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Drug Interactions between bitolterol and MKO Troche

This report displays the potential drug interactions for the following 2 drugs:

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Interactions between your drugs

Major

ketamine midazolam

Applies to: MKO Troche (ketamine / midazolam / ondansetron) and MKO Troche (ketamine / midazolam / ondansetron)

MONITOR CLOSELY: Coadministration of ketamine with other central nervous system (CNS) depressants, including alcohol, may result in profound sedation, respiratory depression, coma, and death. In addition, opioid analgesics, barbiturates, and benzodiazepines may prolong the time to complete recovery from anesthesia.

MANAGEMENT: During concomitant use of ketamine with other CNS depressants, including alcohol, close monitoring of neurologic status and respiratory parameters, including respiratory rate and pulse oximetry, is recommended. Dosage adjustments should be considered according to the patient's clinical situation. Ambulatory patients should be counseled to avoid hazardous activities requiring mental alertness and motor coordination until they know how these agents affect them, and to notify their physician if they experience excessive or prolonged CNS effects that interfere with their normal activities.

References

  1. Cerner Multum, Inc. "UK Summary of Product Characteristics."
  2. Cerner Multum, Inc. "Australian Product Information."
  3. (2009) "Product Information. Ketalar (ketamine)." JHP Pharmaceuticals

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Moderate

ketamine bitolterol

Applies to: MKO Troche (ketamine / midazolam / ondansetron) and bitolterol

MONITOR: Ketamine can cause hemodynamic instability such as arrhythmias and transient increases or decreases in blood pressure, heart rate, and cardiac index. Coadministration of ketamine with direct or indirect acting sympathomimetics or vasopressin may enhance the sympathomimetic effects of ketamine leading to additive increases in blood pressure and heart rate.

MANAGEMENT: Close monitoring of vital signs, including blood pressure and heart rate is recommended whenever ketamine is used concomitantly with direct or indirect acting sympathomimetics or vasopressin. Dosage adjustments should be considered according to the patient's clinical situation. Some authorities suggest avoiding the use of ketamine in patients receiving drugs with a hypertensive effect such as ergometrine.

References

  1. Cerner Multum, Inc. "UK Summary of Product Characteristics."
  2. Cerner Multum, Inc. "Australian Product Information."
  3. (2009) "Product Information. Ketalar (ketamine)." JHP Pharmaceuticals

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Moderate

bitolterol ondansetron

Applies to: bitolterol and MKO Troche (ketamine / midazolam / ondansetron)

MONITOR: Beta-2 adrenergic agonists can cause dose-related prolongation of the QT interval and potassium loss. Theoretically, coadministration with other agents that can prolong the QT interval may result in additive effects and increased risk of ventricular arrhythmias including torsade de pointes and sudden death. In general, the risk of an individual agent or a combination of agents causing ventricular arrhythmia in association with QT prolongation is largely unpredictable but may be increased by certain underlying risk factors such as congenital long QT syndrome, cardiac disease, and electrolyte disturbances (e.g., hypokalemia, hypomagnesemia). In addition, the extent of drug-induced QT prolongation is dependent on the particular drug(s) involved and dosage(s) of the drug(s). Clinically significant prolongation of QT interval and hypokalemia occur infrequently when beta-2 agonists are inhaled at normally recommended dosages. However, these effects may be more common when the drugs are administered systemically or when recommended dosages are exceeded.

MANAGEMENT: Caution is recommended if beta-2 agonists are used in combination with other drugs that can prolong the QT interval. Patients should be advised to seek prompt medical attention if they experience symptoms that could indicate the occurrence of torsade de pointes such as dizziness, lightheadedness, fainting, palpitation, irregular heart rhythm, shortness of breath, or syncope.

References

  1. Whyte KF, Addis GJ, Whitesmith R, Reid JL (1987) "The mechanism of salbutamol-induced hypokalaemia." Br J Clin Pharmacol, 23, p. 65-71
  2. Larsson S, Svedmyr N (1977) "Bronchodilating effect and side effects of beta2- adrenoceptor stimulants by different modes of administration (tablets, metered aerosol, and combinations thereof). A study with salbutamol inasthmatics." Am Rev Respir Dis, 116, p. 861-9
  3. Hastwell G, Lambert BE (1978) "The effect of oral salbutamol on serum potassium and blood sugar." Br J Obstet Gynaecol, 85, p. 767-9
  4. (1981) "Hypokalaemia due to salbutamol overdosage." Br Med J (Clin Res Ed), 283, p. 500-1
  5. Kantola I, Tarssanen L (1986) "Hypokalemia from usual salbutamol dosage ." Chest, 89, p. 619-20
  6. Wong CS, Pavord ID, Williams J, Britton JR, Tattersfield AE (1990) "Bronchodilator, cardiovascular, and hypokalaemic effects of fenoterol, salbutamol, and terbutaline in asthma." Lancet, 336, p. 1396-9
  7. Gross TL, Sokol RJ (1980) "Severe hypokalemia and acidosis: a potential complication of beta- adrenergic treatment." Am J Obstet Gynecol, 138, p. 1225-6
  8. Clifton GD, Hunt BA, Patel RC, Burki NK (1990) "Effects of sequential doses of parenteral terbutaline on plasma levels of potassium and related cardiopulmonary responses." Am Rev Respir Dis, 141, p. 575-9
  9. Hurlbert BJ, Edelman JD, David K (1981) "Serum potassium levels during and after terbutaline." Anesth Analg, 60, p. 723-5
  10. Bengtsson B, Fagerstrom PO (1982) "Extrapulmonary effects of terbutaline during prolonged administration." Clin Pharmacol Ther, 31, p. 726-32
  11. Gelmont DM, Balmes JR, Yee A (1988) "Hypokalemia induced by inhaled bronchodilators." Chest, 94, p. 763-6
  12. Sanders JP, Potter DE, Ellis S, Bee DE, Grant JA (1977) "Metabolic and cardiovascular effects of carbuterol and metaproterenol." J Allergy Clin Immunol, 60, p. 174-9
  13. (2002) "Product Information. Proventil (albuterol)." Schering Corporation
  14. Windom H, Grainger J, Burgess C, Crane J, Pearce N, Beasley R (1990) "A comparison of the haemodynamic and hypokalaemic effects of inhaled pirbuterol and salbutamol." N Z Med J, 103, p. 259-61
  15. "Product Information. Serevent (salmeterol)." Glaxo Wellcome
  16. (2001) "Product Information. Maxair (pirbuterol)." 3M Pharmaceuticals
  17. Dickens GR, Mccoy RA, West R, Stapczynski JS, Clifton GD (1994) "Effect of nebulized albuterol on serum potassium and cardiac rhythm in patients with asthma or chronic obstructive pulmonary disease." Pharmacotherapy, 14, p. 729-33
  18. Tveskov C, Djurhuus MS, Klitgaard NAH, Egstrup K (1994) "Potassium and magnesium distribution, ECG changes, and ventricular ectopic beats during beta(2)-adrenergic stimulation with terbutaline in healthy subjects." Chest, 106, p. 1654-9
  19. Braden GL, vonOeyen PT, Germain MJ, Watson DJ, Haag BL (1997) "Ritodrine- and terbutaline-induced hypokalemia in preterm labor: Mechanisms and consequences." Kidney Int, 51, p. 1867-75
  20. Rakhmanina NY, Kearns GL, Farrar HC (1998) "Hypokalemia in an asthmatic child from abuse of albuterol metered dose inhaler." Pediatr Emerg Care, 14, p. 145-7
  21. (2001) "Product Information. Xopenex (levalbuterol)." Sepracor Inc
  22. (2001) "Product Information. Foradil (formoterol)." Novartis Pharmaceuticals
  23. Ferguson GT, Funck-Brentano C, Fischer T, Darken P, Reisner C (2003) "Cardiovascular Safety of Salmeterol in COPD." Chest, 123, p. 1817-24
  24. Milic M, Bao X, Rizos D, Liu F, Ziegler MG (2006) "Literature review and pilot studies of the effect of qt correction formulas on reported beta(2)-agonist-induced QTc prolongation." Clin Ther, 28, p. 582-90
  25. (2006) "Product Information. Brovana (arformoterol)." Sepracor Inc
  26. Lowe MD, Rowland E, Brown MJ, Grace AA (2001) "Beta(2) adrenergic receptors mediate important electrophysiological effects in human ventricular myocardium." Heart, 86, p. 45-51
  27. Sun ZH, Swan H, Vitasalo M, Toivonen L (1998) "Effects of epinephrine and phenylephrine on QT interval dispersion in congenital long QT syndrome." J Am Coll Cardiol, 31, p. 1400-5
  28. (2011) "Product Information. Arcapta Neohaler (indacaterol)." Novartis Pharmaceuticals
  29. (2013) "Product Information. Breo Ellipta (fluticasone-vilanterol)." GlaxoSmithKline
  30. (2014) "Product Information. Striverdi Respimat (olodaterol)." Boehringer Ingelheim
View all 30 references

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Drug and food interactions

Major

ketamine food

Applies to: MKO Troche (ketamine / midazolam / ondansetron)

MONITOR CLOSELY: Coadministration of ketamine with other central nervous system (CNS) depressants, including alcohol, may result in profound sedation, respiratory depression, coma, and death. In addition, opioid analgesics, barbiturates, and benzodiazepines may prolong the time to complete recovery from anesthesia.

MANAGEMENT: During concomitant use of ketamine with other CNS depressants, including alcohol, close monitoring of neurologic status and respiratory parameters, including respiratory rate and pulse oximetry, is recommended. Dosage adjustments should be considered according to the patient's clinical situation. Ambulatory patients should be counseled to avoid hazardous activities requiring mental alertness and motor coordination until they know how these agents affect them, and to notify their physician if they experience excessive or prolonged CNS effects that interfere with their normal activities.

References

  1. Cerner Multum, Inc. "UK Summary of Product Characteristics."
  2. Cerner Multum, Inc. "Australian Product Information."
  3. (2009) "Product Information. Ketalar (ketamine)." JHP Pharmaceuticals

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Moderate

ketamine food

Applies to: MKO Troche (ketamine / midazolam / ondansetron)

GENERALLY AVOID: Alcohol may potentiate some of the pharmacologic effects of ketamine. Use in combination may result in additive central nervous system (CNS) depression and/or impairment of judgment, thinking, and psychomotor skills.

GENERALLY AVOID: Coadministration of oral ketamine with grapefruit juice may significantly increase the plasma concentrations of S(+) ketamine, the dextrorotatory enantiomer of ketamine. The proposed mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall by certain compounds present in grapefruit. Inhibition of hepatic CYP450 3A4 may also contribute. When a single 0.2 mg/kg dose of S(+) ketamine was administered orally on study day 5 with grapefruit juice (200 mL three times daily for 5 days) in 12 healthy volunteers, mean S(+) ketamine peak plasma concentration (Cmax) and systemic exposure (AUC) increased by 2.1- and 3.0-fold, respectively, compared to administration with water. In addition, the elimination half-life of S(+) ketamine increased by 24% with grapefruit juice, and the ratio of the main metabolite norketamine to ketamine was decreased by 57%. The pharmacodynamics of ketamine were also altered by grapefruit juice. Specifically, self-rated relaxation was decreased and performance in the digit symbol substitution test was increased with grapefruit juice, but other behavioral or analgesic effects were not affected.

MANAGEMENT: Patients receiving ketamine should not drink alcohol. Caution is advised when ketamine is used in patients with acute alcohol intoxication or a history of chronic alcoholism. Following anesthesia with ketamine, patients should be counseled to avoid hazardous activities requiring complete mental alertness and motor coordination, such as driving or operating hazardous machinery, for at least 24 hours and until they know how the medication affects them. Patients treated with oral ketamine should also avoid consumption of grapefruit and grapefruit juice during treatment. Otherwise, dosage reductions of oral ketamine should be considered.

References

  1. Cerner Multum, Inc. "UK Summary of Product Characteristics."
  2. Cerner Multum, Inc. "Australian Product Information."
  3. (2009) "Product Information. Ketalar (ketamine)." JHP Pharmaceuticals
  4. Peltoniemi MA, Saari TI, Hagelberg NM, Laine K, Neuvonen PJ, Olkkola KT (2012) "S-ketamine concentrations are greatly increased by grapefruit juice." Eur J Clin Pharmacol, 68, p. 979-86
View all 4 references

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Moderate

midazolam food

Applies to: MKO Troche (ketamine / midazolam / ondansetron)

GENERALLY AVOID: The pharmacologic activity of oral midazolam, triazolam, and alprazolam may be increased if taken after drinking grapefruit juice. The proposed mechanism is CYP450 3A4 enzyme inhibition. In addition, acute alcohol ingestion may potentiate CNS depression and other CNS effects of many benzodiazepines. Tolerance may develop with chronic ethanol use. The mechanism may be decreased clearance of the benzodiazepines because of CYP450 hepatic enzyme inhibition. Also, it has been suggested that the cognitive deficits induced by benzodiazepines may be increased in patients who chronically consume large amounts of alcohol.

MANAGEMENT: The manufacturer recommends that grapefruit juice should not be taken with oral midazolam. Patients taking triazolam or alprazolam should be monitored for excessive sedation. Alternatively, the patient could consume orange juice which does not interact with these drugs. Patients should be advised to avoid alcohol during benzodiazepine therapy.

References

  1. (2002) "Product Information. Xanax (alprazolam)." Pharmacia and Upjohn
  2. (2002) "Product Information. Valium (diazepam)." Roche Laboratories
  3. (2001) "Product Information. Halcion (triazolam)." Pharmacia and Upjohn
  4. (1995) "Grapefruit juice interactions with drugs." Med Lett Drugs Ther, 37, p. 73-4
  5. Kupferschmidt HHT, Ha HR, Ziegler WH, Meier PJ, Krahenbuhl S (1995) "Interaction between grapefruit juice and midazolam in humans." Clin Pharmacol Ther, 58, p. 20-8
  6. Hukkinen SK, Varhe A, Olkkola KT, Neuvonen PJ (1995) "Plasma concentrations of triazolam are increased by concomitant ingestion of grapefruit juice." Clin Pharmacol Ther, 58, p. 127-31
  7. Bailey DG, Dresser GR, Kreeft JH, Munoz C, Freeman DJ, Bend JR (2000) "Grapefruit-felodipine interaction: Effect of unprocessed fruit and probable active ingredients." Clin Pharmacol Ther, 68, p. 468-77
View all 7 references

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Moderate

bitolterol food

Applies to: bitolterol

MONITOR: Coadministration of two or more sympathomimetic agents may increase the risk of adverse effects such as nervousness, irritability, and increased heart rate. Central nervous system (CNS) stimulants, particularly amphetamines, can potentiate the adrenergic response to vasopressors and other sympathomimetic agents. Additive increases in blood pressure and heart rate may occur due to enhanced peripheral sympathetic activity.

MANAGEMENT: Caution is advised if two or more sympathomimetic agents are coadministered. Pulse and blood pressure should be closely monitored.

References

  1. Rosenblatt JE, Lake CR, van Kammen DP, Ziegler MG, Bunney WE Jr (1979) "Interactions of amphetamine, pimozide, and lithium on plasma norepineophrine and dopamine-beta-hydroxylase in schizophrenic patients." Psychiatry Res, 1, p. 45-52
  2. Cavanaugh JH, Griffith JD, Oates JA (1970) "Effect of amphetamine on the pressor response to tyramine: formation of p-hydroxynorephedrine from amphetamine in man." Clin Pharmacol Ther, 11, p. 656
  3. (2001) "Product Information. Adderall (amphetamine-dextroamphetamine)." Shire Richwood Pharmaceutical Company Inc
  4. (2001) "Product Information. Tenuate (diethylpropion)." Aventis Pharmaceuticals
  5. (2001) "Product Information. Sanorex (mazindol)." Novartis Pharmaceuticals
  6. (2001) "Product Information. Focalin (dexmethylphenidate)." Mikart Inc
  7. (2002) "Product Information. Strattera (atomoxetine)." Lilly, Eli and Company
View all 7 references

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Therapeutic duplication warnings

No warnings were found for your selected drugs.

Therapeutic duplication warnings are only returned when drugs within the same group exceed the recommended therapeutic duplication maximum.

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Drug Interaction Classification

These classifications are only a guideline. The relevance of a particular drug interaction to a specific individual is difficult to determine. Always consult your healthcare provider before starting or stopping any medication.
Major Highly clinically significant. Avoid combinations; the risk of the interaction outweighs the benefit.
Moderate Moderately clinically significant. Usually avoid combinations; use it only under special circumstances.
Minor Minimally clinically significant. Minimize risk; assess risk and consider an alternative drug, take steps to circumvent the interaction risk and/or institute a monitoring plan.
Unknown No interaction information available.

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