Tofranil, Tofranil-PM, others
Other names Melipramine; G-22355
AHFS/Drugs.com Monograph
MedlinePlus a682389
License data
Pregnancy
category
  • AU: C
Routes of
administration
By mouth, intramuscular injection
ATC code
Legal status
Legal status
Pharmacokinetic data
Bioavailability 94–96%
Protein binding 86%
Metabolism Liver (CYP1A2, CYP2C19, CYP2D6)
Metabolites Desipramine
Elimination half-life 20 hours
Excretion Kidney (80%), fecal (20%)
Identifiers
  • 3-(10,11-dihydro-5H-dibenzo[b,f]azepin-5-yl)-N,N-dimethylpropan-1-amine
CAS Number
PubChem CID
IUPHAR/BPS
DrugBank
ChemSpider
UNII
KEGG
ChEBI
ChEMBL
PDB ligand
CompTox Dashboard (EPA)
ECHA InfoCard 100.000.039
Chemical and physical data
Formula C19H24N2
Molar mass 280.415 g·mol−1
3D model (JSmol)
  • CN(C)CCCN1c2ccccc2CCc2ccccc21
  • InChI=1S/C19H24N2/c1-20(2)14-7-15-21-18-10-5-3-8-16(18)12-13-17-9-4-6-11-19(17)21/h3-6,8-11H,7,12-15H2,1-2H3 checkY
  • Key:BCGWQEUPMDMJNV-UHFFFAOYSA-N checkY
  (verify)


Imipramine, sold under the brand name Tofranil, among others, is a tricyclic antidepressant (TCA) mainly used in the treatment of depression. It is also effective in treating anxiety and panic disorder. Imipramine may also be used off-label for nocturnal enuresis and chronic pain. Imipramine is taken by mouth.

Common side effects of imipramine include dry mouth, drowsiness, dizziness, low blood pressure, rapid heart rate, urinary retention, and electrocardiogram changes. Overdose of the medication can result in death. Imipramine appears to work by increasing levels of serotonin and norepinephrine and by blocking certain serotonin, adrenergic, histamine, and cholinergic receptors.

Imipramine was discovered in 1951 and was introduced for medical use in 1957. It was the first TCA to be marketed. Imipramine and the other TCAs have decreased in use in recent decades, due to the introduction of the selective serotonin reuptake inhibitors (SSRIs), which have fewer side effects and are far safer in overdose.

Medical uses

Imipramine is used in the treatment of depression and certain anxiety disorders. It is similar in efficacy to the antidepressant drug moclobemide. It has also been used to treat nocturnal enuresis because of its ability to shorten the time of delta wave stage sleep, where wetting occurs. In veterinary medicine, imipramine is used with xylazine to induce pharmacologic ejaculation in stallions. Blood levels between 150 and 250 ng/mL of imipramine plus its metabolite desipramine generally correspond to antidepressant efficacy.

Available forms

Imipramine is available in the form of oral tablets and capsules.

Contraindications

Combining it with alcohol consumption causes excessive drowsiness. It may be unsafe during pregnancy.

Side effects

These side effects can be contributed to the multiple receptors that imipramine targets such as serotonin, norepinephrine, dopamine, acetylcholine, epinephrine, histamine. Those listed in italics below denote common side effects, separated by the organ systems that are affected.

Overdose

Interactions

Pharmacology

Pharmacodynamics

Imipramine (and metabolite)
Site IMI DSI Species Ref
SERT 1.3–1.4 17.6–163 Human
NET 20–37 0.63–3.5 Human
DAT 8,500 3,190 Human
5-HT1A ≥5,800 ≥6,400 Human
5-HT2A 80–150 115–350 Human
5-HT2C 120 244–748 Human/rat
5-HT3 970–3,651 ≥2,500 Rodent
5-HT6 190–209 ND Rat
5-HT7 >1,000 >1,000 Rat
α1 32 23–130 Human
α2 3,100 ≥1,379 Human
β >10,000 ≥1,700 Rat
D1 >10,000 5,460 Human
D2 620–726 3,400 Human
D3 387 ND Human
H1 7.6–37 60–110 Human
H2 550 1,550 Human
H3 >100,000 >100,000 Human
H4 24,000 9,550 Human
mACh 46 66–198 Human
  M1 42 110 Human
  M2 88 540 Human
  M3 60 210 Human
  M4 112 160 Human
  M5 83 143 Human
α3β4 410–970 ND Human
σ1 332–520 1,990–4,000 Rodent
σ2 327–2,100 ≥1,611 Rat
hERG 3,400 ND Human
Values are Ki (nM). The smaller the value, the more strongly the drug binds to the site.

Imipramine affects numerous neurotransmitter systems known to be involved in the etiology of depression, anxiety, attention-deficit hyperactivity disorder (ADHD), enuresis and numerous other mental and physical conditions. Imipramine is similar in structure to some muscle relaxants, and has a significant analgesic effect and, thus, is very useful in some pain conditions.

The mechanisms of imipramine's actions include, but are not limited to, effects on:

  • Serotonin: very strong reuptake inhibition. Imipramine is a tertiary TCA, and is a potent inhibitor of serotonin reuptake, and to a greater extent than secondary amine TCAs such as nortriptyline and despiramine. [1]
  • Norepinephrine: strong reuptake inhibition. Desipramine has more affinity to norepinephrine transporter than imipramine.
  • Dopamine: imipramine blocks D2 receptors. Imipramine, and its metabolite desipramine, have no appreciable affinity for the dopamine transporter (Ki = 8,500 and >10,000 nM, respectively).
  • Acetylcholine: imipramine is an anticholinergic, specifically an antagonist of the muscarinic acetylcholine receptors. Thus, it is prescribed with caution to the elderly and with extreme caution to those with psychosis, as the general brain activity enhancement in combination with the "dementing" effects of anticholinergics increases the potential of imipramine to cause hallucinations, confusion and delirium in this population.
  • Epinephrine: imipramine antagonizes adrenergic receptors, thus sometimes causing orthostatic hypotension.
  • Sigma receptor: activity on sigma receptors is present, but it is very weak (Ki = 520 nM) and it is about half that of amitriptyline (Ki = 300 nM).
  • Histamine: imipramine is an antagonist of the histamine H1 receptors.
  • BDNF: BDNF is implicated in neurogenesis in the hippocampus, and studies suggest that depressed patients have decreased levels of BDNF and reduced hippocampal neurogenesis. It is not clear how neurogenesis restores mood, as ablation of hippocampal neurogenesis in murine models do not show anxiety related or depression related behaviours. Chronic imipramine administration results in increased histone acetylation (which is associated with transcriptional activation and decondensed chromatin) at the hippocampal BDNF promoter, and also reduced expression of hippocampal HDAC5.

Pharmacokinetics

Within the body, imipramine is converted into desipramine (desmethylimipramine) as a metabolite.

Chemistry

Imipramine is a tricyclic compound, specifically a dibenzazepine, and possesses three rings fused together with a side chain attached in its chemical structure. Other dibenzazepine TCAs include desipramine (N-desmethylimipramine), clomipramine (3-chloroimipramine), trimipramine (2′-methylimipramine or β-methylimipramine), and lofepramine (N-(4-chlorobenzoylmethyl)desipramine). Imipramine is a tertiary amine TCA, with its side chain-demethylated metabolite desipramine being a secondary amine. Other tertiary amine TCAs include amitriptyline, clomipramine, dosulepin (dothiepin), doxepin, and trimipramine. The chemical name of imipramine is 3-(10,11-dihydro-5H-dibenzo[b,f]azepin-5-yl)-N,N-dimethylpropan-1-amine and its free base form has a chemical formula of C19H24N2 with a molecular weight of 280.407 g/mol. The drug is used commercially mostly as the hydrochloride salt; the embonate (pamoate) salt is used for intramuscular administration and the free base form is not used. The CAS Registry Number of the free base is 50-49-7, of the hydrochloride is 113-52-0, and of the embonate is 10075-24-8.

History

The parent compound of imipramine, 10,11-dihydro-5H-dibenz[b,f]azepine (dibenzazepine), was first synthesized in 1899, but no pharmacological assessment of this compound or any substituted derivatives was undertaken until the late 1940s. Imipramine was first synthesized in 1951, as an antihistamine. The antipsychotic effects of chlorpromazine were discovered in 1952, and imipramine was then developed and studied as an antipsychotic for use in patients with schizophrenia. The medication was tested in several hundred patients with psychosis, but showed little effectiveness. However, imipramine was serendipitously found to possess antidepressant effects in the mid-1950s following a case report of symptom improvement in a woman with severe depression who had been treated with it. This was followed by similar observations in other patients and further clinical research. Subsequently, imipramine was introduced for the treatment of depression in Europe in 1958 and in the United States in 1959. Along with the discovery and introduction of the monoamine oxidase inhibitor iproniazid as an antidepressant around the same time, imipramine resulted in the establishment of monoaminergic drugs as antidepressants.

In the late 1950s, imipramine was the first TCA to be developed (by Ciba). At the first international congress of neuropharmacology in Rome, September 1958 Dr Freyhan from the University of Pennsylvania discussed as one of the first clinicians the effects of imipramine in a group of 46 patients, most of them diagnosed as "depressive psychosis". The patients were selected for this study based on symptoms such as depressive apathy, kinetic retardation and feelings of hopelessness and despair. In 30% of all patients, he reported optimal results, and in around 20%, failure. The side effects noted were atropine-like, and most patients experienced dizziness. Imipramine was first tried for treating psychotic disorders such as schizophrenia, but proved ineffective. As an antidepressant, it did well in clinical studies and it is known to work well in even the most severe cases of depression. It is not surprising, therefore, that imipramine may cause a high rate of manic and hypomanic reactions in hospitalized patients with pre-existing bipolar disorder, with one study showing that up to 25% of such patients maintained on Imipramine switched into mania or hypomania. Such powerful antidepressant properties have made it favorable in the treatment of treatment-resistant depression.

Before the advent of selective serotonin reuptake inhibitors (SSRIs), its sometimes intolerable side-effect profile was considered more tolerable. Therefore, it became extensively used as a standard antidepressant and later served as a prototypical drug for the development of the later-released TCAs. Since the 1990s, it has no longer been used as commonly, but is sometimes still prescribed as a second-line treatment for treating major depression . It has also seen limited use in the treatment of migraines, ADHD, and post-concussive syndrome. Imipramine has additional indications for the treatment of panic attacks, chronic pain, and Kleine-Levin syndrome. In pediatric patients, it is relatively frequently used to treat pavor nocturnus and nocturnal enuresis.

Society and culture

Generic names

Imipramine is the English and French generic name of the drug and its INN, BAN, and DCF, while imipramine hydrochloride is its USAN, USP, BANM, and JAN. Its generic name in Spanish and Italian and its DCIT are imipramina, in German is imipramin, and in Latin is imipraminum. The embonate salt is known as imipramine pamoate.

Brand names

Imipramine is marketed throughout the world mainly under the brand name Tofranil. Imipramine pamoate is marketed under the brand name Tofranil-PM for intramuscular injection.

Availability

Imipramine is available for medical use widely throughout the world, including in the United States, the United Kingdom, elsewhere in Europe, India, Brazil, South Africa, Australia, and New Zealand.

Prescription trends

Between 1998 and 2017, along with amitriptyline, imipramine was the most commonly prescribed first antidepressant for children aged 5-11 years in England.

Further reading

External links


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