Aripiprazole is an atypical antipsychotic that is FDA approved and predominantly used for symptomatic management of psychosis in patients with schizophrenia and monotherapy or adjunctive therapy for acute manic episodes associated with bipolar disorder. The oral tablet and solution are also FDA approved for the treatment of autistic spectrum disorder (ASD). Studies show that short term use of aripiprazole in patients with ASD resulted in decreased irritability, decreased hyperactivity, and fewer repetitive, purposeless actions (stereotyped behaviors). Aripiprazole can also serve as an adjunctive treatment for major depressive disorder, and Tourette syndrome (oral tablet or oral solution only).
There is a long-acting aripiprazole decanoate formulation, which is used primarily for maintenance therapy for chronic schizophrenia as well as both acute and maintenance therapy of bipolar I disorder in patients who may lack oral tolerance or medication compliance.
Off label uses of aripiprazole include an adjunctive treatment for patients with comorbid psychotic disorders and substance use disorders. It may also be used to treat psychosis and agitation associated with dementia; however, aripiprazole may increase the risk of cerebrovascular stroke and cognitive decline in this patient population. Aripiprazole may additionally be used to treat delirium and apraxia of eyelid opening with blepharospasm in Parkinson disease.
Aripiprazole is increasingly replacing first-generation antipsychotics due to its improved side effect profile. The regulation of dopamine neurotransmission in aripiprazole has resulted in decreased motor and metabolic side effects as compared to other typical and atypical antipsychotic medications, thus making aripiprazole a valid alternative for patients struggling with persistent side effects or low efficacy of their current medication. Aripiprazole has shown to decrease psychiatric hospitalization rates, reduce symptoms of tardive dyskinesia, improve cognitive function, and reduce cardiovascular risk factors, lipid levels, and prolactin. It has also restored sexual function and decreased alcohol craving in patients with dependence.
Aripiprazole is a quinolinone antipsychotic that has a unique mechanism of action among other second-generation antipsychotics because it is a partial agonist at the D2 and 5HT-1A receptors and an antagonist at 5HT-2a. It has a high affinity for D2, D3, 5HT-1a, and 5HT2a receptors and moderate affinity for D4, 5HT-2c, 5-HT7, alpha-1 adrenergic, and H1 receptors. Aripiprazole has no affinity for muscarinic receptors. It stabilizes dopamine and serotonin within the nucleus accumbens, ventral tegmental area, and frontal cortex resulting in the management of positive, negative, and cognitive symptoms in schizophrenia. Aripiprazole demonstrates functional selectivity in intracellular signaling pathways by requiring a greater than 90% occupancy rate at D2 receptors to be clinically active, thus not producing as many extrapyramidal symptoms.
Aripiprazole will act as a functional antagonist in areas of high dopamine, such as the mesolimbic pathway, while remaining inactive in areas with normal dopamine, such as the nigrostriatal and tuberoinfundibular pathways. The partial agonism of aripiprazole at D2 receptors may be responsible for the effective management of positive, negative, and cognitive symptoms of schizophrenia. It is shown to have more selective effects on the mesolimbic dopaminergic pathway compared to haloperidol and olanzapine. Due to its partial agonist nature, the use of aripiprazole with concurrent antipsychotics (another D2 antagonist) may cause an exacerbation of positive symptoms.
Aripiprazole may be administered with or without food and is available in oral tablets, disintegrating tablets (10 mg and 15 mg), oral solution, and intramuscular (IM) injections for acute symptoms and long-acting IM injections. The immediate-release injection (9.75 mg/1.3 mL), however, was discontinued in the U.S. Oral dosing ranges from 5 mg to 30 mg/kg/day and is available in 2 mg, 5 mg, 10 mg, 15 mg, 20 mg, and 30 mg tablets. Both oral and IM routes of administration have similar steady-state serum concentrations and symptom management. The half-life of oral administration is approximately 75 hours. Steady serum level concentration doses (based on 15 to 30 mg per day) should occur at approximately 14 days, and therefore it may take up to two weeks to fully assess tolerability. Reaching maximum plasma concentration in patients using depot injections will take place after 5 to 7 days. The long-acting injectable formulation is available in 300 mg or 400 mg prefilled syringes and is administered monthly in patients with the potential for poor medication compliance. The clinician must establish the patient's oral tolerability for aripiprazole before beginning IM medication. It is also important to continue oral aripiprazole for 14 days during the initiation of long-acting IM therapy.
Aripiprazole lauroxil is the prodrug of aripiprazole and is available as a long-acting intramuscular injection (1064 mg, 441 mg, 662 mg, or 882 mg) that can be administered every 4 to 6 weeks and requires a three-week oral medication overlap.
For bipolar I monotherapy, the recommended initial dose of aripiprazole is 15 mg daily, increasing to 30 mg daily as needed. When used as an adjunctive treatment in bipolar I, the recommended target is 15 mg daily. For adjunctive therapy with antidepressants, the initial oral dose is 2 to 5 mg daily, titrating dose up to 5 mg daily in intervals of one week, with a maximum dose of 15 mg/day. The initial dose for treatment of schizophrenia is 10 to 15 mg daily, increasing to a maximum of 30 mg daily. It is important not to titrate the dose more than every two weeks. No dosage readjustment is necessary for renal or hepatic impairment. However, prescribing if aripiprazole with an inducer of CYP3A4 enzyme such as carbamazepine, a higher dose may be required.
Although the side effects of aripiprazole are similar to those found in typical and atypical antipsychotics, the degree of extrapyramidal symptoms (EPS) and metabolic syndromes are less due to receptor specificity. EPS such as akathisia, parkinsonian features such as resting tremor and shuffling gait, acute dystonic reactions, oculogyric crises, opisthotonos, and tardive dyskinesia are manageable with benztropine or sodium benzoate. Aripiprazole is associated with lower incidences of weight gain, hypercholesterolemia, glucose dysregulation, cardiovascular abnormalities, and hyperprolactinemia. Hyperprolactinemia may manifest as galactorrhea, gynecomastia in men, sexual dysfunction, amenorrhea, or off-cycle bleeding. Other possible side effects from aripiprazole include somnolence, nausea, vomiting, akathisia, and lightheadedness. Antipsychotics agent use requires caution in older adults due to the potential to cause or exacerbate the syndrome of inappropriate antidiuretic hormone secretion (SIADH) or hyponatremia; thus, it is especially important to monitor sodium during initiation and dosage adjustment. Children and adolescents are more susceptible than older patients to experience EPS, weight gain, and other metabolic side effects. The FDA also recently identified an association between aripiprazole use and compulsive or uncontrollable urges to engage in sex, gamble, binge eat, and shop.
Rare adverse effects may include neuroleptic malignant syndrome, liver function abnormalities and jaundice, seizures, and agranulocytosis. Similar to other antipsychotics, aripiprazole carries a black-box warning for increased risk of cerebrovascular events and death in elderly patients with psychosis related to the major neurocognitive disorder and suicidal thoughts among children, adolescents, and young adults.
Aripiprazole is contraindicated in patients with documented hypersensitivity to it or any component of the formula.
Patients require close monitoring for any side effects. It is important to establish baseline measurements of blood pressure (repeat in three months and annually), weight (remeasure at weeks 4, 8, and 12), height, BMI, waist circumference, electrolytes, liver function, fasting plasma glucose level (repeat in three months and annually), lipid panel, abnormal involuntary movement scale (repeat weekly for two weeks after initiation or dose increase), and ocular exam findings. Consider switching antipsychotic medications if weight gain is greater than or equal to five percent of the patient's initial body weight. Monitor the patient's CBC frequently during the first few months in patients with preexisting leukopenia or neutropenia. Closely monitor serum sodium with initiation or dosage adjustment in older adults. As clinically indicated, monitor electrolytes, liver function, changes in menstruation, libido, or other manifestations of hyperprolactinemia.
Aripiprazole is metabolized via hepatic dehydrogenation, hydroxylation, and N-dealkylation via CYP2D6 and CYP3A4. For example, carbamazepine, a CYP3A4 inducer, may cause decreased blood levels due to an increase in aripiprazole clearance. CYP3A4 inhibitors such as ketoconazole, or CYP2D6 inhibitors such as fluoxetine, paroxetine, quinidine, may inhibit aripiprazole elimination and cause increased blood levels. The target plasma range is between 150 to 210 nanograms per milliliter.
According to FDA reports, there have been 76 cases of aripiprazole overdose. These include instances of both deliberate and accidental overdose in combination with other substances. There is currently no known antidote for aripiprazole overdose, however early charcoal administration by partially prevent absorption of the drug. Management of aripiprazole overdose should focus on supportive therapy. An EKG should be obtained to identify any cardiac arrhythmias, such as QTc prolongation.
Aripiprazole is usually prescribed by a psychiatrist, nurse practitioner, or primary care provider. Due to the array of possible side effects, it is essential to establish baseline measurements, including EKG, blood pressure, CMP, CBC, liver transaminase levels, BUN, and creatinine. Although extrapyramidal symptoms are less common in aripiprazole as compared to haloperidol, it is crucial to screen for and monitor any developing EPS using AIMS (Abnormal Involuntary Movement Scale). Interprofessional communication is essential in the management of a patient on aripiprazole due to potential drug interactions and potentially fatal side effects such as QT abnormalities, arrhythmias, agranulocytosis, and metabolic changes. Switching from one antipsychotic to another should be done gradually. For example, in the UK, aripiprazole would be started at a minimal clinically efficacious dose and titrated up as needed after two weeks, while leaving the previous antipsychotic dose unchanged. Rapid or sudden withdrawal of prior medication may result in a decompensated presentation.
The pharmacist and nurse should encourage the patient to eat a healthy diet and exercise regularly since the drug is known to cause weight gain. Pharmacists must also verify dosing is appropriate, and check for drug interactions that may lead to concerns with dosing or adverse effects. Nursing should assist in followup monitoring, including assessing therapeutic effectiveness and noting potential signs of adverse effects. For example, regular monitoring of blood sugar and lipids is necessary as some patients may develop metabolic syndrome. Finally, to relieve the symptoms of schizophrenia, patients must be educated on the importance of compliance, which nursing can also counsel and evaluate. If the patient has a mental health provider involved in their case, then they should also have open communication with the healthcare team, so they can alert the prescriber to any concerns they may have for the patient's regimen. Aripiprazole requires an interprofessional team effort to be effective and minimize potential adverse effects, leading to better patient outcomes. [Level 5]
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