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VILAZODONE

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Classification   |    Detailed evidence-based information

Substances Included Synonyms

Therapeutic Toxic Class

    A) Vilazodone is a serotonin reuptake inhibitor with partial agonist activity at the serotonergic 5-HT1A receptors in the CNS.

Specific Substances

    1) Vilazodona
    2) EMD-515259
    3) Vilazodonum
    4) CAS: 163521-12-8
    1.2.1) MOLECULAR FORMULA
    1) C26H27N5O2 HCl (Prod Info VIIBRYD(R) oral tablets, 2011)

Available Forms Sources

    A) FORMS
    1) Vilazodone is available in the US as 10 mg, 20 mg, and 40 mg tablets (Prod Info VIIBRYD(R) oral tablets, 2011).
    B) USES
    1) Vilazodone is FDA approved to treat major depressive disorder (MDD) (Prod Info VIIBRYD(R) oral tablets, 2011).

Overview

Life Support

    A) This overview assumes that basic life support measures have been instituted.

Clinical Effects

    0.2.1) SUMMARY OF EXPOSURE
    A) USES: Vilazodone is indicated for the treatment of major depressive disorder (MDD).
    B) PHARMACOLOGY: Vilazodone is thought to act within the CNS to enhance serotonergic activity via selective inhibition of serotonin reuptake. Vilazodone is also a partial agonist of serotonergic 5-HT1A receptors.
    C) EPIDEMIOLOGY: Limited data. Overdose is rare.
    D) WITH THERAPEUTIC USE
    1) COMMON: Diarrhea and nausea. LESS COMMON: Dry mouth, vomiting, dizziness and insomnia.
    E) WITH POISONING/EXPOSURE
    1) Serotonin syndrome, lethargy, restlessness, hallucinations and disorientation have been reported in several cases of overdose (at doses of 200 to 280 mg) with vilazodone. Other manifestations of serotonin syndrome can include akathisia, tremor, altered mental status, inducible clonus, sustained clonus, muscular hypertonicity, and hyperthermia. The classic clinical triad is altered mental status, neuromuscular abnormalities (rigidity), and autonomic instability (eg, hypertension, tachycardia, hyperthermia). Seizure activity and altered mental status were reported in a toddler following an inadvertent exposure to vilazodone.
    0.2.20) REPRODUCTIVE
    A) There are no adequate and well-controlled studies of vilazodone use during pregnancy in humans. However, neonatal complications (persistent pulmonary hypertension of the newborn (PPHN) and a drug discontinuation syndrome or clinical findings consistent with serotonin syndrome) were demonstrated following maternal use of SSRIs or serotonin-norepinephrine reuptake inhibitors (SNRIs) during pregnancy, particularly late in the third trimester. Vilazodone is excreted into the milk of lactating rats. The effect of vilazodone on a nursing infant is unknown.

Laboratory Monitoring

    A) Routine laboratory studies may not be necessary following a minor exposure. If the patient develops significant fluid loss (eg, vomiting and/or diarrhea), monitor electrolytes and volume status.
    B) Monitor vital signs (including temperature) and mental status.
    C) Obtain baseline ECG, continuous cardiac monitoring, and serial ECGs following a significant exposure.
    D) Monitor serum electrolytes patients with significant overdose.
    E) Monitor serial neurologic exams for evidence of serotonergic excess (altered mental status, hyperreflexia, clonus, myoclonus, rigidity, seizures).
    F) Plasma concentrations are not readily available and do not correlate well with therapeutic or adverse effects. It is not indicated for the acute management of overdose.

Treatment Overview

    0.4.2) ORAL/PARENTERAL EXPOSURE
    A) MANAGEMENT OF MILD TO MODERATE TOXICITY
    1) Most patients require only supportive care. Control agitation and confusion with benzodiazepines (first-line therapy). Hypertension and tachycardia are generally mild and well tolerated, and do not require specific treatment.
    B) MANAGEMENT OF SEVERE TOXICITY
    1) SEROTONIN SYNDROME: Treatment is symptomatic and supportive. Provide therapy as above, but patients with severe toxicity (eg severe hyperthermia and agitation) may need immediate aggressive sedation, intubation, and neuromuscular paralysis. Control agitation with aggressive benzodiazepine use, consider cyproheptadine or chlorpromazine. Administer fluids and direct-acting vasopressors (eg, norepinephrine, epinephrine, phenylephrine) for hypotension. Use nitroprusside or esmolol for hypertension that is refractory to benzodiazepines. Manage hyperthermia by controlling muscle hyperactivity with benzodiazepines and nondepolarizing paralytics as well as external cooling. DYSRHYTHMIAS: Monitor cardiac rhythm. Patients with wide-complex dysrhythmias should be treated with hypertonic sodium bicarbonate boluses. Although QTc interval prolongation has been reported with other SSRIs, it has NOT been observed with vilazodone.
    C) DECONTAMINATION
    1) PREHOSPITAL: GI decontamination is not recommended because of the potential risk for somnolence and/or seizures.
    2) HOSPITAL: Consider activated charcoal if a patients presents soon after a large ingestion and is not manifesting signs and symptoms of toxicity. In the case of significant CNS depression, perform orotracheal intubation for airway protection prior to giving charcoal.
    D) AIRWAY MANAGEMENT
    1) Perform early with neuromuscular paralysis, if the patient presents with respiratory or CNS depression, severe muscle rigidity, or severe hyperthermia.
    E) AGITATION
    1) Give IV benzodiazepines (liberally), barbiturates as needed.
    F) SEIZURES
    1) IV benzodiazepines, barbiturates, or propofol for recurrent seizures.
    G) SEROTONIN SYNDROME
    1) Primary treatment is sedation with IV benzodiazepines, and cooling measures. CYPROHEPTADINE: A serotonin antagonist with high affinity for the 5-HT2 receptors; effective for milder cases of serotonin syndrome. Dose: ADULT: 12 mg orally or nasogastric tube, followed by 4 to 8 mg every 4 to 6 hours. CHILD: 0.25 mg/kg/day orally or nasogastric tube divided every 6 hours, maximum dose 12 mg/day. CHLORPROMAZINE: A phenothiazine antipsychotic with 5-HT2 antagonist activity; indicated in severe serotonin syndrome cases. Dose: 12.5 to 50 mg IV, followed by 25 to 50 mg every 6 hours. It is NOT generally recommended because it may cause severe hypotension. Severe cases have been managed with benzodiazepine sedation and neuromuscular paralysis with nondepolarizing agents.
    H) ENHANCED ELIMINATION
    1) Hemodialysis and hemoperfusion are NOT of value due to the large volume of distribution and highly protein bound.
    I) PATIENT DISPOSITION
    1) HOME CRITERIA: An asymptomatic child with a minor (40 mg or less) inadvertent ingestion may be monitored at home. Based on limited data, children with a larger ingestion (greater than 40 mg) should be evaluated in a healthcare facility. An asymptomatic adult or those with mild toxicity following an isolated unintentional acute ingestion of less than 200 mg may be observed at home with instructions to go to a healthcare facility, if symptoms develop.
    2) OBSERVATION CRITERIA: Symptomatic patients and those with ingestions of more than 200 mg should be evaluated in a healthcare facility and observed for 6 to 12 hours.
    3) ADMISSION CRITERIA: Patients with persistent toxicity after 6 to 12 hours should be admitted. Patients with severe toxicity may need to be admitted to an intensive care unit.
    4) CONSULT CRITERIA: Consult a poison center or medical toxicologist for assistance in managing patients with severe toxicity or an unclear diagnosis.
    J) PITFALLS
    1) Failure to aggressively control agitation, muscle rigidity, and hyperthermia with adequate benzodiazepines, intubation with neuromuscular paralysis and body cooling. Consider the possibility of ingestion of multiple substances. Patients who are taking another agent that increases CNS serotonin are more likely to develop serotonin syndrome.
    K) PHARMACOKINETICS
    1) Peak plasma levels are achieved within 4 to 5 hours of administration. Vilazodone is widely distributed, approximately 96% to 99% protein bound and is extensively metabolized by the liver. The terminal half-life of vilazodone is approximately 25 hours.
    L) DIFFERENTIAL DIAGNOSIS
    1) Other SSRI poisoning, serotonin syndrome, neuroleptic malignant syndrome, CNS infection, hypoglycemia, cocaine or amphetamine poisoning.

Range Of Toxicity

    A) Dosages of 200 mg to 280 mg produced serotonin syndrome, lethargy, restlessness, hallucinations and disorientation in clinical trials.
    B) ADULT: A 24-year-old woman presented in a mute and combative state with agitation and visual hallucinations after taking 5 to 6 pills of study medication (vilazodone 40 mg) and recovered less than 48 hours after exposure following supportive care.
    C) PEDIATRIC: In an unwitnessed exposure, a 19-month-old girl ingested an estimated 37 mg/kg (10 tablets of 40 mg) of vilazodone and developed persistent tachycardia (112 to 191 beats/min), an altered mental status and seizure activity. She was intubated and treated with a continuous infusion of midazolam and recovered completely in about 2.5 days. A 21-month-old boy ingested 5 to 7 pills of vilazodone 40 mg and was initially sleepy and lethargic, but recovered uneventfully with supportive care. In another case, a 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and developed tachycardia, flaccidity and was responsive only to painful stimuli within 1 to 2 hours postingestion. In another case, a 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and developed tachycardia, flaccidity and was responsive only to painful stimuli within 1 to 2 hours postingestion. Seizures occurred within 2 hours along with persistent altered mental status; he gradually improved and recovered completely.
    D) THERAPEUTIC DOSE: The recommended dose of vilazodone is 40 mg once daily, following a 2-week titration period.

Clinical Effects

Summary Of Exposure

    A) USES: Vilazodone is indicated for the treatment of major depressive disorder (MDD).
    B) PHARMACOLOGY: Vilazodone is thought to act within the CNS to enhance serotonergic activity via selective inhibition of serotonin reuptake. Vilazodone is also a partial agonist of serotonergic 5-HT1A receptors.
    C) EPIDEMIOLOGY: Limited data. Overdose is rare.
    D) WITH THERAPEUTIC USE
    1) COMMON: Diarrhea and nausea. LESS COMMON: Dry mouth, vomiting, dizziness and insomnia.
    E) WITH POISONING/EXPOSURE
    1) Serotonin syndrome, lethargy, restlessness, hallucinations and disorientation have been reported in several cases of overdose (at doses of 200 to 280 mg) with vilazodone. Other manifestations of serotonin syndrome can include akathisia, tremor, altered mental status, inducible clonus, sustained clonus, muscular hypertonicity, and hyperthermia. The classic clinical triad is altered mental status, neuromuscular abnormalities (rigidity), and autonomic instability (eg, hypertension, tachycardia, hyperthermia). Seizure activity and altered mental status were reported in a toddler following an inadvertent exposure to vilazodone.

Cardiovascular

    3.5.2) CLINICAL EFFECTS
    A) CARDIOVASCULAR FINDING
    1) WITH THERAPEUTIC USE
    a) ECG PARAMETERS
    1) During clinical trials, there were NO reports of clinically significant changes in QT, QTc, PR and QRS intervals, or with any arrhythmogenic potential at doses of up to 80 mg daily (Prod Info VIIBRYD(R) oral tablets, 2011).
    B) TACHYCARDIA
    1) WITH POISONING/EXPOSURE
    a) PEDIATRIC
    1) CASE REPORT: In an unwitnessed exposure, a 19-month-old girl, weighing 10.8 kg, ingested an estimated 37 mg/kg (10 tablets of 40 mg) of vilazodone. She was brought to the ED about an hour after ingestion with tachycardia (179 beats/min) and tachypnea (32 breaths/min). Other symptoms included an altered mental status, decreased responsiveness and sluggish but responsive pupils. Seizure activity was also reported. Immediate treatment included intubation and midazolam therapy and transfer to a pediatric intensive care unit. Upon presentation, the toddler was noted to have rigidity in all extremities, mild clonus and a heart rate of 126 beats/min. A continuous infusion of midazolam was started approximately 5.5 hours after ingestion. Ten hours after ingestion, midazolam was stopped and the patient was successfully extubated. About 22 hours after exposure, her mentation was normal but she had ongoing tachycardia (112 to 191 beats/min) and gait abnormalities; however, all her symptoms completely resolved 57 hours after ingestion (Acker et al, 2015).
    2) CASE REPORT: A 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and vomited approximately 20 minutes after exposure. Approximately one hour after exposure, he was admitted to the ER with tachycardia (144 bpm) and tachypnea (44 breaths per minute). He had 2 further episodes of vomiting after arrival and neurologically he became flaccid and only responsive to painful stimuli. Approximately 2 hours postingestion, a brief episode of becoming tense and "shaking" were observed. Laboratory studies were within normal limits. The toddler was transferred to a higher level of care and was noted to have no purposeful movement, frequent tremors, flailing his arms and legs, and Glasgow Coma Scale of 9. Following supportive care, his altered mental status gradually improved with no further seizure activity within 36 hours of exposure. Tachycardia resolved within 72 hours. The patient recovered completely (Pfeiffer et al, 2015).

Neurologic

    3.7.2) CLINICAL EFFECTS
    A) SEROTONIN SYNDROME
    1) WITH POISONING/EXPOSURE
    a) Serotonin syndrome was reported with overdose of vilazodone during clinical trials (Prod Info VIIBRYD(R) oral tablets, 2011).
    b) CASE REPORT: During a premarketing long-term, open-label study, a 24-year-old woman presented in a mute and combative state with agitation and visual hallucinations after taking 5 to 6 pills of study medication (vilazodone 40 mg) to catch up on missed doses. The patient's condition was consistent with serotonin toxicity and she was discharged less than 48 hours after incident after receiving symptomatic care (Lindberg, 2011).
    c) MILD TO MODERATE POISONING: Serotonin syndrome comprises a continuum of clinical manifestations ranging from mild to life-threatening. Not all of these manifestations have been described after vilazodone overdose. Common manifestations are akathisia, tremor, altered mental status, inducible clonus, sustained clonus, muscular hypertonicity, and hyperthermia. The classic clinical triad is altered mental status, neuromuscular abnormalities (rigidity), and autonomic instability (eg, hypertension, tachycardia, hyperthermia). A patient with serotonin syndrome is more likely to present with hyperreflexia and myoclonus rather than "lead pipe" rigidity that develops in neuroleptic malignant syndrome. MILD cases may show subtle findings, such as tachycardia, shivering, diaphoresis, mydriasis, and no fever. MODERATE cases may show tachycardia, hypertension, hyperthermia (up to 40 degrees C), hyperactive bowel sounds, diaphoresis, hyperreflexia, clonus (greater in the lower extremities than upper), horizontal ocular clonus, and mild agitation (Dunkley et al, 2003; Sternbach, 1991).
    d) SEVERE POISONING: Severe cases may manifest shock, marked hypertension and tachycardia, agitated delirium, and rigidity (greater in the lower extremities). Other findings include severe hyperthermia (greater than 41.1 degrees C), acidosis, rhabdomyolysis, seizures, renal failure, and rarely, disseminated intravascular coagulopathy(Dunkley et al, 2003; Sternbach, 1991).
    B) SEIZURE
    1) WITH POISONING/EXPOSURE
    a) PEDIATRIC
    1) CASE REPORT: In an unwitnessed exposure, a 19-month-old girl, weighing 10.8 kg, ingested an estimated 37 mg/kg (10 tablets of 40 mg) of vilazodone. She was brought to the ED about an hour after ingestion with tachycardia (179 beats/min) and tachypnea (32 breaths/min). Other symptoms included an altered mental status, decreased responsiveness and sluggish but responsive pupils. Seizure activity was also reported. Immediate treatment included intubation and midazolam therapy and transfer to a pediatric intensive care unit. Upon presentation, the toddler was noted to have rigidity in all extremities, mild clonus and a heart rate of 126 beats/min. A continuous infusion of midazolam was started approximately 5.5 hours after ingestion. Ten hours after ingestion, midazolam was stopped and the patient was successfully extubated. About 22 hours after exposure, her mentation was normal but she had ongoing tachycardia (112 to 191 beats/min) and gait abnormalities; however, all her symptoms completely resolved 57 hours after ingestion (Acker et al, 2015).
    2) CASE REPORT: A 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and vomited approximately 20 minutes after exposure. Approximately one hour after exposure, he was admitted to the ER with tachycardia (144 bpm) and tachypnea (44 breaths per minute). He had 2 further episodes of vomiting after arrival and neurologically he became flaccid and only responsive to painful stimuli. Approximately 2 hours postingestion, a brief episode of becoming tense and "shaking" were observed. Laboratory studies were within normal limits. The toddler was transferred to a higher level of care and was noted to have no purposeful movement, frequent tremors, flailing his arms and legs, and Glasgow Coma Scale of 9. Following supportive care, his altered mental status gradually improved with no further seizure activity within 36 hours of exposure. Tachycardia resolved within 72 hours. The patient recovered completely (Pfeiffer et al, 2015).
    C) DIZZINESS
    1) WITH THERAPEUTIC USE
    a) Dizziness was reported in 9% of patients taking vilazodone (n=436) compared to 5% taking placebo (n=433) (Prod Info VIIBRYD(R) oral tablets, 2011).
    D) INSOMNIA
    1) WITH THERAPEUTIC USE
    a) Insomnia was reported in 6% of patients taking vilazodone (n=436) compared to 2% taking placebo (n=433) (Prod Info VIIBRYD(R) oral tablets, 2011).
    E) LETHARGY
    1) WITH POISONING/EXPOSURE
    a) Lethargy was reported in overdose with vilazodone during clinical trials (Prod Info VIIBRYD(R) oral tablets, 2011).
    b) PEDIATRICS: A 21-month-old boy was reported to have ingested approximately 5 to 7 pills of vilazodone 40 mg during an open-label long-term study. After administration with activated charcoal and several bouts of vomiting, the child was lethargic and very sleepy, but he recovered quickly and was tolerating oral fluids. He was discharged to home the following day (Lindberg, 2011).
    F) CENTRAL NERVOUS SYSTEM FINDING
    1) WITH POISONING/EXPOSURE
    a) CASE REPORT: During a clinical trial, disorientation and restlessness was reported in a 25-year-old woman after inadvertently taking 2 tablets of vilazodone 40 mg (Lindberg, 2011).
    b) CASE REPORT: In an unwitnessed exposure, a 19-month-old girl, weighing 10.8 kg, ingested an estimated 37 mg/kg (10 tablets of 40 mg) of vilazodone. She was brought to the ED about an hour after ingestion with tachycardia (179 beats/min) and tachypnea (32 breaths/min). Other symptoms included an altered mental status, decreased responsiveness and sluggish but responsive pupils. Seizure activity was also reported. Immediate treatment included intubation and midazolam therapy and transfer to a pediatric intensive care unit. Upon presentation, the toddler was noted to have rigidity in all extremities, mild clonus and a heart rate of 126 beats/min. A continuous infusion of midazolam was started approximately 5.5 hours after ingestion. Ten hours after ingestion, midazolam was stopped and the patient was successfully extubated. About 22 hours after exposure, her mentation was normal but she had ongoing tachycardia (112 to 191 beats/min) and gait abnormalities; however, all her symptoms completely resolved 57 hours after ingestion (Acker et al, 2015).

Gastrointestinal

    3.8.2) CLINICAL EFFECTS
    A) DIARRHEA
    1) WITH THERAPEUTIC USE
    a) Diarrhea was reported in 28% of patients taking vilazodone (n=436) compared to 9% taking placebo (n=433) (Prod Info VIIBRYD(R) oral tablets, 2011).
    B) NAUSEA
    1) WITH THERAPEUTIC USE
    a) Nausea was reported in 23% of patients taking vilazodone (n=436) compared to 5% taking placebo (n=433) (Prod Info VIIBRYD(R) oral tablets, 2011).
    C) APTYALISM
    1) WITH THERAPEUTIC USE
    a) Aptyalism (dry mouth) was reported in 8% of patients taking vilazodone (n=436) compared to 5% taking placebo (n=433) (Prod Info VIIBRYD(R) oral tablets, 2011).
    D) VOMITING
    1) WITH THERAPEUTIC USE
    a) Vomiting was reported in 5% of patients taking vilazodone (n=436) compared to 1% taking placebo (n=433) (Prod Info VIIBRYD(R) oral tablets, 2011).
    2) WITH POISONING/EXPOSURE
    a) Vomiting may be an early symptom of acute ingestion (Pfeiffer et al, 2015).
    b) CASE REPORT: A 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and vomited approximately 20 minutes after exposure. Approximately one hour after exposure, he was admitted to the ER with tachycardia (144 bpm) and tachypnea (44 breaths per minute). He had 2 further episodes of vomiting after arrival and neurologically he became flaccid and only responsive to painful stimuli. Approximately 2 hours postingestion, a brief episode of becoming tense and "shaking" were observed. Laboratory studies were within normal limits. The toddler was transferred to a higher level of care and was noted to have no purposeful movement, frequent tremors, flailing his arms and legs, and Glasgow Coma Scale of 9. Following supportive care, his altered mental status gradually improved with no further seizure activity within 36 hours of exposure. Tachycardia resolved within 72 hours. The patient recovered completely (Pfeiffer et al, 2015).

Reproductive

    3.20.1) SUMMARY
    A) There are no adequate and well-controlled studies of vilazodone use during pregnancy in humans. However, neonatal complications (persistent pulmonary hypertension of the newborn (PPHN) and a drug discontinuation syndrome or clinical findings consistent with serotonin syndrome) were demonstrated following maternal use of SSRIs or serotonin-norepinephrine reuptake inhibitors (SNRIs) during pregnancy, particularly late in the third trimester. Vilazodone is excreted into the milk of lactating rats. The effect of vilazodone on a nursing infant is unknown.
    3.20.2) TERATOGENICITY
    A) ANIMAL STUDIES
    1) In animal studies, pregnant rats and rabbits given oral doses during organogenesis equal to 48 and 17 times the maximum recommended human dose (MRHD), respectively, of 40 mg on a mg/m(2) basis had pups with decreased fetal body weight and delayed skeletal ossification. When the administered dose was lowered to 10 times the MRHD in rats and 4 times in rabbits, these effects were not seen. Vilazodone administration led to a decreased number of live pups when pregnant rats were given a maternally toxic dose of 30 times the MRHD during the period of organogenesis and throughout pregnancy and lactation. There was also an increase in early postnatal pup mortality, decreased body weight, delayed maturation and decreased fertility into adulthood amongst surviving pups. These effects were not seen at 6 times the MRHD (Prod Info VIIBRYD(R) oral tablets, 2015).
    3.20.3) EFFECTS IN PREGNANCY
    A) DISEASE-ASSOCIATED MATERNAL RISK
    1) In a prospective longitudinal study of 201 women with a history of major depression, there was a greater likelihood of relapse of major depression in women who discontinued antidepressant drugs during early pregnancy compared with those who continued antidepressant drugs throughout pregnancy. Evaluate the risks of untreated depression in a pregnant woman when considering treatment with vilazodone or another antidepressant (Prod Info VIIBRYD(R) oral tablets, 2015).
    B) FETAL/NEONATAL ADVERSE REACTIONS
    1) There are no adequate and well-controlled studies of vilazodone use during pregnancy in humans. However, neonatal complications (persistent pulmonary hypertension of the newborn (PPHN) and a drug discontinuation syndrome or clinical findings consistent with serotonin syndrome) were demonstrated following maternal use of SSRIs or serotonin-norepinephrine reuptake inhibitors (SNRIs) during pregnancy, particularly late in the third trimester. Based on post-marketing reports, some of these complications occurred immediately upon delivery, and required prolonged hospitalization, tube feeding, and respiratory support. Symptoms have included respiratory distress, cyanosis, apnea, seizures, temperature instability, feeding difficulty, vomiting, hypoglycemia, hypo- or hypertonia, hyperreflexia, tremor, jitteriness, constant crying, and irritability that were consistent with either direct SSRI or SNRI toxicity or a possible drug discontinuation syndrome. In some cases, clinical findings were consistent with serotonin syndrome (Prod Info VIIBRYD(R) oral tablets, 2015).
    2) Infants exposed to SSRIs after the twentieth week of gestation had an approximately 6-fold higher risk for developing PPHN compared with infants who had not been exposed to antidepressants in utero according to a retrospective, case-control study of 377 infants with PPHN and 836 healthy infants. A significant 2.4-fold increased risk of PPHN was associated with patient-reported maternal use of SSRIs in early pregnancy and a significant 3.6-fold increased PPHN risk was associated with a patient-reported maternal use of SSRIs in early pregnancy combined with an antenatal SSRI prescription in later pregnancy in a study of 831,324 Swedish infants (Prod Info VIIBRYD(R) oral tablets, 2015).
    C) AUTISM SPECTRUM DISORDER
    1) A cohort study of prospectively collected data demonstrated an increased risk of autism spectrum disorder (ASD) in children whose mothers used antidepressants during the second or third trimesters of pregnancy; the risk was even greater with second or third trimester exposure to SSRIs. Thirty-one infants who were exposed to antidepressants during the second or third trimester were diagnosed with ASD. After adjusting for potential confounders, second or third trimester exposure to antidepressants was associated with a significant 87% increased risk of ASD, while first trimester exposure or use of antidepressants in the year before pregnancy was not associated with any such risk. Use of SSRIs during the second or third trimester was associated with a significant more than 2-fold increased risk of ASD (22 exposed infants), while other classes of antidepressants were not associated with an increased risk. Even after restricting the sample size to those children whose mothers had a history of depression and used antidepressants during the second or third trimester, the risk of ASD still persisted. In addition, use of more than 1 class of antidepressants during the second or third trimester was associated with a significant more than 4-fold increased risk of ASD (Boukhris et al, 2016).
    3.20.4) EFFECTS DURING BREAST-FEEDING
    A) BREAST MILK
    1) Vilazodone is excreted into breast milk of lactating rats, with an oral dose of 30 times the maximum recommended human dose resulting in early postnatal pup mortality, decreased body weight, and delayed maturation. The effect on nursing in humans is unknown. Consider the developmental and health benefits of breastfeeding, along with the need of the mother to be treated with vilazodone, versus any potential adverse effects in the nursing infant from vilazodone exposure or from underlying maternal conditions (Prod Info VIIBRYD(R) oral tablets, 2015).
    3.20.5) FERTILITY
    A) ANIMAL STUDIES
    1) No effects were seen on fertility in female rats treated with 125 mg/kg, 30 times the maximum recommended human dosage of 40 mg on a mg/m(2) basis (Prod Info VIIBRYD(R) oral tablets, 2015).
    2) Effects on fertility were seen in male rats treated with 125 mg/kg, 30 times the maximum recommended human dosage (MRHD) of 40 mg on a mg/m(2) basis. Impaired male fertility was not seen at 6 times the MRHD (Prod Info VIIBRYD(R) oral tablets, 2015).

Carcinogenicity

    3.21.4) ANIMAL STUDIES
    A) HEPATOCARCINOMA
    1) A higher rate of hepatocellular carcinomas were reported in male B6C3F1 mice treated with oral doses up to 135 mg/kg/day of vilazodone for 2 years, which is 16.5 times the maximum recommended human dose (MRHD). This finding was not observed at 5.5 times the MRHD. Oral doses up to 150 mg/kg/day (36 times the MRHD) administered for 2 years was not carcinogenic in male Wistar rats (Prod Info VIIBRYD(R) oral tablets, 2011).
    B) MAMMARY GLAND TUMORS
    1) The incidence of malignant mammary gland tumors was numerically increased at 5.5 times the MRHD and statistically significantly at 16.5 times the MRHD in female B6C3F1 mice treated with 135 mg/kg/day oral doses of vilazodone for 2 years. When studied at 1.8 times the MRHD, this finding was not observed. Elevated prolactin levels, a known cause of mammary tumors in rodents, was reported at 5.5 and 33 times the MRHD in a 2-week observational study. Oral doses up to 150 mg/kg/day (36 times the MRHD) administered for 2 years was not carcinogenic in female Wistar rats (Prod Info VIIBRYD(R) oral tablets, 2011).

Genotoxicity

    A) Vilazodone was not mutagenic in the in vitro bacterial Ames test and produced a negative result in the in vitro V79/HGRPT mammalian cell forward mutation assay. Evidence of clastogenicity was seen in 2 in vitro mammalian cell chromosome aberration assays. Clastogenicity was negative in an in vivo rat bone marrow chromosome aberration assay and a micronucleus test, and in an in vivo/in vitro unscheduled DNA synthesis assay.

Laboratory Monitoring

Monitoring Parameters Levels

    4.1.1) SUMMARY
    A) Routine laboratory studies may not be necessary following a minor exposure. If the patient develops significant fluid loss (eg, vomiting and/or diarrhea), monitor electrolytes and volume status.
    B) Monitor vital signs (including temperature) and mental status.
    C) Obtain baseline ECG, continuous cardiac monitoring, and serial ECGs following a significant exposure.
    D) Monitor serum electrolytes patients with significant overdose.
    E) Monitor serial neurologic exams for evidence of serotonergic excess (altered mental status, hyperreflexia, clonus, myoclonus, rigidity, seizures).
    F) Plasma concentrations are not readily available and do not correlate well with therapeutic or adverse effects. It is not indicated for the acute management of overdose.

Treatment

Life Support

    A) Support respiratory and cardiovascular function.

Patient Disposition

    6.3.1) DISPOSITION/ORAL EXPOSURE
    6.3.1.1) ADMISSION CRITERIA/ORAL
    A) Patients with persistent toxicity after 6 to 12 hours should be admitted. Patients with severe toxicity may need to be admitted to an intensive care unit.
    6.3.1.2) HOME CRITERIA/ORAL
    A) An asymptomatic child with a minor (40 mg or less) inadvertent ingestion may be monitored at home. Based on limited data, children with a larger ingestion (greater than 40 mg) should be evaluated in a healthcare facility. An asymptomatic adult or those with mild toxicity following an isolated unintentional acute ingestion of less than 200 mg may be observed at home with instructions to go to a healthcare facility, if symptoms develop.
    6.3.1.3) CONSULT CRITERIA/ORAL
    A) Consult a poison center or medical toxicologist for assistance in managing patients with severe toxicity or an unclear diagnosis.
    6.3.1.5) OBSERVATION CRITERIA/ORAL
    A) Symptomatic patients and those with ingestions of more than 200 mg should be evaluated in a healthcare facility and observed for 6 to 12 hours.

Monitoring

    A) Routine laboratory studies may not be necessary following a minor exposure. If the patient develops significant fluid loss (eg, vomiting and/or diarrhea), monitor electrolytes and volume status.
    B) Monitor vital signs (including temperature) and mental status.
    C) Obtain baseline ECG, continuous cardiac monitoring, and serial ECGs following a significant exposure.
    D) Monitor serum electrolytes patients with significant overdose.
    E) Monitor serial neurologic exams for evidence of serotonergic excess (altered mental status, hyperreflexia, clonus, myoclonus, rigidity, seizures).
    F) Plasma concentrations are not readily available and do not correlate well with therapeutic or adverse effects. It is not indicated for the acute management of overdose.

Oral Exposure

    6.5.1) PREVENTION OF ABSORPTION/PREHOSPITAL
    A) GI decontamination is not recommended because of the potential risk for somnolence and/or seizures.
    6.5.2) PREVENTION OF ABSORPTION
    A) ACTIVATED CHARCOAL
    1) CHARCOAL ADMINISTRATION
    a) Consider administration of activated charcoal after a potentially toxic ingestion (Chyka et al, 2005). Administer charcoal as an aqueous slurry; most effective when administered within one hour of ingestion.
    2) CHARCOAL DOSE
    a) Use a minimum of 240 milliliters of water per 30 grams charcoal (FDA, 1985). Optimum dose not established; usual dose is 25 to 100 grams in adults and adolescents; 25 to 50 grams in children aged 1 to 12 years (or 0.5 to 1 gram/kilogram body weight) ; and 0.5 to 1 gram/kilogram in infants up to 1 year old (Chyka et al, 2005).
    1) Routine use of a cathartic with activated charcoal is NOT recommended as there is no evidence that cathartics reduce drug absorption and cathartics are known to cause adverse effects such as nausea, vomiting, abdominal cramps, electrolyte imbalances and occasionally hypotension (None Listed, 2004).
    b) ADVERSE EFFECTS/CONTRAINDICATIONS
    1) Complications: emesis, aspiration (Chyka et al, 2005). Aspiration may be complicated by acute respiratory failure, ARDS, bronchiolitis obliterans or chronic lung disease (Golej et al, 2001; Graff et al, 2002; Pollack et al, 1981; Harris & Filandrinos, 1993; Elliot et al, 1989; Rau et al, 1988; Golej et al, 2001; Graff et al, 2002). Refer to the ACTIVATED CHARCOAL/TREATMENT management for further information.
    2) Contraindications: unprotected airway (increases risk/severity of aspiration) , nonfunctioning gastrointestinal tract, uncontrolled vomiting, and ingestion of most hydrocarbons (Chyka et al, 2005).
    6.5.3) TREATMENT
    A) SUPPORT
    1) Treatment is symptomatic and supportive. Control agitation and confusion with benzodiazepines (first-line therapy). Other treatments may include cyproheptadine and supportive care.
    B) AIRWAY MANAGEMENT
    1) Perform early, if the patient presents with neuromuscular paralysis or if the patient has evidence of respiratory or CNS depression and unable to protect their airway, severe muscle rigidity, or severe hyperthermia.
    C) MONITORING OF PATIENT
    1) Routine laboratory studies may not be necessary following a minor exposure. If the patient develops significant fluid loss (eg, vomiting and/or diarrhea), monitor electrolytes and volume status.
    2) Monitor vital signs (including temperature) and mental status.
    3) Monitor serum electrolytes patients with significant overdose.
    4) Monitor serial neurologic exams for evidence of serotonergic excess (altered mental status, hyperreflexia, clonus, myoclonus, rigidity, seizures).
    5) Obtain baseline ECG, continuous cardiac monitoring, and serial ECGs following a significant exposure.
    6) Plasma concentrations are not readily available and do not correlate well with therapeutic or adverse effects. It is not indicated for the acute management of overdose.
    D) SEIZURE
    1) SUMMARY
    a) Attempt initial control with a benzodiazepine (eg, diazepam, lorazepam). If seizures persist or recur, administer phenobarbital or propofol.
    b) Monitor for respiratory depression, hypotension, and dysrhythmias. Endotracheal intubation should be performed in patients with persistent seizures.
    c) Evaluate for hypoxia, electrolyte disturbances, and hypoglycemia (or, if immediate bedside glucose testing is not available, treat with intravenous dextrose).
    2) DIAZEPAM
    a) ADULT DOSE: Initially 5 to 10 mg IV, OR 0.15 mg/kg IV up to 10 mg per dose up to a rate of 5 mg/minute; may be repeated every 5 to 20 minutes as needed (Brophy et al, 2012; Prod Info diazepam IM, IV injection, 2008; Manno, 2003).
    b) PEDIATRIC DOSE: 0.1 to 0.5 mg/kg IV over 2 to 5 minutes; up to a maximum of 10 mg/dose. May repeat dose every 5 to 10 minutes as needed (Loddenkemper & Goodkin, 2011; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008).
    c) Monitor for hypotension, respiratory depression, and the need for endotracheal intubation. Consider a second agent if seizures persist or recur after repeated doses of diazepam .
    3) NO INTRAVENOUS ACCESS
    a) DIAZEPAM may be given rectally or intramuscularly (Manno, 2003). RECTAL DOSE: CHILD: Greater than 12 years: 0.2 mg/kg; 6 to 11 years: 0.3 mg/kg; 2 to 5 years: 0.5 mg/kg (Brophy et al, 2012).
    b) MIDAZOLAM has been used intramuscularly and intranasally, particularly in children when intravenous access has not been established. ADULT DOSE: 0.2 mg/kg IM, up to a maximum dose of 10 mg (Brophy et al, 2012). PEDIATRIC DOSE: INTRAMUSCULAR: 0.2 mg/kg IM, up to a maximum dose of 7 mg (Chamberlain et al, 1997) OR 10 mg IM (weight greater than 40 kg); 5 mg IM (weight 13 to 40 kg); INTRANASAL: 0.2 to 0.5 mg/kg up to a maximum of 10 mg/dose (Loddenkemper & Goodkin, 2011; Brophy et al, 2012). BUCCAL midazolam, 10 mg, has been used in adolescents and older children (5-years-old or more) to control seizures when intravenous access was not established (Scott et al, 1999).
    4) LORAZEPAM
    a) MAXIMUM RATE: The rate of intravenous administration of lorazepam should not exceed 2 mg/min (Brophy et al, 2012; Prod Info lorazepam IM, IV injection, 2008).
    b) ADULT DOSE: 2 to 4 mg IV initially; repeat every 5 to 10 minutes as needed, if seizures persist (Manno, 2003; Brophy et al, 2012).
    c) PEDIATRIC DOSE: 0.05 to 0.1 mg/kg IV over 2 to 5 minutes, up to a maximum of 4 mg/dose; may repeat in 5 to 15 minutes as needed, if seizures continue (Brophy et al, 2012; Loddenkemper & Goodkin, 2011; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008; Sreenath et al, 2009; Chin et al, 2008).
    5) PHENOBARBITAL
    a) ADULT LOADING DOSE: 20 mg/kg IV at an infusion rate of 50 to 100 mg/minute IV. An additional 5 to 10 mg/kg dose may be given 10 minutes after loading infusion if seizures persist or recur (Brophy et al, 2012).
    b) Patients receiving high doses will require endotracheal intubation and may require vasopressor support (Brophy et al, 2012).
    c) PEDIATRIC LOADING DOSE: 20 mg/kg may be given as single or divided application (2 mg/kg/minute in children weighing less than 40 kg up to 100 mg/min in children weighing greater than 40 kg). A plasma concentration of about 20 mg/L will be achieved by this dose (Loddenkemper & Goodkin, 2011).
    d) REPEAT PEDIATRIC DOSE: Repeat doses of 5 to 20 mg/kg may be given every 15 to 20 minutes if seizures persist, with cardiorespiratory monitoring (Loddenkemper & Goodkin, 2011).
    e) MONITOR: For hypotension, respiratory depression, and the need for endotracheal intubation (Loddenkemper & Goodkin, 2011; Manno, 2003).
    f) SERUM CONCENTRATION MONITORING: Monitor serum concentrations over the next 12 to 24 hours. Therapeutic serum concentrations of phenobarbital range from 10 to 40 mcg/mL, although the optimal plasma concentration for some individuals may vary outside this range (Hvidberg & Dam, 1976; Choonara & Rane, 1990; AMA Department of Drugs, 1992).
    6) OTHER AGENTS
    a) If seizures persist after phenobarbital, propofol or pentobarbital infusion, or neuromuscular paralysis with general anesthesia (isoflurane) and continuous EEG monitoring should be considered (Manno, 2003). Other anticonvulsants can be considered (eg, valproate sodium, levetiracetam, lacosamide, topiramate) if seizures persist or recur; however, there is very little data regarding their use in toxin induced seizures, controlled trials are not available to define the optimal dosage ranges for these agents in status epilepticus (Brophy et al, 2012):
    1) VALPROATE SODIUM: ADULT DOSE: An initial dose of 20 to 40 mg/kg IV, at a rate of 3 to 6 mg/kg/minute; may give an additional dose of 20 mg/kg 10 minutes after loading infusion. PEDIATRIC DOSE: 1.5 to 3 mg/kg/minute (Brophy et al, 2012).
    2) LEVETIRACETAM: ADULT DOSE: 1000 to 3000 mg IV, at a rate of 2 to 5 mg/kg/min IV. PEDIATRIC DOSE: 20 to 60 mg/kg IV (Brophy et al, 2012; Loddenkemper & Goodkin, 2011).
    3) LACOSAMIDE: ADULT DOSE: 200 to 400 mg IV; 200 mg IV over 15 minutes (Brophy et al, 2012). PEDIATRIC DOSE: In one study, median starting doses of 1.3 mg/kg/day and maintenance doses of 4.7 mg/kg/day were used in children 8 years and older (Loddenkemper & Goodkin, 2011).
    4) TOPIRAMATE: ADULT DOSE: 200 to 400 mg nasogastric/orally OR 300 to 1600 mg/day orally divided in 2 to 4 times daily (Brophy et al, 2012).
    E) SEROTONIN SYNDROME
    1) SUMMARY
    a) Benzodiazepines are the mainstay of therapy. Cyproheptadine, a 5-HT antagonist, is also commonly used. Severe cases have been managed with benzodiazepine sedation and neuromuscular paralysis with non-depolarizing agents(Claassen & Gelissen, 2005).
    2) HYPERTHERMIA
    a) Control agitation and muscle activity. Undress patient and enhance evaporative heat loss by keeping skin damp and using cooling fans.
    b) MUSCLE ACTIVITY: Benzodiazepines are the drug of choice to control agitation and muscle activity. DIAZEPAM: ADULT: 5 to 10 mg IV every 5 to 10 minutes as needed, monitor for respiratory depression and need for intubation. CHILD: 0.25 mg/kg IV every 5 to 10 minutes; monitor for respiratory depression and need for intubation.
    c) Non-depolarizing paralytics may be used in severe cases.
    3) CYPROHEPTADINE
    a) Cyproheptadine is a non-specific 5-HT antagonist that has been shown to block development of serotonin syndrome in animals (Sternbach, 1991a). Cyproheptadine has been used in the treatment of serotonin syndrome (Mills, 1997; Goldberg & Huk, 1992). There are no controlled human trials substantiating its efficacy.
    b) ADULT: 12 mg initially followed by 2 mg every 2 hours if symptoms persist, up to a maximum of 32 mg in 24 hours. Maintenance dose 8 mg orally repeated every 6 hours (Boyer & Shannon, 2005).
    c) CHILD: 0.25 mg/kg/day divided every 6 hours, maximum dose 12 mg/day (Mills, 1997).
    4) HYPERTENSION
    a) Monitor vital signs regularly. For mild/moderate asymptomatic hypertension, pharmacologic intervention is usually not necessary.
    5) HYPOTENSION
    a) Administer 10 to 20 mL/kg 0.9% saline bolus and place patient supine. Further fluid therapy should be guided by central venous pressure or right heart catheterization to avoid volume overload.
    b) Pressor agents with dopaminergic effects may theoretically worsen serotonin syndrome and should be used with caution. Direct acting agents (norepinephrine, epinephrine, phentolamine) are theoretically preferred.
    c) NOREPINEPHRINE
    1) PREPARATION: Add 4 mL of 0.1% solution to 1000 mL of dextrose 5% in water to produce 4 mcg/mL.
    2) INITIAL DOSE
    a) ADULT: 2 to 3 mL (8 to 12 mcg)/minute.
    b) ADULT or CHILD: 0.1 to 0.2 mcg/kg/min. Titrate to maintain adequate blood pressure.
    3) MAINTENANCE DOSE
    a) 0.5 to 1 mL (2 to 4 mcg)/minute.
    6) SEIZURES
    a) DIAZEPAM
    1) MAXIMUM RATE: Administer diazepam IV over 2 to 3 minutes (maximum rate: 5 mg/min).
    2) ADULT DIAZEPAM DOSE: 5 to 10 mg initially, repeat every 5 to 10 minutes as needed. Monitor for hypotension, respiratory depression and the need for endotracheal intubation. Consider a second agent if seizures persist or recur after diazepam 30 milligrams.
    3) PEDIATRIC DIAZEPAM DOSE: 0.2 to 0.5 mg/kg, repeat every 5 minutes as needed. Monitor for hypotension, respiratory depression and the need for endotracheal intubation. Consider a second agent if seizures persist or recur after diazepam 10 milligrams in children over 5 years or 5 milligrams in children under 5 years of age.
    4) RECTAL USE: If an intravenous line cannot be established, diazepam may be given per rectum (not FDA approved), or lorazepam may be given intramuscularly.
    b) LORAZEPAM
    1) MAXIMUM RATE: The rate of IV administration of lorazepam should not exceed 2 mg/min (Prod Info Ativan(R), 1991).
    2) ADULT LORAZEPAM DOSE: 2 to 4 mg IV. Initial doses may be repeated in 10 to 15 minutes, if seizures persist (Prod Info ATIVAN(R) injection, 2003).
    3) PEDIATRIC LORAZEPAM DOSE: 0.1 mg/kg IV push (range: 0.05 to 0.1 mg/kg; maximum dose 4 mg); may repeat dose in 5 to 10 minutes if seizures continue. It has also been given rectally at the same dose in children with no IV access (Sreenath et al, 2009; Chin et al, 2008; Wheless, 2004; Qureshi et al, 2002; De Negri & Baglietto, 2001; Mitchell, 1996; Appleton, 1995; Giang & McBride, 1988).
    c) RECURRING SEIZURES
    1) If seizures cannot be controlled with diazepam or recur, give phenobarbital or propofol.
    d) PHENOBARBITAL
    1) SERUM LEVEL MONITORING: Monitor serum levels over next 12 to 24 hours for maintenance of therapeutic levels (15 to 25 mcg/mL).
    2) ADULT PHENOBARBITAL LOADING DOSE: 600 to 1200 mg of phenobarbital IV initially (10 to 20 mg/kg) diluted in 60 mL of 0.9% saline given at 25 to 50 mg/minute.
    3) ADULT PHENOBARBITAL MAINTENANCE DOSE: Additional doses of 120 to 240 mg may be given every 20 minutes.
    4) MAXIMUM SAFE ADULT PHENOBARBITAL DOSE: No maximum safe dose has been established. Patients in status epilepticus have received as much as 100 mg/min until seizure control was achieved or a total dose of 10 mg/kg.
    5) PEDIATRIC PHENOBARBITAL LOADING DOSE: 15 to 20 mg/kg of phenobarbital intravenously at a rate of 25 to 50 mg/min.
    6) PEDIATRIC PHENOBARBITAL MAINTENANCE DOSE: Repeat doses of 5 to 10 mg/kg may be given every 20 minutes.
    7) MAXIMUM SAFE PEDIATRIC PHENOBARBITAL DOSE: No maximum safe dose has been established. Children in status epilepticus have received doses of 30 to 120 mg/kg within 24 hours. Vasopressors and mechanical ventilation were needed in some patients receiving these doses.
    8) NEONATAL PHENOBARBITAL LOADING DOSE: 20 to 30 mg/kg IV at a rate of no more than 1 mg/kg/min in patients with no preexisting phenobarbital serum levels.
    9) NEONATAL PHENOBARBITAL MAINTENANCE DOSE: Repeat doses of 2.5 mg/kg every 12 hours may be given; adjust dosage to maintain serum levels of 20 to 40 mcg/mL.
    10) MAXIMUM SAFE NEONATAL PHENOBARBITAL DOSE: Doses of up to 20 mg/kg/min up to a total of 30 mg/kg have been tolerated in neonates.
    11) CAUTION: Adequacy of ventilation must be continuously monitored in children and adults. Intubation may be necessary with increased doses.
    7) CHLORPROMAZINE
    a) Chlorpromazine is a 5-HT2 receptor antagonist that has been used to treat cases of serotonin syndrome (Graham, 1997; Gillman, 1996). Controlled human trial documenting its efficacy are lacking.
    b) ADULT: 25 to 100 mg intramuscularly repeated in 1 hour if necessary.
    c) CHILD: 0.5 to 1 mg/kg repeated as needed every 6 to 12 hours not to exceed 2 mg/kg/day.
    8) NOT RECOMMENDED
    a) BROMOCRIPTINE: It has been used in the treatment of neuroleptic malignant syndrome but is NOT RECOMMENDED in the treatment of serotonin syndrome as it has serotonergic effects (Gillman, 1997). In one case the use of bromocriptine was associated with a fatal outcome (Kline et al, 1989).
    F) PSYCHOMOTOR AGITATION
    1) INDICATION
    a) If patient is severely agitated, sedate with IV benzodiazepines.
    2) DIAZEPAM DOSE
    a) ADULT: 5 to 10 mg IV initially, repeat every 5 to 20 minutes as needed (Brophy et al, 2012; Prod Info diazepam IM, IV injection, 2008; Manno, 2003).
    b) CHILD: 0.1 to 0.5 mg/kg IV over 2 to 5 minutes; up to a maximum of 10 mg/dose. May repeat dose every 5 to 10 minutes as needed (Loddenkemper & Goodkin, 2011; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008).
    3) LORAZEPAM DOSE
    a) ADULT: 2 to 4 mg IV initially; repeat every 5 to 10 minutes as needed (Manno, 2003).
    b) CHILD: 0.05 to 0.1 mg/kg IV over 2 to 5 minutes, up to a maximum of 4 mg/dose; may repeat in 5 to 15 minutes as needed (Brophy et al, 2012; Loddenkemper & Goodkin, 2011; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008).
    4) Extremely large doses of benzodiazepines may be required in patients with severe intoxication in order to obtain adequate sedation. Titrate dose to clinical response and monitor for hypotension, CNS and respiratory depression, and the need for endotracheal intubation.

Enhanced Elimination

    A) HEMODIALYSIS
    1) Hemodialysis and hemoperfusion are NOT of value due to the large volume of distribution and highly protein bound.(Prod Info VIIBRYD(R) oral tablets, 2011)

Abstracts

Case Reports

    A) ADULT
    1) During a premarketing long-term, open-label study, a 24-year-old woman presented in a mute and combative state with agitation and visual hallucinations after taking 5 to 6 pills of study medication (vilazodone 40 mg) to catch up on missed doses. The patient was treated with symptomatic care and discharged less than 48 hours after incident (Lindberg, 2011).
    B) PEDIATRIC
    1) During a premarketing long-term open-label study, a 21-month-old boy ingested 5 to 7 pills of vilazodone 40 mg. The child was given activated charcoal and subsequently had several episodes of vomiting. Approximately 45 minutes later, the child was noted to be very sleepy and lethargic, but all other vitals and lab values remained normal. An ECG was normal. Within a few hours of admission his symptoms resolved and he was tolerating oral fluids. He was discharged to home the following day (Lindberg, 2011).

Range Of Toxicity

Summary

    A) Dosages of 200 mg to 280 mg produced serotonin syndrome, lethargy, restlessness, hallucinations and disorientation in clinical trials.
    B) ADULT: A 24-year-old woman presented in a mute and combative state with agitation and visual hallucinations after taking 5 to 6 pills of study medication (vilazodone 40 mg) and recovered less than 48 hours after exposure following supportive care.
    C) PEDIATRIC: In an unwitnessed exposure, a 19-month-old girl ingested an estimated 37 mg/kg (10 tablets of 40 mg) of vilazodone and developed persistent tachycardia (112 to 191 beats/min), an altered mental status and seizure activity. She was intubated and treated with a continuous infusion of midazolam and recovered completely in about 2.5 days. A 21-month-old boy ingested 5 to 7 pills of vilazodone 40 mg and was initially sleepy and lethargic, but recovered uneventfully with supportive care. In another case, a 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and developed tachycardia, flaccidity and was responsive only to painful stimuli within 1 to 2 hours postingestion. In another case, a 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and developed tachycardia, flaccidity and was responsive only to painful stimuli within 1 to 2 hours postingestion. Seizures occurred within 2 hours along with persistent altered mental status; he gradually improved and recovered completely.
    D) THERAPEUTIC DOSE: The recommended dose of vilazodone is 40 mg once daily, following a 2-week titration period.

Therapeutic Dose

    7.2.1) ADULT
    A) The recommended initial dose is 10 mg ORALLY once daily for 7 days; titrate up to 20 mg or 40 mg with at least 7 days between each dosage increase (Prod Info VIIBRYD(R) oral tablets, 2015).
    7.2.2) PEDIATRIC
    A) The safety and efficacy of vilazodone in pediatric patients have not been established (Prod Info VIIBRYD(R) oral tablets, 2015).

Minimum Lethal Exposure

    A) At the time of this review, no minimum lethal dose has been established.

Maximum Tolerated Exposure

    A) Dosages of 200 to 280 mg produced serotonin syndrome, lethargy, restlessness, hallucinations and disorientation in clinical trials (Prod Info VIIBRYD(R) oral tablets, 2011).
    B) CASE REPORTS
    1) ADULT
    a) During a premarketing long-term, open-label study, a 24-year-old woman presented in a mute and combative state with agitation and visual hallucinations after taking 5 to 6 pills of study medication (vilazodone 40 mg) to catch-up on missed doses. The patient was treated with symptomatic care and discharged less than 48 hours after the incident (Lindberg, 2011).
    2) PEDIATRIC
    a) In a premarketing long-term open-label study, a 21-month-old boy ingested 5 to 7 pills of vilazodone 40 mg and became sleepy and lethargic about 45 minutes after admission and returned to baseline within a few hours. He was monitored overnight and discharged to home the following day (Lindberg, 2011).
    b) CASE REPORT: In an unwitnessed exposure, a 19-month-old girl, weighing 10.8 kg, ingested an estimated 37 mg/kg (10 tablets of 40 mg) of vilazodone. She was brought to the ED about an hour after ingestion with tachycardia (179 beats/min) and tachypnea (32 breaths/min). Other symptoms included an altered mental status, decreased responsiveness and sluggish but responsive pupils. Seizure activity was also reported. Immediate treatment included intubation and midazolam therapy and transfer to a pediatric intensive care unit. Upon presentation, the toddler was noted to have rigidity in all extremities, mild clonus, and a heart rate of 126 beats/min. A continuous infusion of midazolam was started approximately 5.5 hours after ingestion. Ten hours after ingestion, midazolam was stopped and the patient was successfully extubated. About 22 hours after exposure, her mentation was normal but she had ongoing tachycardia (112 to 191 beats/min) and gait abnormalities; however, all her symptoms completely resolved 57 hours after ingestion (Acker et al, 2015).
    c) CASE REPORT: A 20-month-old boy ingested a suspected 5.6 mg/kg of vilazodone and vomited approximately 20 minutes after exposure. Approximately one hour after exposure, he was admitted to the ER with tachycardia (144 bpm) and tachypnea (44 breaths per minute). He had 2 further episodes of vomiting after arrival and neurologically he became flaccid and only responsive to painful stimuli. Approximately 2 hours postingestion, a brief episode of becoming tense and "shaking" were observed. Laboratory studies were within normal limits. The toddler was transferred to a higher level of care and was noted to have no purposeful movement, frequent tremors, flailing his arms and legs and a Glasgow Coma Scale of 9. Following supportive care, his altered mental status gradually improved with no further seizure activity within 36 hours of exposure. Tachycardia resolved within 72 hours. The patient recovered completely (Pfeiffer et al, 2015).

Pharmacology Toxicology

Pharmacologic Mechanism

    A) The mechanism of antidepressant effect is not fully understood, but vilazodone is thought to act within the CNS to enhance serotonergic activity via selective inhibition of serotonin reuptake. Vilazodone is also a partial agonist of serotonergic 5-HT1A receptors (Prod Info VIIBRYD(R) oral tablets, 2011).

Physicochemical

Physical Characteristics

    A) Tablets contain the polymorph Form IV vilazodone hydrochloride along with inert ingredients(Prod Info VIIBRYD(R) oral tablets, 2011).

Molecular Weight

    A) 477.99 (Prod Info VIIBRYD(R) oral tablets, 2011)

References

General Bibliography

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