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Rybakowski, J.K. Application of Antipsychotic Drugs in Mood Disorders. Encyclopedia. Available online: https://encyclopedia.pub/entry/41972 (accessed on 18 May 2024).
Rybakowski JK. Application of Antipsychotic Drugs in Mood Disorders. Encyclopedia. Available at: https://encyclopedia.pub/entry/41972. Accessed May 18, 2024.
Rybakowski, Janusz K.. "Application of Antipsychotic Drugs in Mood Disorders" Encyclopedia, https://encyclopedia.pub/entry/41972 (accessed May 18, 2024).
Rybakowski, J.K. (2023, March 08). Application of Antipsychotic Drugs in Mood Disorders. In Encyclopedia. https://encyclopedia.pub/entry/41972
Rybakowski, Janusz K.. "Application of Antipsychotic Drugs in Mood Disorders." Encyclopedia. Web. 08 March, 2023.
Application of Antipsychotic Drugs in Mood Disorders
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This entry is adapted from the peer-reviewed paper 10.3390/brainsci13030414

Since their first application in psychiatry seventy years ago, antipsychotic drugs, besides schizophrenia, have been widely used in the treatment of mood disorders. First-generation antipsychotics (FGAs), such as phenothiazines and haloperidol, were mainly applied for the treatment of acute mania, as well as psychotic depression when combined with antidepressants. The second-generation, so-called atypical antipsychotics (SGAs), such as clozapine, risperidone, olanzapine, and quetiapine, have antimanic activity and are also effective for the maintenance treatment of bipolar disorder. Additionally, quetiapine exerts therapeutic action in bipolar depression. Among third-generation antipsychotics (TGAs) aripiprazole and cariprazine have antimanic activity, lurasidone, cariprazine, lumateperone exert a significant antidepressant effect in bipolar depression; while there is evidence for the efficacy of aripiprazole and lurasidone in the prevention of recurrence in bipolar disorder.

antipsychotic drugs first generation second generation third generation

1. Introduction

In 1952, French psychiatrists led by Jean Delay reported the therapeutic (antipsychotic) effect of the phenothiazine derivate, chlorpromazine. Another important year in the history of these drugs is 1957, when the antipsychotic effect of haloperidol, a butyrophenone derivate, was described by Belgian psychiatrists [1]. Another significant date could be 1963, when Swedish pharmacologists suggested that the pharmacological mechanism of chlorpromazine and haloperidol is connected with their effect on the dopaminergic system of the brain [2].
After chlorpromazine, many aliphatic and piperazine derivatives of phenothiazine showing antipsychotic activity entered psychiatric treatment, including, e.g., fluphenazine, having the first long-acting injectable (LAI) preparation. Based on the structural similarity to phenothiazines, thioxanthene derivatives were also initiated as a group of antipsychotics. A few of the latter, namely, clopenthixol and flupentixol, have been among the most popular LAI antipsychotics in Europe [3]. Besides phenothiazine, thioxanthene, and butyrophenone substances, the antipsychotic drugs of benzamide structure should be mentioned, with the first of them being sulpiride, introduced in 1968 [4].

1.1. First-Generation Antipsychotic Drugs

The medications listed above are traditionally regarded as belonging to the first generation of antipsychotic drugs (FGAs). Their main mechanism of action, as suggested by Carlsson and Lindqvist for chlorpromazine and haloperidol, is connected with their effect on the dopaminergic system of the brain [2]. Nearly 60 years after this publication, it can be stated that such a mechanism has pertained to all antipsychotic drugs used to date. Some of the first-generation antipsychotics (e.g., haloperidol and sulpiride) can be regarded as relatively “pure” dopaminergic blockers, whereas many others also exert some effects on adrenergic, muscarinergic, and histaminergic receptors.
The dopaminergic concept of antipsychotic action has undergone, in subsequent years, a gradual refinement. In 1966, van Rossum put forward a hypothesis that the mechanism of antipsychotic drugs is due to the blockade of dopaminergic receptors [5]. A decade later, Seeman et al. [6] demonstrated that the main dopamine receptors involved in antipsychotic activity are D2 ones. In the last decade, support for a connection between the dopaminergic D2 receptor and psychosis (schizophrenia) was also provided from a major molecular genetic study, where the D2 receptor gene was one of the 108 schizophrenia-associated genetic loci [7].

1.2. Second-Generation Antipsychotic Drugs

The so-called second-generation or atypical antipsychotics (SGAs), with the exception of clozapine, were mostly introduced in the 1990s. The pharmacological difference between second- and first-generation antipsychotics could be that the former, besides the dopaminergic blockade, also exerts a significant effect on other neurotransmitter systems, mainly serotonergic (5-HT). On the clinical side, second-generation antipsychotic drugs are supposed to induce fewer motor side effects and have a broader spectrum of therapeutic activity in schizophrenia, targeting, e.g., cognitive and negative symptoms. The latter symptoms are usually improved with low doses of these drugs, while higher doses are most efficient in treating positive (psychotic) symptoms. Another difference with the first generation of antipsychotics may be that the second-generation ones exert various degrees of neuroprotective effects, often in a dose-dependent manner [8].
It transpired that the real precursor of atypical antipsychotic drugs was clozapine. The drug was introduced in Europe in the 1970s, although preclinical studies did not indicate its “neuroleptic” activity. On the other hand, the observations of the clinical action of clozapine contradicted the belief of the time that an antipsychotic effect should be accompanied by extrapyramidal symptoms [9]. In 1975, shortly after the introduction of the drug in Finland, there was an epidemic of 16 cases of agranulocytosis in patients treated with clozapine. Among them, eight subjects died due to a secondary infection [10]. Following this event, in the late 1970s, clozapine was suspended for several years, and after re-introduction, the requirement of frequent monitoring of the leukocyte system was established. At the turn of 1989/1990, the use of clozapine was initiated in the USA, where it experienced a therapeutic revival. It was found that the drug was very efficient in treatment-resistant schizophrenia [11]. Secondly, the main pharmacological mechanism of clozapine was suggested as involving the blockade of both D2 and 5-HT2 receptors, paving the way to such an interpretation of mechanisms for further atypical (second-generation) antipsychotics [12]. Thirdly, the observations in mood disorders, mainly in bipolar mania, resulted in a suggestion that the drug may possess mood-stabilizing properties [13]. Thus, clozapine became the first representative of the so-called second generation of mood-stabilizing drugs and preceded other atypical antipsychotics in this respect.
Second-generation antipsychotic drugs, besides clozapine, include amisulpride, asenapine, olanzapine, paliperidone, quetiapine, risperidone, sertindole, and ziprasidone. The family of these diverse drugs shows significant intraindividual differences concerning affinity to various receptors and their influence on motor and metabolic symptoms, as well as their effect on prolactin levels. As far as receptor affinity is concerned, an exception could be amisulpride, which does not exert any effect on serotonergic receptors. Other representatives of this group all act on serotonergic 5-HT2 receptors but show differences in their effect on other serotonin receptors, as well as histamine, adrenergic, and muscarinic ones.

1.3. Third-Generation Antipsychotic Drugs

It can be assumed that the concept of the third generation of antipsychotics (TGAs) started with the introduction of aripiprazole because the drug was distinct from all previous antipsychotics with respect to the effect on dopamine neurotransmission, being the partial agonist of dopamine D2 receptors [14]. However, other features of the TGA were indicated, such as the effects on dopamine D3 receptors and various serotonin receptors, especially 5-HT1A and 5-HT7 [15]. On the clinical side, the pro-cognitive and anti-negative effects of TGA in schizophrenia were found to be positively associated with the dose, while in the case of SGA, they showed a negative correlation.
To be more specific, both aripiprazole and brexpiprazole are partial agonists of D2, D3, and 5-HT1A receptors and antagonists of 5-HT2A, 5-HT2C, and 5-HT-7 receptors. The difference is that brexpiprazole is also an antagonist of alpha-1 adrenergic and H1 histaminergic receptors, which makes it a little more sedative than aripiprazole. The next partial agonist of D2, D3, and 5-HT1A receptors is cariprazine, which is also an antagonist of 5-HT2B receptors. Cariprazine has also the highest affinity to D3 receptors [16]. Lurasidone and lumateperone are also counted as belonging to the TGAs although both are antagonists of D2 receptors. However, besides this, lurasidone is an antagonist of 5-HT2A and 5-HT7 receptors and a partial agonist of 5-HT1A receptors, and lumateperone is a partial agonist of D3 and 5-HT1A receptors and an inhibitor of serotonin transporters [17].
Since their introduction into the psychiatric armamentarium seventy years ago, antipsychotic drugs have been widely used therapeutically in various aspects of mood disorders.

2. Application of the First Generation of Antipsychotic Drugs

2.1. Mania

As far as mood disorders are concerned, the "classical " antipsychotic drugs, after their launch into psychiatry, found their leading application in the treatment of mania. During this time, the therapeutic effect of lithium on mania became known. In 1949, John Cade, an Australian psychiatrist, described a favorable effect of lithium carbonate in ten manic patients [18]. The antimanic effect of lithium was further demonstrated in a larger group of patients by Australian investigators [19] and in a placebo-controlled study by Danish researchers led by Mogens Schou in 1954 [20]. The usefulness of chlorpromazine, as well as indications for the employment of this drug in mania, was voiced shortly after its initiation in psychiatry, even before the introduction of haloperidol [21][22]. About two decades later, a comparison of chlorpromazine and lithium carbonate performed by Japanese researchers found this antipsychotic drug inferior to lithium in its antimanic efficacy [23]. Additionally, a comparison of the efficacy of chlorpromazine with electroconvulsive therapy (ECT) in mania showed that, although both treatment modalities were effective, ECT was also helpful in chlorpromazine nonresponders [24].
Haloperidol, the other most important antipsychotic drug of the first generation, in the years after its initiation in psychiatry, showed high efficacy in the treatment of mania. The effect was especially rapid when the drug was given intramuscularly or intravenously [25]. In a comparative study performed in 1975, haloperidol was similar to lithium in causing a highly significant improvement in manic symptoms without sedation [26]. More than three decades later, in a meta-analysis of the comparative efficacy of antimanic drugs, haloperidol outperformed both typical and atypical antipsychotic drugs, as well as lithium and anticonvulsants [27]. From the current perspective, haloperidol has remained one of the most valuable and effective drugs for the treatment of mania [28]. The possibility of using haloperidol in intramuscular injections and LAI form additionally emphasizes its usefulness.

2.2. Psychotic Depression

As another indication for the use of the first generation of antipsychotic drugs, the treatment of delusional depression, both unipolar and bipolar, emerged. In such situations, a combination of typical antipsychotics with tricyclic antidepressant drugs was attempted. The most frequent composite was that of antipsychotic perphenazine and antidepressant amitriptyline [29]. However, favorable experiences with adding haloperidol as well as zotepine to an antidepressant were also reported [30].

3. Application of Second-Generation Antipsychotic Drugs

3.1. Mania

3.1.1. Clozapine

Clozapine is a highly effective drug in the treatment of acute manic episodes. However, no randomized controlled trials have been performed with clozapine in mania, and its use is “off-label”. Nevertheless, a recent systematic review and meta-analysis showed that the antimanic efficacy of clozapine is similar to other antipsychotics and superior among treatment-resistant cases [31]. The attempt of using clozapine in treatment-resistant mania was also advised by leading experts in bipolar disorder [28][32]. The latest Polish standards of pharmacological treatment of mania suggest the use of clozapine in mania after a lack of significant improvement following 4–8 weeks of treatment with other antipsychotics or/and mood stabilizers [33].

3.1.2. Olanzapine

In the treatment of mania, excellent clinical efficacy and good tolerance of olanzapine, in doses of 10-20 mg/day, have been demonstrated [34]. According to a comparative analysis, olanzapine exhibits the best profile of efficacy and tolerability [27]. In manic episodes, short-acting injections of the drug are very useful. Olanzapine also obtained Food and Drug Administration (FDA) approval for the treatment of manic/mixed episodes in pediatric bipolar disorder [35]. Olanzapine, combined with lithium or valproate, potentiates their therapeutic effects on mania concerning psychotic, manic, mixed, and depressive symptoms [36].

3.1.3. Quetiapine

In the manic state, quetiapine is effective at doses of 400-800 mg/day, and its efficacy is similar to that of lithium. Besides adult patients, quetiapine also obtained FDA approval for manic/mixed episodes in pediatric bipolar subjects [35]. A combination of quetiapine with lithium or valproate is significantly more effective in the treatment of manic episodes than any of these first-generation mood stabilizers used in monotherapy [37].

3.1.4. Risperidone

Like other atypical antipsychotics, risperidone at doses of 1-6 (average 3-4) mg/day shows significant antimanic properties [38]. Risperidone, second to olanzapine, shows the best efficacy and tolerance in manic episodes [27]. The drug is also approved by FDA for manic/mixed episodes in pediatric bipolar illness [35]. A combination of risperidone with lithium or valproate is significantly more effective in the treatment of manic episodes than any of these mood stabilizers alone [39].

3.1.5. Asenapine

Asenapine, at doses of 10-20 mg/day shows good efficacy and tolerability in the treatment of mania, as was confirmed in a meta-analysis published in 2013 [40]. In the recent guidelines of the Canadian Network for Mood and Anxiety Treatments (CANMATs) created by a panel of the most eminent international experts, asenapine is considered one of the most important drugs for the treatment of manic episodes [41]. The drug is approved both in Europe and in the USA for the treatment of manic or mixed episodes of adult and pediatric bipolar illness [42]. Asenapine when added to mood stabilizer monotherapy significantly augments the effect of treatment [43].

3.1.6. Ziprasidone

Ziprasidone was also found efficacious and had good tolerability in mania [44]. For psychomotor agitation in mania, intramuscular injections of the drug could be also useful. On the other hand, out of all atypical antipsychotics, the use of ziprasidone was most probably associated with the induction of manic symptoms [45].

3.2. Prophylaxis of Bipolar Disorder

3.2.1. Clozapine

Similar to mania, no randomized controlled trials have been performed with the long-term use of clozapine, and its employment in such indication is “off-label”. However, clinical experience indicates the usefulness of clozapine in the prevention of severe and drug-resistant forms of bipolar affective disorder. A systematic review of long-term clozapine use in the treatment of drug-resistant bipolar affective disorder covering 15 studies with over 1000 patients was performed in 2015. Clozapine monotherapy or its combination with other mood-stabilizing drugs resulted in a significant improvement in terms of manic symptoms, depression, psychosis, and rapid cycling, and a significant proportion of the patients experienced a significant general improvement or even remission [46]. The latest Polish standards suggest the long-term use of clozapine in treatment-resistant bipolar patients, with adequate monitoring of the hematological system. Concomitant use of lithium can diminish the risk of leukopenia. The predictive factor for good prophylactic efficacy of clozapine in bipolar affective disorder is severe manic episodes with psychotic symptoms and significant agitation. [33].

3.2.2. Olanzapine

Many controlled studies have been performed on the prophylactic efficacy of olanzapine monotherapy in bipolar affective disorder in comparison to placebo and first-generation mood-stabilizing drugs. The prophylactic efficacy of olanzapine monotherapy is high, mainly concerning manic rather than depressive episodes. It is particularly true in patients for whom olanzapine has been effective during an acute manic episode [47]. In a comparative study on olanzapine and lithium, the rate of mania recurrence was significantly lower for olanzapine [48]. In Polish standards, olanzapine monotherapy is considered to be the first-line treatment for long-term therapy in type I bipolar disorder with a predominance of manic episodes [33]. The efficacy of therapy combining olanzapine with lithium or valproate has also been studied showing that the prophylactic effect was augmented after adding olanzapine to lithium or valproate monotherapy [49]. The application of LAI olanzapine could further increase its prophylactic effectiveness, although no controlled trial on this issue has been performed yet. Additionally, because the main adverse somatic result of olanzapine is weight gain, and mood disorder patients are more prone to this effect, a combination of olanzapine with samidorphan may be helpful for many patients [50].

3.2.3. Quetiapine

Unlike other antipsychotics of the second generation, preventing mostly manic recurrences, quetiapine monotherapy in bipolar mood disorder effectively prevents both manic and depressive episodes. In the prevention of depression recurrences, quetiapine monotherapy was similarly efficacious as lithium monotherapy [37]. A better prophylactic effect after adding quetiapine to lithium or valproate monotherapy has also been found [51]. A four-year comparison of the prophylactic efficacy of quetiapine in monotherapy or combination with other mood stabilizers showed that the percentage of patients without recurrences on quetiapine monotherapy was 29.3%. However, when combining quetiapine with lithium, no recurrences occurred in 80% and, with valproate, in 78.3% of patients [52].

3.2.4. Risperidone

Beneficial long-term effects of risperidone on bipolar affective disorder were found when the drug was added to first-generation mood-stabilizing drugs [53]. Additionally, in 2010, a study lasting 2 years indicated that risperidone monotherapy in the form of LAI showed a significant prophylactic effect concerning recurrences of manic episodes in patients with type I bipolar affective disorder [54].

3.2.5. Paliperidone

In a randomized, long-term placebo-controlled study, paliperidone extended-release tablets significantly prevented manic but not depressive episodes in patients with bipolar I disorder when started after an acute manic or mixed episode [54].

3.2.6. Asenapine

The long-term prophylactic efficacy of asenapine was investigated in a randomized, placebo-controlled study. The drug significantly prevented both manic and depressive episodes in patients with bipolar I disorder when started after an acute manic or mixed episode [55]. Additionally, the addition of asenapine to lithium or valproate significantly augmented their long-term effect [43].

3.2.7. Ziprasidone

There is no study on ziprasidone monotherapy for the maintenance treatment of bipolar disorder. The addition of ziprasidone to monotherapy with lithium or valproate improved their efficacy during 6-month follow-up [56].

3.3. Depression

3.3.1. Quetiapine

In placebo-controlled studies, quetiapine at a dose of 300 or 600 mg/day was found to be effective in the treatment of depression in the course of bipolar affective disorder type I or type II. Comparative studies have shown that the efficacy of quetiapine in this case may be greater than that of lithium [57]. In most guidelines, quetiapine has been recommended as a monotherapy for the treatment of bipolar depression [41]. The drug can also augment the efficacy of antidepressant drugs in treatment-resistant depression both bipolar and unipolar [58].

3.3.2. Olanzapine

In bipolar depression, olanzapine exerts a significant therapeutic effect when combined with fluoxetine. The efficacy of composite olanzapine–fluoxetine treatment of drug-resistant depression and psychotic depression in the course of both bipolar and unipolar affective disorder has also been demonstrated [59]. Olanzapine can also serve for the augmentation of antidepressant drugs in treatment-resistant depression [58].

3.3.3. Risperidone

Risperidone does not exert an antidepressant effect. However, low doses of the drug can be used for the augmentation of antidepressants in treatment-resistant depression [58].

3.3.4. Asenapine

In a post hoc analysis, it was found that asenapine reduced depressive symptoms in bipolar I patients treated for manic or mixed episodes [60]. Recently, a therapeutic effect of asenapine was reported in a small number of patients with bipolar depression [61]

4. Application of Third-Generation Antipsychotics Drugs

4.1. Mania

4.1.1. Aripiprazole

Aripiprazole at doses of 15-30 mg/day exerts a significant antimanic effect, and its therapeutic efficacy is similar to that of lithium. In manic episodes, short-acting injections of this drug can be also useful. A combination of aripiprazole with lithium or valproate is significantly more effective than any of these first-generation mood-stabilizing drugs used in monotherapy [62].

4.1.2. Cariprazine

In a double-blind, placebo-controlled study, cariprazine in both low (3-6 mg/day) and high (6-12 mg/day) doses were efficacious in the treatment of acute and mixed mania [63]. In a recent study, the effectiveness of carbamazepine in combination with lithium or valproate in first-episode mania was also demonstrated [64].

4.2. Depression

4.2.1. Lurasidone

Many studies have demonstrated that, in bipolar depression, treatment with lurasidone monotherapy adjunctive to lithium or valproic acid, in doses of 20 to 120 mg once daily, results in a statistically and clinically significant reduction in depressive symptoms [65]. This was confirmed in meta-analyses and systematic reviews [66].

4.2.2. Cariprazine

The FDA approved cariprazine for the treatment of bipolar depression in 2019 based on the results of three randomized, double-blind, placebo-controlled trials. The results suggested that the drug is an effective and well-tolerated treatment for bipolar depression when used in doses of 1.5-3 mg/day [67].

4.2.3. Lumateperone

Lumateperone at 42 mg/day was recently studied in a phase 3 randomized, placebo-controlled trial. It was found that the drug significantly improved depression symptoms and was generally well tolerated in patients with major depressive episodes associated with both bipolar I and bipolar II disorders [68].

4.2.4. Aripiprazole

Aripiprazole in smaller doses (5-10 mg/day) can be used for the augmentation of antidepressants in case of their sub-optimal efficacy. In the United States, the drug has been recommended for the augmentation of antidepressants in drug-resistant depression [69].

4.3. Prophylaxis of Bipolar Disorder

4.3.1. Aripiprazole

A prophylactic effect of aripiprazole monotherapy was demonstrated in a two-year study, where the drug significantly prevented the recurrence of manic episodes but not depressive ones [70]. A significantly better prophylactic effect after adding aripiprazole to lithium or valproate monotherapy was also obtained [71].

4.3.2. Lurasidone

A large study with up to two years of lurasidone administration in a flexible dose of 20-120 mg, following its use in bipolar depression, showed that the drug was safe and prophylactically efficacious when employed as monotherapy or as an adjunct to lithium or valproate [72]. Lurasidone (20-80 mg/day) combined with lithium or valproate showed a better prophylactic effect on bipolar I disorder than lurasidone placebo [73]. In a most recent 52-week study of Japanese patients with bipolar disorder, lurasidone at 20-120 mg/day, with or without lithium or valproate, maintained improvements in depressive symptoms for previously treated bipolar depressed patients and led to improvements in manic symptoms among a newly recruited subgroup of patients with a recent/current manic, hypomanic, or mixed episode [74].

5. Conclusion

Antipsychotic drugs have been used in the treatment of mood disorders since their introduction seventy years ago. Their first generation was mainly applied for the treatment of acute mania, as well as psychotic depression when combined with antidepressants. However, the development of antipsychotic drugs into the second and third generations during the last three decades saw many of them being increasingly used for the treatment of both acute episodes and long-term prophylaxis of bipolar disorder. Antipsychotics of the second generation besides antimanic activity are also effective for the maintenance treatment of bipolar disorder and quetiapine has a therapeutic effect in bipolar depression. Out of the third generation antipsychotics, aripiprazole and cariprazine have antimanic activity, lurasidone, cariprazine, and lumateperone exert a significant antidepressant effect in bipolar depression, while aripiprazole and lurasidone have displayed evidence for prevention of recurrence in bipolar disorder. It can be concluded that the successive generations of antipsychotic drugs present a diverse spectrum for application in mood disorders.

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Subjects: Psychology, Biological
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Janusz K. Rybakowski
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