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CERITINIB

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Classification   |    Detailed evidence-based information

Substances Included Synonyms

Therapeutic Toxic Class

    A) Ceritinib is a kinase inhibitor used for the treatment of metastatic, anaplastic lymphoma kinase (ALK)-positive non-small cell lung cancer.

Specific Substances

    1) LDK-378
    2) LDK378
    3) LDK 278
    4) CAS 1032900-25-6
    1.2.1) MOLECULAR FORMULA
    1) C28-H36-N5-O3-CI-S (Prod Info ZYKADIA(TM) oral capsules, 2014)

Available Forms Sources

    A) FORMS
    1) Ceritinib is available as 150 mg capsules (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) USES
    1) Ceritinib is indicated for the treatment of metastatic anaplastic lymphoma kinase (ALK)-positive non-small cell lung cancer in adults who have progressed beyond or are intolerant to crizotinib (Prod Info ZYKADIA(TM) oral capsules, 2014).

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: Ceritinib is indicated for the treatment of metastatic, anaplastic lymphoma kinase-positive non-small cell lung cancer in adults who have progressed on or are intolerant to crizotinib.
    B) PHARMACOLOGY: Ceritinib is a kinase inhibitor and is most active in inhibiting anaplastic lymphoma kinase (ALK) and the proliferation of ALK-dependent cancer cells. It also inhibits insulin-like growth factor 1 receptor (IGF-1R), insulin receptor (InsR), and ROS1.
    C) EPIDEMIOLOGY: Overdose is rare.
    D) WITH THERAPEUTIC USE
    1) MOST COMMON (at least 25% incidence): Diarrhea, nausea, elevated liver enzymes, vomiting, abdominal pain, fatigue, decreased appetite, and constipation. OTHER EFFECTS: Bradycardia, prolonged QT interval, rash, hyperglycemia, increased serum lipase concentrations, increased serum creatinine, decreased phosphate concentrations, esophageal disorders (eg, dyspepsia, gastroesophageal reflux disease, dysphagia), vision disorder (eg, vision impairment, blurred vision, photopsia, accommodation disorder, presbyopia, or reduced visual acuity), decreased hemoglobin, increased total bilirubin, seizures, neuropathy (eg, paresthesia, muscular weakness, gait disturbance, peripheral neuropathy, hypoesthesia, peripheral sensory neuropathy, dysesthesia, neuralgia, peripheral motor neuropathy, hypotonia, or polyneuropathy), and interstitial lung disease/pneumonitis. DRUG INTERACTION: Concomitant use of ceritinib (a CYP3A4 substrate) and strong CYP3A4 inhibitors may increase ceritinib exposure and adverse effects.
    E) WITH POISONING/EXPOSURE
    1) Overdose has not been reported. Clinical events following exposure are anticipated to be an extension of adverse events.
    0.2.20) REPRODUCTIVE
    A) Ceritinib is classified as FDA pregnancy D. There are no adequate or well-controlled studies of ceritinib in pregnant women. Ceritinib may cause fetal harm when administered during pregnancy based on its mechanism of action. In animal studies, the administration of ceritinib (below the recommended human dose of 750 mg daily) during organogenesis resulted in dose-related skeletal anomalies, such as delayed ossifications and skeletal variations. It is not known whether ceritinib is excreted into human milk, and the effects on the nursing infant from exposure to the drug in milk have not been determined.
    0.2.21) CARCINOGENICITY
    A) At the time of this review, human carcinogenicity studies have not been conducted.

Laboratory Monitoring

    A) No specific laboratory tests are necessary unless otherwise clinically indicated.
    B) Serum ceritinib concentrations are not clinically useful in guiding management following overdose, or widely available in clinical practice.
    C) Monitor vital signs and mental status.
    D) Monitor serum electrolytes, including phosphate levels in patients with significant vomiting and/or diarrhea.
    E) Institute continuous cardiac monitoring and obtain serial ECGs.
    F) Monitor liver and pancreatic enzymes, as well as renal function after significant overdose.
    G) Monitor blood glucose following significant overdose.

Treatment Overview

    0.4.2) ORAL/PARENTERAL EXPOSURE
    A) MANAGEMENT OF MILD TO MODERATE TOXICITY
    1) Treatment is symptomatic and supportive.
    B) MANAGEMENT OF SEVERE TOXICITY
    1) Treatment is symptomatic and supportive. Correct any significant fluid and/or electrolyte abnormalities in patients with severe diarrhea and/or vomiting. Severe nausea and vomiting may respond to a combination of agents from different drug classes. Therapeutic doses of ceritinib may cause prolongation of the QT interval. Concomitant use of ceritinib and other drugs that prolong the QT interval may increase the risk of torsades de pointes. Treat torsades de pointes with IV magnesium sulfate, and correct electrolyte abnormalities; overdrive pacing may be necessary. If significant hyperglycemia occurs, careful blood glucose monitoring and insulin therapy might be required.
    C) DECONTAMINATION
    1) PREHOSPITAL: Prehospital gastrointestinal decontamination is generally not recommended because of the potential for persistent seizures and subsequent aspiration.
    2) HOSPITAL: Administer activated charcoal if the overdose is recent, the patient is not vomiting, and is able to maintain airway.
    D) AIRWAY MANAGEMENT
    1) Ensure adequate ventilation and perform endotracheal intubation early in patients with life-threatening cardiac dysrhythmias or severe respiratory distress.
    E) ANTIDOTE
    1) None.
    F) NAUSEA AND VOMITING
    1) Treat severe nausea and vomiting with agents from several different classes. Agents to consider: dopamine (D2) receptor antagonists (eg, metoclopramide), phenothiazines (eg, prochlorperazine, promethazine), 5-HT3 serotonin antagonists (eg, dolasetron, granisetron, ondansetron), benzodiazepines (eg, lorazepam), corticosteroids (eg, dexamethasone), and antipsychotics (eg, haloperidol).
    G) TORSADES DE POINTES
    1) Therapeutic doses of ceritinib may cause prolongation of the QT interval. Concomitant use of ceritinib and other drugs that prolong the QT interval may increase the risk of torsades de pointes. Obtain an ECG, institute continuous cardiac monitoring and administer oxygen. Hemodynamically unstable patients require electrical cardioversion. Treat stable patients with magnesium, atrial overdrive pacing may be necessary. Correct electrolyte abnormalities (hypomagnesemia, hypokalemia, hypocalcemia). MAGNESIUM SULFATE/DOSE: ADULTS: 1 to 2 g IV (mixed in 50 to 100 mL D5W) infused over 5 min, repeat 2 g bolus and begin infusion of 0.5 to 1 g/hr if dysrhythmias recur. CHILDREN: 25 to 50 mg/kg diluted to 10 mg/mL; infuse IV over 5 to 15 min. OVERDRIVE PACING: Begin at 130 to 150 beats/min, decrease as tolerated. Rates of 100 to 120 beats/min may terminate torsades. Avoid class Ia (quinidine, disopyramide, procainamide), class Ic (flecainide, encainide, propafenone) and most class III antidysrhythmics (N-acetylprocainamide, sotalol).
    H) ENHANCED ELIMINATION
    1) Hemodialysis is unlikely to be effective due to high protein binding (97%) and large volume of distribution (4230 L) of ceritinib.
    I) PATIENT DISPOSITION
    1) HOME CRITERIA: Asymptomatic adults with inadvertent ingestions of 1 or 2 extra doses can be monitored at home.
    2) OBSERVATION CRITERIA: All patients with deliberate self-harm ingestions, or inadvertent ingestion of more than 1 or 2 extra dose should be evaluated in a healthcare facility and monitored until symptoms resolve. Children with unintentional ingestions should be observed in a healthcare facility.
    3) ADMISSION CRITERIA: Patients demonstrating severe fluid and electrolyte imbalance should be admitted. Patients with persistent cardiac dysrhythmias, mental status changes, seizures, and respiratory failure should be admitted to an ICU setting.
    4) CONSULT CRITERIA: Consult with an oncologist, medical toxicologist, and/or poison center for assistance in managing patients with severe toxicity or in whom the diagnosis is unclear.
    J) PITFALLS
    1) When managing a suspected ceritinib overdose, the possibility of multi-drug involvement should be considered.
    K) PHARMACOKINETICS
    1) Tmax: About 4 to 6 hours. Protein binding: 97%. Vd: 4230 L. Metabolism: liver (primary); inhibitor of CYP3A and CYP2C9. Following a single oral 750 mg-dose of ceritinib, 1.3% was recovered in the urine; 92.3% was recovered in the feces with 68% as unchanged drug. Mean elimination half-life: 41 hours.
    L) DIFFERENTIAL DIAGNOSIS
    1) Includes other agents that may cause hepatotoxicity, severe diarrhea, hyperglycemia, or prolonged QT.

Range Of Toxicity

    A) TOXICITY: A specific toxic dose has not been reported.
    B) THERAPEUTIC DOSES: ADULTS: 750 mg orally once daily on an empty stomach. PEDIATRIC: Safety and efficacy in pediatric patients have not been established.

Clinical Effects

Summary Of Exposure

    A) USES: Ceritinib is indicated for the treatment of metastatic, anaplastic lymphoma kinase-positive non-small cell lung cancer in adults who have progressed on or are intolerant to crizotinib.
    B) PHARMACOLOGY: Ceritinib is a kinase inhibitor and is most active in inhibiting anaplastic lymphoma kinase (ALK) and the proliferation of ALK-dependent cancer cells. It also inhibits insulin-like growth factor 1 receptor (IGF-1R), insulin receptor (InsR), and ROS1.
    C) EPIDEMIOLOGY: Overdose is rare.
    D) WITH THERAPEUTIC USE
    1) MOST COMMON (at least 25% incidence): Diarrhea, nausea, elevated liver enzymes, vomiting, abdominal pain, fatigue, decreased appetite, and constipation. OTHER EFFECTS: Bradycardia, prolonged QT interval, rash, hyperglycemia, increased serum lipase concentrations, increased serum creatinine, decreased phosphate concentrations, esophageal disorders (eg, dyspepsia, gastroesophageal reflux disease, dysphagia), vision disorder (eg, vision impairment, blurred vision, photopsia, accommodation disorder, presbyopia, or reduced visual acuity), decreased hemoglobin, increased total bilirubin, seizures, neuropathy (eg, paresthesia, muscular weakness, gait disturbance, peripheral neuropathy, hypoesthesia, peripheral sensory neuropathy, dysesthesia, neuralgia, peripheral motor neuropathy, hypotonia, or polyneuropathy), and interstitial lung disease/pneumonitis. DRUG INTERACTION: Concomitant use of ceritinib (a CYP3A4 substrate) and strong CYP3A4 inhibitors may increase ceritinib exposure and adverse effects.
    E) WITH POISONING/EXPOSURE
    1) Overdose has not been reported. Clinical events following exposure are anticipated to be an extension of adverse events.

Heent

    3.4.3) EYES
    A) WITH THERAPEUTIC USE
    1) VISION DISORDER: During clinical trials (Study 1), vision disorder (eg, vision impairment, blurred vision, photopsia, accommodation disorder, presbyopia, or reduced visual acuity) occurred in 9% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily) (Prod Info ZYKADIA(TM) oral capsules, 2014).

Cardiovascular

    3.5.2) CLINICAL EFFECTS
    A) BRADYCARDIA
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), bradycardia occurred in 3% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Heart rate of less than 50 beats/min developed in less than 1% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) PROLONGED QT INTERVAL
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), concentration-dependent increases in the QTc interval developed in 4% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). One of 304 patients (less than 1%) during the development program of ceritinib (dose range: 50 to 750 mg) developed a QTc interval of greater than 500 msec and 3% had QTc increases more than 60 msec over baseline (Prod Info ZYKADIA(TM) oral capsules, 2014).
    C) CARDIAC TAMPONADE
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), fatal cardiac tamponade occurred in one patient (Prod Info ZYKADIA(TM) oral capsules, 2014)

Respiratory

    3.6.2) CLINICAL EFFECTS
    A) INTERSTITIAL LUNG DISEASE
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), pneumonitis occurred in 4% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Interstitial lung disease/pneumonitis (Grades 3/4) developed in 3% of patients. Fatal interstitial lung disease/pneumonitis occurred in one patient (0.4%) (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) PNEUMONITIS
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), pneumonitis occurred in 4% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (Prod Info ZYKADIA(TM) oral capsules, 2014).
    C) DYSPNEA
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), dyspnea occurred in at least 2% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib. One patient died of unexplained respiratory failure (Prod Info ZYKADIA(TM) oral capsules, 2014).

Neurologic

    3.7.2) CLINICAL EFFECTS
    A) SEIZURE
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), seizures occurred in at least 2% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily) (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) NEUROPATHY
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), neuropathy occurred in 17% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Symptoms included paresthesia, muscular weakness, gait disturbance, peripheral neuropathy, hypoesthesia, peripheral sensory neuropathy, dysesthesia, neuralgia, peripheral motor neuropathy, hypotonia, or polyneuropathy (Prod Info ZYKADIA(TM) oral capsules, 2014).
    C) FATIGUE
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), fatigue or asthenia occurred in 52% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Fatigue or asthenia (Grades 3/4) developed in 5% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).

Gastrointestinal

    3.8.2) CLINICAL EFFECTS
    A) DECREASE IN APPETITE
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), decreased in appetite (all Grades) occurred in 34% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Decreased appetite (Grades 3/4) developed in 1% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) NAUSEA
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), nausea (all Grades) occurred in 80% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Nausea (Grades 3/4) developed in 4% of patients. Overall, 96% of patients developed diarrhea, nausea, vomiting, or abdominal pain, including severe cases in 14% of patients. Dose modifications were required in 38% (Prod Info ZYKADIA(TM) oral capsules, 2014).
    C) DIARRHEA
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), diarrhea (all Grades) occurred in 86% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Diarrhea (Grades 3/4) developed in 6% of patients. Overall, 96% of patients developed diarrhea, nausea, vomiting, or abdominal pain, including severe cases in 14% of patients. Dose modifications were required in 38% (Prod Info ZYKADIA(TM) oral capsules, 2014).
    D) VOMITING
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), vomiting (all Grades) occurred in 60% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Vomiting (Grades 3/4) developed in 4% of patients. Overall, 96% of patients developed diarrhea, nausea, vomiting, or abdominal pain, including severe cases in 14% of patients. Dose modifications were required in 38% (Prod Info ZYKADIA(TM) oral capsules, 2014).
    E) ABDOMINAL PAIN
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), abdominal pain (all Grades) occurred in 54% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Abdominal pain (Grades 3/4) developed in 2% of patients. Overall, 96% of patients developed diarrhea, nausea, vomiting, or abdominal pain, including severe cases in 14% of patients. Dose modifications were required in 38% (Prod Info ZYKADIA(TM) oral capsules, 2014).
    F) CONSTIPATION
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), constipation occurred in 29% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily) (Prod Info ZYKADIA(TM) oral capsules, 2014).
    G) DISORDER OF ESOPHAGUS
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), esophageal disorders (all Grades; eg, dyspepsia, gastroesophageal reflux disease, dysphagia) occurred in 16% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Esophageal disorders (Grades 3/4) developed in 1% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).
    H) GASTRIC HEMORRHAGE
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), fatal gastric hemorrhage occur in one patient (Prod Info ZYKADIA(TM) oral capsules, 2014).

Hepatic

    3.9.2) CLINICAL EFFECTS
    A) LIVER ENZYMES ABNORMAL
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), elevated ALT levels (all Grades) occurred in 80% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Elevations in ALT (Grades 3/4) developed in 27% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).
    b) During clinical trials (Study 1), elevated AST levels (all Grades) occurred in 75% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Elevations in AST (Grades 3/4) developed in 13% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) TOXIC LIVER DISEASE
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), hepatotoxicity occurred in anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily) (Prod Info ZYKADIA(TM) oral capsules, 2014).
    C) INCREASED BILIRUBIN LEVEL
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), increased total bilirubin occurred in 15% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Increased total bilirubin (Grades 3/4) developed in 1% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).

Genitourinary

    3.10.2) CLINICAL EFFECTS
    A) SERUM CREATININE RAISED
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), increased serum creatinine (all Grades) occurred in 58% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Increased serum creatinine (Grades 3/4) developed in 2% of patients(Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) HYPOPHOSPHATEMIA
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), decreased phosphate concentrations (all Grades) occurred in 36% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Decreased phosphate concentrations (Grades 3/4) developed in 7% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).

Hematologic

    3.13.2) CLINICAL EFFECTS
    A) DECREASED HEMOGLOBIN
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), decreased hemoglobin (all Grades) occurred in 84% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Decreased hemoglobin (Grades 3/4) developed in 5% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).

Dermatologic

    3.14.2) CLINICAL EFFECTS
    A) ERUPTION
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), rash (all Grades; included maculopapular rash and acneiform dermatitis) occurred in 16% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily) (Prod Info ZYKADIA(TM) oral capsules, 2014).

Endocrine

    3.16.2) CLINICAL EFFECTS
    A) HYPERGLYCEMIA
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), hyperglycemia (all Grades) occurred in 49% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Hyperglycemia (Grades 3/4) developed in 13% of patients. Preexisting diabetes or glucose intolerance increased risk of grade 3 or 4 reaction by 6-fold. Concurrent corticosteroid treatment increased risk of grade 3 or 4 reaction by 2-fold (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) INCREASED SERUM LIPASE LEVEL
    1) WITH THERAPEUTIC USE
    a) During clinical trials (Study 1), increased serum lipase levels (all Grades) occurred in 28% of 255 anaplastic lymphoma kinase (ALK)-positive patients who received oral ceritinib (750 mg daily). Increased serum lipase levels (Grades 3/4) developed in 10% of patients (Prod Info ZYKADIA(TM) oral capsules, 2014).

Reproductive

    3.20.1) SUMMARY
    A) Ceritinib is classified as FDA pregnancy D. There are no adequate or well-controlled studies of ceritinib in pregnant women. Ceritinib may cause fetal harm when administered during pregnancy based on its mechanism of action. In animal studies, the administration of ceritinib (below the recommended human dose of 750 mg daily) during organogenesis resulted in dose-related skeletal anomalies, such as delayed ossifications and skeletal variations. It is not known whether ceritinib is excreted into human milk, and the effects on the nursing infant from exposure to the drug in milk have not been determined.
    3.20.2) TERATOGENICITY
    A) ANIMAL STUDIES
    1) RATS: A study in rats at doses as low as 50 mg/kg/day (less than 0.5-fold the human exposure by AUC at the recommended dose) administered during organogenesis has shown dose-related skeletal anomalies, such as delayed ossifications and skeletal variations (Prod Info ZYKADIA(TM) oral capsules, 2014).
    2) RABBITS: A study in rabbits at doses as low as 2 mg/kg/day (approximately 0.015-fold the human exposure by AUC at the recommended dose) given during organogenesis has shown dose related skeletal abnormalities, including incomplete ossification. Doses equal to or greater than 10 mg/kg/day (approximately 0.13-fold the human exposure by AUC at the recommended dose) resulted in a low incidence of visceral anomalies, including absent or malpositioned gallbladder and retroesophageal subclavian cardiac artery (Prod Info ZYKADIA(TM) oral capsules, 2014).
    3.20.3) EFFECTS IN PREGNANCY
    A) PREGNANCY CATEGORY
    1) Ceritinib is classified as FDA pregnancy D (Prod Info ZYKADIA(TM) oral capsules, 2014).
    2) There are no adequate or well-controlled studies of ceritinib in pregnant women. Ceritinib may cause fetal harm when administered during pregnancy based on its mechanism of action. Advise women to use contraception while undergoing treatment with ceritinib and for at least 2 weeks after completing treatment. If a patient does become pregnant under these circumstances, she should be advised of the potential hazard to the fetus (Prod Info ZYKADIA(TM) oral capsules, 2014).
    B) ANIMAL STUDIES
    1) RABBITS: In animal studies, maternally toxic doses of 35 mg/kg/day or greater resulted in abortion in rabbits. A dose of 50 mg/kg/day also resulted in embryolethality in rabbits (Prod Info ZYKADIA(TM) oral capsules, 2014).
    3.20.4) EFFECTS DURING BREAST-FEEDING
    A) BREAST MILK
    1) It is not known whether ceritinib is excreted into human milk, and the effects on the nursing infant from exposure to the drug in milk have not been determined. Because many drugs are present in human milk and because of the potential for severe toxicity in a nursing infant, women being treated with ceritinib should discontinue nursing (Prod Info ZYKADIA(TM) oral capsules, 2014).
    3.20.5) FERTILITY
    A) ANIMAL STUDIES
    1) In animal toxicology studies, no adverse effects on male or female reproductive organs in monkeys and rats were observed following exposures equal to or greater than 0.5- and 1.5-fold, respectively, of the human exposure by AUC at the recommended dose of 750 mg (Prod Info ZYKADIA(TM) oral capsules, 2014).

Carcinogenicity

    3.21.2) SUMMARY/HUMAN
    A) At the time of this review, human carcinogenicity studies have not been conducted.
    3.21.3) HUMAN STUDIES
    A) LACK OF INFORMATION
    1) At the time of this review, human carcinogenicity studies have not been conducted (Prod Info ZYKADIA(TM) oral capsules, 2014).
    3.21.4) ANIMAL STUDIES
    A) LACK OF INFORMATION
    1) At the time of this review, animal carcinogenicity studies have not been conducted (Prod Info ZYKADIA(TM) oral capsules, 2014).

Genotoxicity

    A) Ceritinib was not mutagenic and clastogenic in the in vitro bacterial reverse mutations (Ames) assay and in vivo rat micronucleus assay, respectively; however, several aberrations (aneugenic) were induced in the in vitro cytogenetic assay using human lymphocytes, and micronuclei in the in vitro micronucleus test using TK6 cells (Prod Info ZYKADIA(TM) oral capsules, 2014).

Laboratory Monitoring

Monitoring Parameters Levels

    4.1.1) SUMMARY
    A) No specific laboratory tests are necessary unless otherwise clinically indicated.
    B) Serum ceritinib concentrations are not clinically useful in guiding management following overdose, or widely available in clinical practice.
    C) Monitor vital signs and mental status.
    D) Monitor serum electrolytes, including phosphate levels in patients with significant vomiting and/or diarrhea.
    E) Institute continuous cardiac monitoring and obtain serial ECGs.
    F) Monitor liver and pancreatic enzymes, as well as renal function after significant overdose.
    G) Monitor blood glucose following significant 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 demonstrating severe fluid and electrolyte imbalance should be admitted. Patients with persistent cardiac dysrhythmias, mental status changes, seizures, and respiratory failure should be admitted to an ICU setting.
    6.3.1.2) HOME CRITERIA/ORAL
    A) Asymptomatic adults with inadvertent ingestions of 1 or 2 extra doses can be monitored at home.
    6.3.1.3) CONSULT CRITERIA/ORAL
    A) Consult with an oncologist, medical toxicologist, and/or poison center for assistance in managing patients with severe toxicity or in whom the diagnosis is unclear.
    6.3.1.5) OBSERVATION CRITERIA/ORAL
    A) All patients with deliberate self-harm ingestions, or inadvertent ingestion of more than 1 or 2 extra dose should be evaluated in a healthcare facility and monitored until symptoms resolve. Children with unintentional ingestions should be observed in a healthcare facility.

Monitoring

    A) No specific laboratory tests are necessary unless otherwise clinically indicated.
    B) Serum ceritinib concentrations are not clinically useful in guiding management following overdose, or widely available in clinical practice.
    C) Monitor vital signs and mental status.
    D) Monitor serum electrolytes, including phosphate levels in patients with significant vomiting and/or diarrhea.
    E) Institute continuous cardiac monitoring and obtain serial ECGs.
    F) Monitor liver and pancreatic enzymes, as well as renal function after significant overdose.
    G) Monitor blood glucose following significant overdose.

Oral Exposure

    6.5.1) PREVENTION OF ABSORPTION/PREHOSPITAL
    A) Prehospital gastrointestinal decontamination is generally not recommended because of the potential for persistent seizures and subsequent aspiration.
    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) MANAGEMENT OF MILD TO MODERATE TOXICITY
    a) Treatment is symptomatic and supportive.
    2) MANAGEMENT OF SEVERE TOXICITY
    a) Treatment is symptomatic and supportive. Correct any significant fluid and/or electrolyte abnormalities in patients with severe diarrhea and/or vomiting. Severe nausea and vomiting may respond to a combination of agents from different drug classes. Therapeutic doses of ceritinib may cause prolongation of the QT interval. Concomitant use of ceritinib and other drugs that prolong the QT interval may increase the risk of torsades de pointes. Treat torsades de pointes with IV magnesium sulfate, and correct electrolyte abnormalities; overdrive pacing may be necessary. If significant hyperglycemia occurs, careful blood glucose monitoring and insulin therapy might be required.
    B) MONITORING OF PATIENT
    1) No specific laboratory tests are necessary unless otherwise clinically indicated.
    2) Serum ceritinib concentrations are not clinically useful in guiding management following overdose, or widely available in clinical practice.
    3) Monitor vital signs and mental status.
    4) Monitor serum electrolytes, including phosphate levels in patients with significant vomiting and/or diarrhea.
    5) Institute continuous cardiac monitoring and obtain serial ECGs.
    6) Monitor liver and pancreatic enzymes, as well as renal function after significant overdose.
    7) Monitor blood glucose following significant overdose.
    C) 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).
    D) TORSADES DE POINTES
    1) Therapeutic doses of ceritinib may cause prolongation of the QT interval. Concomitant use of ceritinib and other drugs that prolong the QT interval may increase the risk of torsade de pointes.
    2) SUMMARY
    a) Withdraw the causative agent. Hemodynamically unstable patients with Torsades de pointes (TdP) require electrical cardioversion. Emergent treatment with magnesium (first-line agent) or atrial overdrive pacing is indicated. Detect and correct underlying electrolyte abnormalities (ie, hypomagnesemia, hypokalemia, hypocalcemia). Correct hypoxia, if present (Drew et al, 2010; Neumar et al, 2010; Keren et al, 1981; Smith & Gallagher, 1980).
    b) Polymorphic VT associated with acquired long QT syndrome may be treated with IV magnesium. Overdrive pacing or isoproterenol may be successful in terminating TdP, particularly when accompanied by bradycardia or if TdP appears to be precipitated by pauses in rhythm (Neumar et al, 2010). In patients with polymorphic VT with a normal QT interval, magnesium is unlikely to be effective (Link et al, 2015).
    3) MAGNESIUM SULFATE
    a) Magnesium is recommended (first-line agent) for the prevention and treatment of drug-induced torsades de pointes (TdP) even if the serum magnesium concentration is normal. QTc intervals greater than 500 milliseconds after a potential drug overdose may correlate with the development of TdP (Charlton et al, 2010; Drew et al, 2010). ADULT DOSE: No clearly established guidelines exist; an optimal dosing regimen has not been established. Administer 1 to 2 grams diluted in 10 milliliters D5W IV/IO over 15 minutes (Neumar et al, 2010). Followed if needed by a second 2 gram bolus and an infusion of 0.5 to 1 gram (4 to 8 mEq) per hour in patients not responding to the initial bolus or with recurrence of dysrhythmias (American Heart Association, 2005; Perticone et al, 1997). Rate of infusion may be increased if dysrhythmias recur. For persistent refractory dysrhythmias, a continuous infusion of up to 3 to 10 milligrams/minute in adults may be given (Charlton et al, 2010).
    b) PEDIATRIC DOSE: 25 to 50 milligrams/kilogram diluted to 10 milligrams/milliliter for intravenous infusion over 5 to 15 minutes up to 2 g (Charlton et al, 2010).
    c) PRECAUTIONS: Use with caution in patients with renal insufficiency.
    d) MAJOR ADVERSE EFFECTS: High doses may cause hypotension, respiratory depression, and CNS toxicity (Neumar et al, 2010). Toxicity may be observed at magnesium levels of 3.5 to 4.0 mEq/L or greater (Charlton et al, 2010).
    e) MONITORING PARAMETERS: Monitor heart rate and rhythm, blood pressure, respiratory rate, motor strength, deep tendon reflexes, serum magnesium, phosphorus, and calcium concentrations (Prod Info magnesium sulfate heptahydrate IV, IM injection, solution, 2009).
    4) OVERDRIVE PACING
    a) Institute electrical overdrive pacing at a rate of 130 to 150 beats per minute, and decrease as tolerated. Rates of 100 to 120 beats per minute may terminate torsades (American Heart Association, 2005). Pacing can be used to suppress self-limited runs of TdP that may progress to unstable or refractory TdP, or for override refractory, persistent TdP before the potential development of ventricular fibrillation (Charlton et al, 2010). In a case series overdrive pacing was successful in terminating TdP associated with bradycardia and drug-induced QT prolongation (Neumar et al, 2010).
    5) POTASSIUM REPLETION
    a) Potassium supplementation, even if serum potassium is normal, has been recommended by many experts (Charlton et al, 2010; American Heart Association, 2005). Supplementation to supratherapeutic potassium concentrations of 4.5 to 5 mmol/L has been suggested, although there is little evidence to determine the optimal range in dysrhythmia (Drew et al, 2010; Charlton et al, 2010).
    6) ISOPROTERENOL
    a) Isoproterenol has been successful in aborting torsades de pointes that was resistant to magnesium therapy in a patient in whom transvenous overdrive pacing was not an option (Charlton et al, 2010) and has been successfully used to treat torsades de pointes associated with bradycardia and drug induced QT prolongation (Keren et al, 1981; Neumar et al, 2010). Isoproterenol may have a limited role in pharmacologic overdrive pacing in select patients with drug-induced torsades de pointes and acquired long QT syndrome (Charlton et al, 2010; Neumar et al, 2010). Isoproterenol should be avoided in patients with polymorphic VT associated with familial long QT syndrome (Neumar et al, 2010).
    b) DOSE: ADULT: 2 to 10 micrograms/minute via a continuous monitored intravenous infusion; titrate to heart rate and rhythm response (Neumar et al, 2010).
    c) PRECAUTIONS: Correct hypovolemia before using; contraindicated in patients with acute cardiac ischemia (Prod Info Isuprel(TM) intravenous injection, intramuscular injection, subcutaneous injection, intracardiac injection, 2013).
    1) Contraindicated in patients with preexisting dysrhythmias; tachycardia or heart block due to digitalis toxicity; ventricular dysrhythmias that require inotropic therapy; and angina. Use with caution in patients with coronary insufficiency (Prod Info Isuprel(TM) intravenous injection, intramuscular injection, subcutaneous injection, intracardiac injection, 2013).
    d) MAJOR ADVERSE EFFECTS: Tachycardia, cardiac dysrhythmias, palpitations, hypotension or hypertension, nervousness, headache, dizziness, and dyspnea (Prod Info Isuprel(TM) intravenous injection, intramuscular injection, subcutaneous injection, intracardiac injection, 2013).
    e) MONITORING PARAMETERS: Monitor heart rate and rhythm, blood pressure, respirations and central venous pressure to guide volume replacement (Prod Info Isuprel(TM) intravenous injection, intramuscular injection, subcutaneous injection, intracardiac injection, 2013).
    7) OTHER DRUGS
    a) Mexiletine, verapamil, propranolol, and labetalol have also been used to treat TdP, but results have been inconsistent (Khan & Gowda, 2004).
    8) AVOID
    a) Avoid class Ia antidysrhythmics (eg, quinidine, disopyramide, procainamide, aprindine), class Ic (eg, flecainide, encainide, propafenone) and most class III antidysrhythmics (eg, N-acetylprocainamide, sotalol) since they may further prolong the QT interval and have been associated with TdP.
    E) VOMITING
    1) SUMMARY
    a) TREATMENT OF BREAKTHROUGH NAUSEA AND VOMITING
    1) Treat patients with high-dose dopamine (D2) receptor antagonists (eg, metoclopramide), phenothiazines (eg, prochlorperazine, promethazine), 5-HT3 serotonin antagonists (eg, dolasetron, granisetron, ondansetron), benzodiazepines (eg, lorazepam), corticosteroids (eg, dexamethasone), and antipsychotics (eg, haloperidol); diphenhydramine may be required to prevent dystonic reactions from dopamine antagonists, phenothiazines, and antipsychotics. It may be necessary to treat with multiple concomitant agents, from different drug classes, using alternating schedules or alternating routes. In general, rectal medications should be avoided in patients with neutropenia.
    2) DOPAMINE RECEPTOR ANTAGONISTS: Metoclopramide: Adults: 10 to 40 mg orally or IV and then every 4 or 6 hours, as needed. Dose of 2 mg/kg IV every 2 to 4 hours for 2 to 5 doses may also be given. Monitor for dystonic reactions; add diphenhydramine 25 to 50 mg orally or IV every 4 to 6 hours as needed for dystonic reactions (None Listed, 1999). Children: 0.1 to 0.2 mg/kg IV every 6 hours; MAXIMUM: 10 mg/dose (Dupuis & Nathan, 2003).
    3) PHENOTHIAZINES: Prochlorperazine: Adults: 25 mg suppository as needed every 12 hours or 10 mg orally or IV every 4 or 6 hours as needed; Children (2 yrs or older): 20 to 29 pounds: 2.5 mg orally 1 to 2 times daily (MAX 7.5 mg/day); 30 to 39 pounds: 2.5 mg orally 2 to 3 times daily (MAX 10 mg/day); 40 to 85 pounds: 2.5 mg orally 3 times daily or 5 mg orally twice daily (MAX 15 mg/day) OR 2 yrs or older and greater than 20 pounds: 0.06 mg/pound IM as a single dose (Prod Info COMPAZINE(R) tablets, injection, suppositories, syrup, 2004; Prod Info Compazine(R), 2002). Promethazine: Adults: 12.5 to 25 mg orally or IV every 4 hours; Children (2 yr and older) 12.5 to 25 mg OR 0.5 mg/pound orally every 4 to 6 hours as needed (Prod Info promethazine hcl rectal suppositories, 2007). Chlorpromazine: Children: greater than 6 months of age, 0.55 mg/kg orally every 4 to 6 hours, or IV every 6 to 8 hours; max of 40 mg per dose if age is less than 5 years or weight is less than 22 kg (None Listed, 1999).
    4) SEROTONIN 5-HT3 ANTAGONISTS: Dolasetron: Adults: 100 mg orally daily or 1.8 mg/kg IV or 100 mg IV. Granisetron: Adults: 1 to 2 mg orally daily or 1 mg orally twice daily or 0.01 mg/kg (maximum 1 mg) IV or transdermal patch containing 34.3 mg granisetron. Ondansetron: Adults: 16 mg orally or 8 mg IV daily (Kris et al, 2006; None Listed, 1999); Children (older than 3 years of age): 0.15 mg/kg IV 4 and 8 hours after chemotherapy (None Listed, 1999).
    5) BENZODIAZEPINES: Lorazepam: Adults: 1 to 2 mg orally or IM/IV every 6 hours; Children: 0.05 mg/kg, up to a maximum of 3 mg, orally or IV every 8 to 12 hours as needed (None Listed, 1999).
    6) STEROIDS: Dexamethasone: Adults: 10 to 20 mg orally or IV every 4 to 6 hours; Children: 5 to 10 mg/m(2) orally or IV every 12 hours as needed; methylprednisolone: children: 0.5 to 1 mg/kg orally or IV every 12 hours as needed (None Listed, 1999).
    7) ANTIPSYCHOTICS: Haloperidol: Adults: 1 to 4 mg orally or IM/IV every 6 hours as needed (None Listed, 1999).

Enhanced Elimination

    A) HEMODIALYSIS
    1) Hemodialysis is unlikely to be effective due to high protein binding (97%) and large volume of distribution (4230 L) of ceritinib.

Range Of Toxicity

Summary

    A) TOXICITY: A specific toxic dose has not been reported.
    B) THERAPEUTIC DOSES: ADULTS: 750 mg orally once daily on an empty stomach. PEDIATRIC: Safety and efficacy in pediatric patients have not been established.

Therapeutic Dose

    7.2.1) ADULT
    A) 750 mg orally once daily, until disease progression or unacceptable toxicity, on an empty stomach (Prod Info ZYKADIA(TM) oral capsules, 2014).
    7.2.2) PEDIATRIC
    A) Safety and efficacy in pediatric patients have not been established (Prod Info ZYKADIA(TM) oral capsules, 2014).

Maximum Tolerated Exposure

    A) A specific toxic dose has not been reported.

Pharmacology Toxicology

Pharmacologic Mechanism

    A) Ceritinib is a kinase inhibitor and is most active in inhibiting anaplastic lymphoma kinase (ALK) and the proliferation of ALK-dependent cancer cells. It also inhibits insulin-like growth factor 1 receptor (IGF-1R), insulin receptor (InsR), and ROS1 (Prod Info ZYKADIA(TM) oral capsules, 2014).

Physicochemical

Physical Characteristics

    A) Ceritinib is a white to almost white or light yellow or light brown powder (Prod Info ZYKADIA(TM) oral capsules, 2014).

Molecular Weight

    A) 558.14 g/mole (Prod Info ZYKADIA(TM) oral capsules, 2014).

References

General Bibliography

    1) AMA Department of DrugsAMA Department of Drugs: AMA Evaluations Subscription, American Medical Association, Chicago, IL, 1992.
    2) American Heart Association: 2005 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. Circulation 2005; 112(24 Suppl):IV 1-203. Available from URL: http://circ.ahajournals.org/content/vol112/24_suppl/. As accessed 12/14/2005.
    3) Brophy GM, Bell R, Claassen J, et al: Guidelines for the evaluation and management of status epilepticus. Neurocrit Care 2012; 17(1):3-23.
    4) Chamberlain JM, Altieri MA, & Futterman C: A prospective, randomized study comparing intramuscular midazolam with intravenous diazepam for the treatment of seizures in children. Ped Emerg Care 1997; 13:92-94.
    5) Charlton NP , Lawrence DT , Brady WJ , et al: Termination of drug-induced torsades de pointes with overdrive pacing. Am J Emerg Med 2010; 28(1):95-102.
    6) Chin RF , Neville BG , Peckham C , et al: Treatment of community-onset, childhood convulsive status epilepticus: a prospective, population-based study. Lancet Neurol 2008; 7(8):696-703.
    7) Choonara IA & Rane A: Therapeutic drug monitoring of anticonvulsants state of the art. Clin Pharmacokinet 1990; 18:318-328.
    8) Chyka PA, Seger D, Krenzelok EP, et al: Position paper: Single-dose activated charcoal. Clin Toxicol (Phila) 2005; 43(2):61-87.
    9) Drew BJ, Ackerman MJ, Funk M, et al: Prevention of torsade de pointes in hospital settings: a scientific statement from the American Heart Association and the American College of Cardiology Foundation. J Am Coll Cardiol 2010; 55(9):934-947.
    10) Dupuis LL & Nathan PC: Options for the prevention and management of acute chemotherapy-induced nausea and vomiting in children. Paediatr Drugs 2003; 5(9):597-613.
    11) Elliot CG, Colby TV, & Kelly TM: Charcoal lung. Bronchiolitis obliterans after aspiration of activated charcoal. Chest 1989; 96:672-674.
    12) FDA: Poison treatment drug product for over-the-counter human use; tentative final monograph. FDA: Fed Register 1985; 50:2244-2262.
    13) Golej J, Boigner H, Burda G, et al: Severe respiratory failure following charcoal application in a toddler. Resuscitation 2001; 49:315-318.
    14) Graff GR, Stark J, & Berkenbosch JW: Chronic lung disease after activated charcoal aspiration. Pediatrics 2002; 109:959-961.
    15) Harris CR & Filandrinos D: Accidental administration of activated charcoal into the lung: aspiration by proxy. Ann Emerg Med 1993; 22:1470-1473.
    16) Hegenbarth MA & American Academy of Pediatrics Committee on Drugs: Preparing for pediatric emergencies: drugs to consider. Pediatrics 2008; 121(2):433-443.
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    19) Khan IA & Gowda RM: Novel therapeutics for treatment of long-QT syndrome and torsade de pointes. Int J Cardiol 2004; 95(1):1-6.
    20) Kris MG, Hesketh PJ, Somerfield MR, et al: American Society of Clinical Oncology guideline for antiemetics in oncology: update 2006. J Clin Oncol 2006; 24(18):2932-2947.
    21) Link MS, Berkow LC, Kudenchuk PJ, et al: Part 7: Adult Advanced Cardiovascular Life Support: 2015 American Heart Association Guidelines Update for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. Circulation 2015; 132(18 Suppl 2):S444-S464.
    22) Loddenkemper T & Goodkin HP: Treatment of Pediatric Status Epilepticus. Curr Treat Options Neurol 2011; Epub:Epub.
    23) Manno EM: New management strategies in the treatment of status epilepticus. Mayo Clin Proc 2003; 78(4):508-518.
    24) Neumar RW , Otto CW , Link MS , et al: Part 8: adult advanced cardiovascular life support: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. Circulation 2010; 122(18 Suppl 3):S729-S767.
    25) None Listed: ASHP Therapeutic Guidelines on the Pharmacologic Management of Nausea and Vomiting in Adult and Pediatric Patients Receiving Chemotherapy or Radiation Therapy or Undergoing Surgery. Am J Health Syst Pharm 1999; 56(8):729-764.
    26) None Listed: Position paper: cathartics. J Toxicol Clin Toxicol 2004; 42(3):243-253.
    27) Perticone F, Ceravolo R, & Cuccurullo O: Prolonged magnesium sulfate infusion in the treatment of ventricular tachycardia in acquired long QT syndrome. Clin Drug Inverst 1997; 13:229-236.
    28) Pollack MM, Dunbar BS, & Holbrook PR: Aspiration of activated charcoal and gastric contents. Ann Emerg Med 1981; 10:528-529.
    29) Product Information: COMPAZINE(R) tablets, injection, suppositories, syrup, prochlorperazine tablets, injection, suppositories, syrup. GlaxoSmithKline, Research Triangle Park, NC, 2004.
    30) Product Information: Compazine(R), prochlorperazine maleate spansule. GlaxoSmithKline, Research Triangle Park, NC, 2002.
    31) Product Information: Isuprel(TM) intravenous injection, intramuscular injection, subcutaneous injection, intracardiac injection, isoproterenol HCl intravenous injection, intramuscular injection, subcutaneous injection, intracardiac injection. Hospira, Inc. (per FDA), Lake Forest, IL, 2013.
    32) Product Information: ZYKADIA(TM) oral capsules, ceritinib oral capsules. Novartis Pharmaceuticals Corporation (per FDA), East Hanover, NJ, 2014.
    33) Product Information: diazepam IM, IV injection, diazepam IM, IV injection. Hospira, Inc (per Manufacturer), Lake Forest, IL, 2008.
    34) Product Information: lorazepam IM, IV injection, lorazepam IM, IV injection. Akorn, Inc, Lake Forest, IL, 2008.
    35) Product Information: magnesium sulfate heptahydrate IV, IM injection, solution, magnesium sulfate heptahydrate IV, IM injection, solution. Hospira, Inc. (per DailyMed), Lake Forest, IL, 2009.
    36) Product Information: promethazine hcl rectal suppositories, promethazine hcl rectal suppositories. Perrigo, Allegan, MI, 2007.
    37) Rau NR, Nagaraj MV, Prakash PS, et al: Fatal pulmonary aspiration of oral activated charcoal. Br Med J 1988; 297:918-919.
    38) Scott R, Besag FMC, & Neville BGR: Buccal midazolam and rectal diazepam for treatment of prolonged seizures in childhood and adolescence: a randomized trial. Lancet 1999; 353:623-626.
    39) Smith WM & Gallagher JJ: "Les torsades de pointes": an unusual ventricular arrhythmia. Ann Intern Med 1980; 93:578-584.
    40) Sreenath TG, Gupta P, Sharma KK, et al: Lorazepam versus diazepam-phenytoin combination in the treatment of convulsive status epilepticus in children: A randomized controlled trial. Eur J Paediatr Neurol 2009; Epub:Epub.