Drug Interactions between emtricitabine / lopinavir / ritonavir / tenofovir disoproxil and MKO Troche
This report displays the potential drug interactions for the following 2 drugs:
- emtricitabine/lopinavir/ritonavir/tenofovir disoproxil
- MKO Troche (ketamine/midazolam/ondansetron)
Interactions between your drugs
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 (3)
- Cerner Multum, Inc. "UK Summary of Product Characteristics."
- Cerner Multum, Inc. "Australian Product Information."
- (2009) "Product Information. Ketalar (ketamine)." JHP Pharmaceuticals
midazolam ritonavir
Applies to: MKO Troche (ketamine / midazolam / ondansetron) and emtricitabine / lopinavir / ritonavir / tenofovir disoproxil
CONTRAINDICATED: Coadministration with protease inhibitors (PIs) may significantly increase the plasma concentrations and pharmacologic effects of orally administered midazolam and triazolam. The mechanism is PI inhibition of intestinal and hepatic CYP450 3A4, the isoenzyme primarily responsible for the metabolic clearance of these benzodiazepines. Within the class, ritonavir is the most potent CYP450 3A4 inhibitor, while saquinavir is considered one of the weaker ones. In six healthy volunteers, ritonavir (200 mg twice a day for 2 days) nearly doubled the peak plasma concentration (Cmax) of triazolam (0.125 mg single dose) and increased its systemic exposure (AUC) and elimination half-life by 20- and 14-fold, respectively, compared to placebo. Ritonavir also decreased triazolam clearance to less than 4% of control values. In 12 healthy volunteers, the Cmax and AUC of oral midazolam (7.5 mg single dose) increased by more than 2- and 5-fold, respectively, during coadministration with saquinavir (soft gelatin capsule 1200 mg three times a day for 5 days) relative to placebo, while oral bioavailability increased from 41% to 90%. The AUC of intravenous midazolam (0.05 mg/kg single dose) increased 2.4-fold, and mean plasma clearance decreased by 56%. In both studies, the pharmacokinetic changes were accompanied by increased sedation and impairment of psychomotor performance.
MANAGEMENT: Given the potential for prolonged and/or increased sedation and respiratory depression associated with excessive benzodiazepine blood levels, concomitant use of oral midazolam or triazolam with protease inhibitors is considered contraindicated. Caution and close clinical monitoring are recommended when administering parenteral midazolam in combination with protease inhibitors. Appropriate medical management should be readily available in case of respiratory depression and/or prolonged sedation. Dosage adjustment for midazolam may be appropriate, especially if more than a single dose of midazolam is administered.
References (19)
- (2001) "Product Information. Norvir (ritonavir)." Abbott Pharmaceutical
- (2001) "Product Information. Crixivan (indinavir)." Merck & Co., Inc
- Merry C, Mulcahy F, Barry M, Gibbons S, Back D (1997) "Saquinavir interaction with midazolam: pharmacokinetic considerations when prescribing protease inhibitors for patients with HIV disease." AIDS, 11, p. 268-9
- (2001) "Product Information. Viracept (nelfinavir)." Agouron Pharma Inc
- Eagling VA, Back DJ, Barry MG (1997) "Differential inhibition of cytochrome P450 isoforms by the protease inhibitors, ritonavir, saquinavir and indinavir." Br J Clin Pharmacol, 44, p. 190-4
- Michalets EL (1998) "Update: clinically significant cytochrome P-450 drug interactions." Pharmacotherapy, 18, p. 84-112
- Malaty LI, Kuper JJ (1999) "Drug interactions of HIV protease inhibitors." Drug Safety, 20, p. 147-69
- Decker CJ, Laitinen LM, Bridson GW, Raybuck SA, Tung RD, Chaturvedi PR (1998) "Metabolism of amprenavir in liver microsomes: role of CYP3A4 inhibition for drug interactions." J Pharm Sci, 87, p. 803-7
- (2001) "Product Information. Agenerase (amprenavir)." Glaxo Wellcome
- Barry M, Mulcahy F, Merry C, Gibbons S, Back D (1999) "Pharmacokinetics and potential interactions amongst antiretroviral agents used to treat patients with HIV infection." Clin Pharmacokinet, 36, p. 289-304
- Palkama VJ, Ahonen J, Neuvonen PJ, Olkkola KT (1999) "Effect of saquinavir on the pharmacokinetics and pharmacodynamics of oral and intravenous midazolam." Clin Pharmacol Ther, 66, p. 33-9
- Dresser GK, Spence JD, Bailey DG (2000) "Pharmacokinetic-pharmacodynamic consequences and clinical relevance of cytochrome P450 3A4 inhibition." Clin Pharmacokinet, 38, p. 41-57
- Greenblatt DJ, von Moltke LL, Harmatz JS, et al. (2000) "Differential impairment of triazolam and zolpidem clearance by ritonavir." J Acquir Immune Defic Syndr, 24, p. 129-36
- (2001) "Product Information. Fortovase (saquinavir)." Roche Laboratories
- Gill J, Feinberg J (2001) "Saquinavir soft gelatin capsule - A comparative safety review." Drug Safety, 24, p. 223-32
- Mangum EM, Graham KK (2001) "Lopinavir-Ritonavir: a new protease inhibitor." Pharmacotherapy, 21, p. 1352-63
- (2003) "Product Information. Reyataz (atazanavir)." Bristol-Myers Squibb
- (2003) "Product Information. Lexiva (fosamprenavir)." GlaxoSmithKline
- (2006) "Product Information. Prezista (darunavir)." Ortho Biotech Inc
ondansetron lopinavir
Applies to: MKO Troche (ketamine / midazolam / ondansetron) and emtricitabine / lopinavir / ritonavir / tenofovir disoproxil
GENERALLY AVOID: Lopinavir in combination with ritonavir may cause dose-related prolongation of the QT interval. 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 a study of 39 healthy adults who were administered lopinavir-ritonavir at a therapeutic dosage of 400 mg-100 mg twice daily and a supratherapeutic dosage of 800 mg-200 mg twice daily, the maximum mean time-matched difference in QTcF interval from placebo (after baseline correction) was 5.3 msec for the lower dosage and 15.2 msec for the supratherapeutic dosage in the 12 hours post-dose on treatment day 3 when exposures were approximately 1.5 and 3-fold higher, respectively, than those observed with recommended once-daily or twice-daily dosages of lopinavir-ritonavir at steady state. No subject experienced an increase in QTcF greater than 60 msec from baseline or a QTcF interval exceeding the potentially clinically relevant threshold of 500 msec. There have been cases of QT interval prolongation and torsade de pointes arrhythmia during postmarketing use of lopinavir-ritonavir, although causality could not be established. 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).
MANAGEMENT: Coadministration of lopinavir-ritonavir with other drugs that can prolong the QT interval should generally be avoided. Patients treated with any medication that can cause QT prolongation 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 (5)
- (2001) "Product Information. Kaletra (lopinavir-ritonavir)." Abbott Pharmaceutical
- Anson BD, Weaver JG, Ackerman MJ, et al. (2005) "Blockade of HERG channels by HIV protease inhibitors." Lancet, 365, p. 682-686
- Cerner Multum, Inc. "UK Summary of Product Characteristics."
- Canadian Pharmacists Association (2006) e-CPS. http://www.pharmacists.ca/function/Subscriptions/ecps.cfm?link=eCPS_quikLink
- Cerner Multum, Inc. "Australian Product Information."
ritonavir tenofovir
Applies to: emtricitabine / lopinavir / ritonavir / tenofovir disoproxil and emtricitabine / lopinavir / ritonavir / tenofovir disoproxil
MONITOR: Coadministration with ritonavir, with or without lopinavir, has been suggested in postmarketing reports to increase the proximal tubular intracellular concentrations of tenofovir and potentiate the risk of tenofovir-induced nephrotoxicity. The proposed mechanism is ritonavir inhibition of tenofovir renal tubular secretion into the urine via multidrug resistance protein MRP2. Analysis of data from a compassionate access study in which 271 patients with advanced HIV disease received the combination for a mean duration of 63 weeks revealed no clinically significant nephrotoxicity associated with coadministration. However, there have been case reports of renal failure associated with acute tubular necrosis, Fanconi's syndrome, and nephrogenic diabetes insipidus in patients treated with tenofovir disoproxil fumarate in combination with ritonavir. Some patients had incomplete recovery of renal function more than a year after cessation of tenofovir therapy. Ritonavir given in combination with lopinavir has also been reported to modestly increase the plasma concentrations of tenofovir. In contrast, both slight decreases and no change in lopinavir and ritonavir concentrations have been reported.
MANAGEMENT: Caution is advised if tenofovir disoproxil fumarate is prescribed with ritonavir. Renal function should be monitored regularly, including surveillance for signs of tubulopathy such as glycosuria, acidosis, increases in serum creatinine level, electrolyte disturbances (e.g., hypokalemia, hypophosphatemia), and proteinuria. The same precaution may be applicable during therapy with other protease inhibitors based on their similar pharmacokinetic profile, although clinical data are lacking. Nelfinavir reportedly does not alter the pharmacokinetics of tenofovir, or vice versa. Tenofovir administration should be discontinued promptly if nephropathy develops.
References (8)
- (2001) "Product Information. Viread (tenofovir)." Gilead Sciences
- Verhelst D, Monge M, Meynard JL, et al. (2002) "Fanconi syndrome and renal failure induced by tenofovir: A first case report." Am J Kidney Dis, 40, p. 1331-3
- Creput C, Gonzalez-Canali G, Hill G, Piketty C, Kazatchkine M, Nochy D (2003) "Renal lesions in HIV-1-positive patient treated with tenofovir." AIDS, 17, p. 935-7
- Karras A, Lafaurie M, Furco A, et al. (2003) "Tenofovir-related nephrotoxicity in human immunodeficiency virus-infected patients: three cases of renal failure, fanconi syndrome, and nephrogenic diabetes insipidus." Clin Infect Dis, 36, p. 1070-3
- Kearney BP, Mittan A, Sayre J, et al. (2003) Pharmacokinetic drug interaction and long term safety profile of tenofovir DF and lopinavir/ritonavir. http://www.icaac.org/ICAAC.asp
- Rollot F, Nazal EM, Chauvelot-Moachon L, et al. (2003) "Tenofovir-related fanconi syndrome with nephrogenic diabetes insipidus in a patient with acquired immunodeficiency syndrome: the role of lopinavir-ritonavir-Didanosine." Clin Infect Dis, 37, E174-6
- Zimmermann AE, Pizzoferrato T, Bedford J, Morris A, Hoffman R, Braden G (2006) "Tenofovir-associated acute and chronic kidney disease: a case of multiple drug interactions." Clin Infect Dis, 42, p. 283-90
- Kapadia J, Shah S, Desai C, et al. (2013) "Tenofovir induced Fanconi syndrome: a possible pharmacokinetic interaction." Indian J Pharmacol, 45, p. 191-2
lopinavir tenofovir
Applies to: emtricitabine / lopinavir / ritonavir / tenofovir disoproxil and emtricitabine / lopinavir / ritonavir / tenofovir disoproxil
MONITOR: Coadministration with ritonavir, with or without lopinavir, has been suggested in postmarketing reports to increase the proximal tubular intracellular concentrations of tenofovir and potentiate the risk of tenofovir-induced nephrotoxicity. The proposed mechanism is ritonavir inhibition of tenofovir renal tubular secretion into the urine via multidrug resistance protein MRP2. Analysis of data from a compassionate access study in which 271 patients with advanced HIV disease received the combination for a mean duration of 63 weeks revealed no clinically significant nephrotoxicity associated with coadministration. However, there have been case reports of renal failure associated with acute tubular necrosis, Fanconi's syndrome, and nephrogenic diabetes insipidus in patients treated with tenofovir disoproxil fumarate in combination with ritonavir. Some patients had incomplete recovery of renal function more than a year after cessation of tenofovir therapy. Ritonavir given in combination with lopinavir has also been reported to modestly increase the plasma concentrations of tenofovir. In contrast, both slight decreases and no change in lopinavir and ritonavir concentrations have been reported.
MANAGEMENT: Caution is advised if tenofovir disoproxil fumarate is prescribed with ritonavir. Renal function should be monitored regularly, including surveillance for signs of tubulopathy such as glycosuria, acidosis, increases in serum creatinine level, electrolyte disturbances (e.g., hypokalemia, hypophosphatemia), and proteinuria. The same precaution may be applicable during therapy with other protease inhibitors based on their similar pharmacokinetic profile, although clinical data are lacking. Nelfinavir reportedly does not alter the pharmacokinetics of tenofovir, or vice versa. Tenofovir administration should be discontinued promptly if nephropathy develops.
References (8)
- (2001) "Product Information. Viread (tenofovir)." Gilead Sciences
- Verhelst D, Monge M, Meynard JL, et al. (2002) "Fanconi syndrome and renal failure induced by tenofovir: A first case report." Am J Kidney Dis, 40, p. 1331-3
- Creput C, Gonzalez-Canali G, Hill G, Piketty C, Kazatchkine M, Nochy D (2003) "Renal lesions in HIV-1-positive patient treated with tenofovir." AIDS, 17, p. 935-7
- Karras A, Lafaurie M, Furco A, et al. (2003) "Tenofovir-related nephrotoxicity in human immunodeficiency virus-infected patients: three cases of renal failure, fanconi syndrome, and nephrogenic diabetes insipidus." Clin Infect Dis, 36, p. 1070-3
- Kearney BP, Mittan A, Sayre J, et al. (2003) Pharmacokinetic drug interaction and long term safety profile of tenofovir DF and lopinavir/ritonavir. http://www.icaac.org/ICAAC.asp
- Rollot F, Nazal EM, Chauvelot-Moachon L, et al. (2003) "Tenofovir-related fanconi syndrome with nephrogenic diabetes insipidus in a patient with acquired immunodeficiency syndrome: the role of lopinavir-ritonavir-Didanosine." Clin Infect Dis, 37, E174-6
- Zimmermann AE, Pizzoferrato T, Bedford J, Morris A, Hoffman R, Braden G (2006) "Tenofovir-associated acute and chronic kidney disease: a case of multiple drug interactions." Clin Infect Dis, 42, p. 283-90
- Kapadia J, Shah S, Desai C, et al. (2013) "Tenofovir induced Fanconi syndrome: a possible pharmacokinetic interaction." Indian J Pharmacol, 45, p. 191-2
Drug and food interactions
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 (3)
- Cerner Multum, Inc. "UK Summary of Product Characteristics."
- Cerner Multum, Inc. "Australian Product Information."
- (2009) "Product Information. Ketalar (ketamine)." JHP Pharmaceuticals
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 (4)
- Cerner Multum, Inc. "UK Summary of Product Characteristics."
- Cerner Multum, Inc. "Australian Product Information."
- (2009) "Product Information. Ketalar (ketamine)." JHP Pharmaceuticals
- 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
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 (7)
- (2002) "Product Information. Xanax (alprazolam)." Pharmacia and Upjohn
- (2002) "Product Information. Valium (diazepam)." Roche Laboratories
- (2001) "Product Information. Halcion (triazolam)." Pharmacia and Upjohn
- (1995) "Grapefruit juice interactions with drugs." Med Lett Drugs Ther, 37, p. 73-4
- 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
- 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
- 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
ritonavir food
Applies to: emtricitabine / lopinavir / ritonavir / tenofovir disoproxil
ADJUST DOSING INTERVAL: Administration with food may modestly affect the bioavailability of ritonavir from the various available formulations. When the oral solution was given under nonfasting conditions, peak ritonavir concentrations decreased 23% and the extent of absorption decreased 7% relative to fasting conditions. Dilution of the oral solution (within one hour of dosing) with 240 mL of chocolate milk or a nutritional supplement (Advera or Ensure) did not significantly affect the extent and rate of ritonavir absorption. When a single 100 mg dose of the tablet was administered with a high-fat meal (907 kcal; 52% fat, 15% protein, 33% carbohydrates), approximately 20% decreases in mean peak concentration (Cmax) and systemic exposure (AUC) were observed relative to administration after fasting. Similar decreases in Cmax and AUC were reported when the tablet was administered with a moderate-fat meal. In contrast, the extent of absorption of ritonavir from the soft gelatin capsule formulation was 13% higher when administered with a meal (615 KCal; 14.5% fat, 9% protein, and 76% carbohydrate) relative to fasting.
MANAGEMENT: Ritonavir should be taken with meals to enhance gastrointestinal tolerability.
References (1)
- (2001) "Product Information. Norvir (ritonavir)." Abbott Pharmaceutical
lopinavir food
Applies to: emtricitabine / lopinavir / ritonavir / tenofovir disoproxil
ADJUST DOSING INTERVAL: Food significantly increases the bioavailability of lopinavir from the oral solution formulation of lopinavir-ritonavir. Relative to fasting, administration of lopinavir-ritonavir oral solution with a moderate-fat meal (500 to 682 Kcal; 23% to 25% calories from fat) increased lopinavir peak plasma concentration (Cmax) and systemic exposure (AUC) by 54% and 80%, respectively, whereas administration with a high-fat meal (872 Kcal; 56% from fat) increased lopinavir Cmax and AUC by 56% and 130%, respectively. No clinically significant changes in Cmax and AUC were observed following administration of lopinavir-ritonavir tablets under fed conditions versus fasted conditions. Relative to fasting, administration of a single 400 mg-100 mg dose (two 200 mg-50 mg tablets) with a moderate-fat meal (558 Kcal; 24.1% calories from fat) increased lopinavir Cmax and AUC by 17.6% and 26.9%, respectively, while administration with a high-fat meal (998 Kcal; 51.3% from fat) increased lopinavir AUC by 18.9% but not Cmax. Relative to fasting, ritonavir Cmax and AUC also increased by 4.9% and 14.9%, respectively, with the moderate-fat meal and 10.3% and 23.9%, respectively, with the high-fat meal.
MANAGEMENT: Lopinavir-ritonavir oral solution should be taken with meals to enhance bioavailability and minimize pharmacokinetic variability. Lopinavir-ritonavir tablets may be taken without regard to meals.
References (1)
- (2001) "Product Information. Kaletra (lopinavir-ritonavir)." Abbott Pharmaceutical
tenofovir food
Applies to: emtricitabine / lopinavir / ritonavir / tenofovir disoproxil
Food enhances the oral absorption and bioavailability of tenofovir, the active entity of tenofovir disoproxil fumarate. According to the product labeling, administration of the drug following a high-fat meal increased the mean peak plasma concentration (Cmax) and area under the concentration-time curve (AUC) of tenofovir by approximately 14% and 40%, respectively, compared to administration in the fasting state. However, administration with a light meal did not significantly affect the pharmacokinetics of tenofovir compared to administration in the fasting state. Food delays the time to reach tenofovir Cmax by approximately 1 hour. Tenofovir disoproxil fumarate may be administered without regard to meals.
References (1)
- (2001) "Product Information. Viread (tenofovir)." Gilead Sciences
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.
See also
Drug Interaction Classification
| Highly clinically significant. Avoid combinations; the risk of the interaction outweighs the benefit. | |
| Moderately clinically significant. Usually avoid combinations; use it only under special circumstances. | |
| 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. | |
| No interaction information available. |
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