Everything about Tricyclic Antidepressants totally explained
Tricyclic antidepressants (abbreviation
TCA) are a class of
antidepressant drugs first used in the
1950s. They are named after the drugs' molecular structure, which contains three rings of atoms (compare
tetracyclic antidepressant).
Example compounds
The first tricyclic antidepressant discovered was
imipramine, which was discovered accidentally in a search for a new
antipsychotic in the late 1950s.
Antidepressant drugs in the tricyclic drug group (along with their actions as listed in
MeSH) include:
| Name |
Brand |
Norepinephrine reuptake inhibitor |
Serotonin reuptake inhibitor |
Dopamine antagonist |
Histamine antagonist |
| amitriptyline (& butriptyline) |
Elavil, Endep, Tryptanol, Trepiline, Amyzol |
yes |
yes |
|
yes |
| amoxapine |
Asendin, Asendis, Defanyl, Demolox, Moxadil |
yes |
yes |
metabolite |
yes |
| clomipramine |
Anafranil |
metabolite |
yes |
|
|
| desipramine |
Norpramin, Pertofrane |
yes |
|
|
|
| dosulepin hydrochloride (dothiepin hydrochloride) |
Prothiaden, Thaden |
yes |
|
|
|
| doxepin |
Adapin, Sinequan |
yes |
|
|
yes |
| imipramine (& dibenzepin) |
Tofranil, Janimine |
yes |
yes |
|
yes |
| iprindole |
- |
yes |
|
|
|
| lofepramine |
Gamanil |
yes |
|
|
|
| nortriptyline |
Aventyl, Pamelor |
yes |
|
|
|
| opipramol |
Opipramol-neuraxpharm, Insidon |
yes |
|
|
|
| protriptyline |
Vivactil, Rhotrimine |
yes |
|
|
|
| trimipramine |
Surmontil |
yes |
|
|
yes |
Note: Other sources suggest that most of the tricyclics combine adrenergic and serotonergic effects to some degree. This is often reported as selectivity ratios. Some of the above, in order from most selective for nor-epinephrine to most selective for serotonin: lofepramine, nortriptyline, amitriptyline, imipramine, clomipramine.
Amine classification
Tricyclics are sometimes classified as tertiary amines and secondary
amines. In general, the tertiary amines boost serotonin as well as nor-epinephrine (adrenergic) and produce more sedation, anticholinergic effects, and orthostatic hypotension. The secondary amines act primarily on nor-epinephrine and tend to have a lower side-effect profile.
Tertiary amines include: amitriptyline, imipramine, trimipramine, doxepin, clomipramine, and lofepramine.
Secondary amines include: nortriptyline, desipramine, protriptyline, and amoxapine.
Mechanism of action
The exact
mechanism of action isn't well understood, however it's generally thought that tricyclic antidepressants work by inhibiting the
re-uptake of the
neurotransmitters
norepinephrine and
serotonin by neurons. Tricyclics may also possess an affinity for muscarinic and histamine H1 receptors to varying degrees. Although the
pharmacologic effect occurs immediately, often the patient's symptoms don't respond for 2 to 4 weeks. Although
norepinephrine and
dopamine are generally considered stimulatory neurotransmitters, tricyclic antidepressants also increase the effects H1
histamine, and thus most have
sedative effects.
Chemistry of re-uptake inhibitors
The chemical action of re-uptake inhibitors in general was unknown for a long time. In August 2007, two research groups independently reported that the tricyclic molecule docks to the transporter protein in a cavity adjacent to where the neurotransmitter
substrate binds, locking the substrate in place and thereby obstructing re-uptake transport.
Clinical use
Tricyclic antidepressants are used in numerous applications; mainly indicated for the treatment of
clinical depression,
neuropathic pain,
nocturnal enuresis, and
ADHD, but they've also been used successfully for
headache (including
migraine headache),
anxiety,
insomnia,
smoking cessation,
bulimia nervosa,
irritable bowel syndrome,
narcolepsy,
pathological crying or laughing, persistent
hiccups,
interstitial cystitis, and
ciguatera poisoning, and as an adjunct in
schizophrenia. They are not considered addictive and are preferable to the
MAOIs. Side effects usually occur before depression is effectively suppressed; for this reason and via other mechanisms they can be dangerous, as
volition may be increased, giving the patient greater ability to attempt suicide.
ADHD
Tricyclic antidepressants have been shown to be effective in treating
attention-deficit hyperactivity disorder. ADHD is thought to be caused by
dopamine and
norepinephrine shortages in the brain's prefrontal cortex. Tricyclic antidepressants block the reuptake of these neurotransmitters. They are commonly used in patients for whom psychostimulants (the primary medication for ADHD) are ineffective or contraindicted. TCAs are more effective in treating the behavioral aspects of ADHD than the cognitive deficits; they help limit hyperactivity and impulsivity but have little effect on attention.
Analgesia
Tricyclics are also known as effective
analgesics for different types of pain, especially
neuropathic or neuralgic pain (like back pain in
radiculitis). A precise mechanism for their analgesic action is unknown, but it's thought that they modulate
opioid systems in the
CNS via an indirect serotonergic route. Typically pain modification requires lower dosages than for treating depression (for example Amitriptyline at 10 to 30 mg rather than 75 to 150 mg). They are also effective in
migraine prophylaxis, but not in relief of an acute migraine attack. This is also believed to be related to serotonergic effects. There is, however, little evidence for an analgesic effect in acute pain. However, one robust review of tricyclics for the treatment of enuresis found the benefits of tricyclics were relatively small and transient and due to potentially serious adverse effects suggested more research into other methods (
bedwetting alarms, behavioural methods,
desmopressin) which may be better suited for treatment of this condition.
Side effects
Many side effects are related to tricyclics
antimuscarinic actions. The antimuscarinic side effects are relatively common and include:
- Dry mouth (salivary secretion is affected)
- Dry nose
- Blurred vision (accommodation in the eye is affected)
- Decreased gastro-intestinal motility and secretion. This may lead to constipation
- Urinary retention or difficulty with urination
- Hyperthermia
Tolerance to these adverse effects often develops if treatment is continued, side effects may also be less troublesome if treatment is initiated with low dose and then gradually increased, although this may delay the clinical effect.
Other side effects may include drowsiness,
anxiety, restlessness, cognitive and
memory difficulties,
confusion, dizziness,
akathisia,
hypersensitivity reactions, increased appetite with weight gain, sweating, decrease in sexual ability and desire,
muscle twitches, weakness, nausea and vomiting,
hypotension,
tachycardia, and rarely,
irregular heart rhythms. and the availability of these in the home when prescribed for bed wetting and depression.
Symptoms
The
central nervous system and
heart are the two main systems that are affected. Initial or mild symptoms include
drowsiness, a dry mouth,
nausea, and
vomiting. More severe complications, include
hypotension, cardiac rhythm disturbances,
hallucinations, and
seizures.
Electrocardiogram (ECG) abnormalities are frequent and a wide variety of
cardiac dysrhythmias can occur, the most common being sinus tachycardia and intraventricular conduction delay (QRS prolongation). Seizures and cardiac dysrhythmias are the most important life threatening complications.
Toxicity
Tricyclics have a narrow
therapeutic index, for example the therapeutic
dose is close to the toxic dose. In the medical literature the lowest reported toxic dose is 6.7 mg per kg body weight, ingestions of 10 to 20 mg per kilogram of body weight are a risk for moderate to severe poisoning, although doses ranging from 1.5 to 5 mg/kg may even present a risk. Most
poison control centers refer any case of TCA poisoning (especially in children) to a hospital for monitoring. Factors that increase the risk of toxicity include advancing age, cardiac status, and concomitant use of other drugs. However, serum drug levels are not useful for evaluating risk of arrhythmia or seizure in tricyclic overdose.
Toxic mechanism
Most of the toxic effects of TCAs are caused by four major pharmacological effects. TCAs have
anticholinergic effects, cause excessive blockade of
norepinephrine reuptake at the postganglionic
synapse, direct alpha adrenergic blockade, and importantly they block sodium membrane channels with slowing of membrane depolarization, thus having
quinidine like effects on the
myocardium.
Treatment
Initial treatment of an acute overdose includes gastric decontamination of the patient. This is achieved by administering
activated charcoal which
adsorbs the drug in the
gastrointestinal tract either orally or via a
nasogastric tube. Other decontamination methods such as
stomach pumps,
ipecac induced emesis, or
whole bowel irrigation are not recommended in TCA poisoning.
Symptomatic patients are usually monitored in an intensive care unit for a minimum of 12 hours, with close attention paid to maintenance of the airways, along with monitoring of blood pressure, arterial pH, and continuous ECG monitoring. Hypotension is initially treated with fluids along with bicarbonate to reverse
metabolic acidosis (if present), if the patient remains hypotensive despite fluids then further measures such as the administration of
epinephrine,
norepinephrine, or
dopamine can be used to increase blood pressure.
Development history
Tricyclic antidepressants were developed amid the "explosive birth" of psychopharmacology in the early 1950s. The story begins with the synthesis of
Chlorpromazine in December 1950 by
Rhône-Poulenc's chief chemist,
Paul Charpentier, from synthetic
antihistamines developed by Rhône-Poulenc in the 1940s. Its psychiatric effects were first noticed at a hospital in Paris in 1952. The first widely-used psychiatric drug, by 1955 it was already generating significant revenue as an
antipsychotic. Research chemists quickly began to explore other derivatives of chlorpromazine.
The first TCA reported for the treatment of depression was
imipramine, an imino-dibenzyl analogue of chlorpromazine code-named G22355. It wasn't originally targeted for the treatment of depression. The drug's tendency to induce manic effects was "later described as 'in some patients, quite disastrous'". The paradoxical observation of a sedative inducing mania lead to testing with depressed patients. The first trial of imipramine took place in 1955 and the first report of antidepressant effects was published by Swiss psychiatrist
Ronald Kuhn in 1957. Some testing of Geigy’s imipramine, then known as Tofranil, took place at the
Münsterlingen Hospital near Konstanz. Geigy later became Ciba-Geigy and eventually
Novartis.
Many patents were filed in the 1950s and 1960s concerning variations on these three-ring structures with applications to psychiatric conditions.
Phenothiazine derivatives are described in U.S. patent 2,591,679 issued 1952-04-08 to John W. Cusic. The compounds described contain a sulfur group on the central carbon ring, and a nitrogen atom in the cental ring to which the side chain attaches, in the manner of chlorpromazine. Most of the illustrated side chains contain an amine group.
Dibenzazepine derivatives are described in U.S. patent 3,074,931 issued 1963-01-22 by assignment to Smith Kline & French Laboratories. The compounds described share a tricyclic backbone identical to the backbone of the TCA amitriptyline and family of side chains typical of early TCA drugs.
Merck introduced the second member of the TCA family, amitriptyline (Elavil), in 1961.
These patents cover the structures of the compounds and their mode of chemical synthesis. Understanding of their mode of action as re-uptake inhibitors and development of the serotonin theory of depression came in the years to follow.
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