Drug Interaction Report
7 potential interactions and/or warnings found for the following 2 drugs:
- aspirin / dipyridamole
- betamethasone / iodixanol / lidocaine
Interactions between your drugs
aspirin betamethasone
Applies to: aspirin / dipyridamole, betamethasone / iodixanol / lidocaine
MONITOR: Coadministration with corticosteroids may decrease the serum concentrations and therapeutic effects of salicylates. Likewise, serum salicylate levels may increase following withdrawal of corticosteroid therapy, potentially resulting in salicylate toxicity. This interaction has been reported in patients receiving intra-articular as well as oral corticosteroids. One or more mechanisms may be involved, including an increase in the renal clearance and/or an induction of hepatic metabolism of salicylates caused by corticosteroids. Pharmacologically, the potential for increased gastrointestinal (GI) toxicity, including inflammation, bleeding, ulceration and perforation, should be considered due to additive ulcerogenic effects of these agents (especially aspirin) on the GI mucosa.
MANAGEMENT: Patients treated concomitantly with a corticosteroid may require higher dosages of salicylates or salicylate-like drugs. Pharmacologic response to these agents should be monitored more closely whenever a corticosteroid is added to or withdrawn from therapy in patients stabilized on their existing salicylate regimen, and the salicylate dosage adjusted as necessary. During concomitant therapy, patients should be advised to take the medications with food and to immediately report signs and symptoms of GI ulceration and bleeding such as severe abdominal pain, dizziness, lightheadedness, and the appearance of black, tarry stools. The selective use of prophylactic anti-ulcer therapy (e.g., antacids, H2-antagonists) may be appropriate, particularly in patients with a prior history of peptic ulcer disease or GI bleeding and in elderly and debilitated patients.
References (5)
- Baer PA, Shore A, Ikeman RL (1987) "Transient fall in serum salicylate levels following intraarticular injection of steroid in patients with rheumatoid arthritis." Arthritis Rheum, 30, p. 345-7
- Koren G, Roifman C, Gelfand E, Lavi S, Suria D, Stein L (1987) "Corticosteroids-salicylate interaction in a case of juvenile rheumatoid arthritis." Ther Drug Monit, 9, p. 177-9
- Edelman J, Potter JM, Hackett LP (1986) "The effect of intra-articular steroids on plasma salicylate concentrations." Br J Clin Pharmacol, 21, p. 301-7
- Piper JM, Ray WA, Daugherty JR, Griffin MR (1991) "Corticosteroid use and peptic ulcer disease: role of nonsteroidal ani-inflammatory drugs." Ann Intern Med, 114, p. 735-40
- Hansen RA, Tu W, Wang J, Ambuehl R, McDonald CJ, Murray MD (2008) "Risk of adverse gastrointestinal events from inhaled corticosteroids." Pharmacotherapy, 28, p. 1325-34
Drug and food interactions
lidocaine food
Applies to: betamethasone / iodixanol / lidocaine
MONITOR: Grapefruit and grapefruit juice may increase the plasma concentrations of lidocaine, which is primarily metabolized by the CYP450 3A4 and 1A2 isoenzymes to active metabolites (monoethylglycinexylidide (MEGX) and glycinexylidide). 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. The interaction has not been studied with grapefruit juice but has been reported with oral and/or intravenous lidocaine and potent CYP450 3A4 inhibitor, itraconazole, as well as moderate CYP450 3A4 inhibitor, erythromycin. A pharmacokinetic study of 9 healthy volunteers showed that the administration of lidocaine oral (1 mg/kg single dose) with itraconazole (200 mg daily) increased lidocaine systemic exposure (AUC) and peak plasma concentration (Cmax) by 75% and 55%, respectively. However, no changes were observed in the pharmacokinetics of the active metabolite MEGX. In the same study, when the moderate CYP450 3A4 inhibitor erythromycin (500 mg three times a day) was administered, lidocaine AUC and Cmax increased by 60% and 40%, respectively. By contrast, when intravenous lidocaine (1.5 mg/kg infusion over 60 minutes) was administered on the fourth day of treatment with itraconazole (200 mg once a day) no changes in lidocaine AUC or Cmax were observed. However, when lidocaine (1.5 mg/kg infusion over 60 minutes) was coadministered with erythromycin (500 mg three times a day) in the same study, the AUC and Cmax of the active metabolite MEGX significantly increased by 45-60% and 40%, respectively. The observed differences between oral and intravenous lidocaine when coadministered with CYP450 3A4 inhibitors may be attributed to inhibition of CYP450 3A4 in both the gastrointestinal tract and liver affecting oral lidocaine to a greater extent than intravenous lidocaine. In general, the effects of grapefruit products are concentration-, dose- and preparation-dependent, and can vary widely among brands. Certain preparations of grapefruit (e.g., high dose, double strength) have sometimes demonstrated potent inhibition of CYP450 3A4, while other preparations (e.g., low dose, single strength) have typically demonstrated moderate inhibition. While the clinical significance of this interaction is unknown, increased exposure to lidocaine may lead to serious and/or life-threatening reactions including respiratory depression, convulsions, bradycardia, hypotension, arrhythmias, and cardiovascular collapse.
MONITOR: Certain foods and behaviors that induce CYP450 1A2 may reduce the plasma concentrations of lidocaine. The proposed mechanism is induction of hepatic CYP450 1A2, one of the isoenzymes responsible for the metabolic clearance of lidocaine. Cigarette smoking is known to be a CYP450 1A2 inducer. In one pharmacokinetic study of 4 smokers and 5 non-smokers who received 2 doses of lidocaine (100 mg IV followed by 100 mg orally after a 2-day washout period), the smokers' systemic exposure (AUC) of oral lidocaine was 68% lower than non-smokers. The AUC of IV lidocaine was only 9% lower in smokers compared with non-smokers. Other CYP450 1A2 inducers include cruciferous vegetables (e.g., broccoli, brussels sprouts) and char-grilled meat. Therefore, eating large or variable amounts of these foods could also reduce lidocaine exposure. The clinical impact of smoking and/or the ingestion of foods that induce CYP450 1A2 on lidocaine have not been studied, however, a loss of efficacy may occur.
MANAGEMENT: Caution is recommended if lidocaine is to be used in combination with grapefruit and grapefruit juice. Monitoring for lidocaine toxicity and plasma lidocaine levels may also be advised, and the lidocaine dosage adjusted as necessary. Patients who smoke and/or consume cruciferous vegetables may be monitored for reduced lidocaine efficacy.
References (7)
- Huet PM, LeLorier J (1980) "Effects of smoking and chronic hepatitis B on lidocaine and indocyanine green kinetics" Clin Pharmacol Ther, 28, p. 208-15
- (2024) "Product Information. Lidocaine Hydrochloride (lidocaine)." Hospira Inc.
- (2015) "Product Information. Lidocaine Hydrochloride (lidocaine)." Hospira Healthcare Corporation
- (2022) "Product Information. Lidocaine Hydrochloride (lidocaine)." Hameln Pharma Ltd
- (2022) "Product Information. Xylocaine HCl (lidocaine)." Aspen Pharmacare Australia Pty Ltd
- Isohanni MH, Neuvonen PJ, Olkkola KT (2024) Effect of erythromycin and itraconazole on the pharmacokinetics of oral lignocaine https://pubmed.ncbi.nlm.nih.gov/10193676/
- Isohanni MH, Neuvonen PJ, Olkkola KT (2024) Effect of erythromycin and itraconazole on the pharmacokinetics of intravenous lignocaine https://pubmed.ncbi.nlm.nih.gov/9832299/
dipyridamole food
Applies to: aspirin / dipyridamole
ADJUST DOSING INTERVAL: Caffeine and other xanthine derivatives (e.g., theophylline) are nonspecific, competitive antagonists of adenosine receptors. As such, they may interfere with the vasodilating effect of dipyridamole, an adenosine receptor agonist. In studies of healthy volunteers, caffeine has been shown to reduce the hemodynamic response (i.e., heart rate increases, vasodilation, blood pressure changes) to dipyridamole infusions, and both caffeine and theophylline have been reported to cause false-negative results in myocardial scintigraphy tests using dipyridamole.
MANAGEMENT: Patients should avoid consumption of caffeine-containing products for at least 24 hours prior to administration of dipyridamole for myocardial perfusion imaging.
References (3)
- Smits P, Aengevaeren WR, Corstens FH, Thien T (1989) "Caffeine reduces dipyridamole-induced myocardial ischemia." J Nucl Med, 30, p. 1723-6
- (2002) "Product Information. Persantine (dipyridamole)." Boehringer-Ingelheim
- Ranhosky A, Kempthorne-Rawson J, the Intravenous Dipyridamole Thallium Imaging Study Group (1990) "The safety of intravenous dipyridamole thallium myocardial perfusion imaging." Circulation, 81, p. 1205-9
aspirin food
Applies to: aspirin / dipyridamole
GENERALLY AVOID: The concurrent use of aspirin or nonsteroidal anti-inflammatory drugs (NSAIDs) and ethanol may lead to gastrointestinal (GI) blood loss. The mechanism may be due to a combined local effect as well as inhibition of prostaglandins leading to decreased integrity of the GI lining.
MANAGEMENT: Patients should be counseled on this potential interaction and advised to refrain from alcohol consumption while taking aspirin or NSAIDs.
References (1)
- (2002) "Product Information. Motrin (ibuprofen)." Pharmacia and Upjohn
dipyridamole food
Applies to: aspirin / dipyridamole
ADJUST DOSING INTERVAL: Methylxanthines (e.g., caffeine, theophylline) are nonspecific, competitive antagonists of adenosine receptors. As such, they may interfere with the pharmacologic effects of adenosine and other adenosine receptor agonists such as dipyridamole and regadenoson. There have been case reports of patients receiving theophylline who required higher than normal dosages of adenosine for the treatment of paroxysmal supraventricular tachycardia. In studies of healthy volunteers, caffeine and theophylline have been shown to reduce the cardiovascular response to adenosine infusions (i.e., heart rate increases, vasodilation, blood pressure changes), and theophylline has also been shown to attenuate adenosine-induced respiratory effects and chest pain/discomfort. Similarly, caffeine has been found to reduce the hemodynamic response to dipyridamole, and both caffeine and theophylline have been reported to cause false-negative results in myocardial scintigraphy tests using dipyridamole. In a placebo-controlled study that assessed the effects of oral caffeine on regadenoson-induced increase in coronary flow reserve (CFR), healthy subjects who took caffeine 200 mg orally two hours prior to regadenoson administration exhibited a median CFR that was 92% that of subjects who took placebo. The study was done using positron emission tomography with radiolabeled water.
MANAGEMENT: Clinicians should be aware that adenosine and other adenosine receptor agonists may be less effective in the presence of methylxanthines. Methylxanthines including caffeine should be withheld for 12 to 24 hours (or five half-lives) prior to administration of adenosine receptor agonists for myocardial perfusion imaging. However, parenteral aminophylline should be readily available for treating severe or persistent adverse reactions to adenosine receptor agonists such as bronchospasm or chest pain.
References (9)
- Conti CR (1991) "Adenosine: clinical pharmacology and applications." Clin Cardiol, 14, p. 91-3
- Smits P, Aengevaeren WR, Corstens FH, Thien T (1989) "Caffeine reduces dipyridamole-induced myocardial ischemia." J Nucl Med, 30, p. 1723-6
- Smits P, Schouten J, Thien T (1987) "Respiratory stimulant effects of adenosine in man after caffeine and enprofylline." Br J Clin Pharmacol, 24, p. 816-9
- Minton NA, Henry JA (1991) "Pharmacodynamic interactions between infused adenosine and oral theophylline." Hum Exp Toxicol, 10, p. 411-8
- (2002) "Product Information. Persantine (dipyridamole)." Boehringer-Ingelheim
- (2001) "Product Information. Adenocard (adenosine)." Fujisawa
- Ranhosky A, Kempthorne-Rawson J, the Intravenous Dipyridamole Thallium Imaging Study Group (1990) "The safety of intravenous dipyridamole thallium myocardial perfusion imaging." Circulation, 81, p. 1205-9
- (2001) "Product Information. Adenoscan (adenosine)." Fujisawa
- (2008) "Product Information. Lexiscan (regadenoson)." Astellas Pharma US, Inc
lidocaine food
Applies to: betamethasone / iodixanol / lidocaine
MONITOR: Smoking cessation may lead to elevated plasma concentrations and enhanced pharmacologic effects of drugs that are substrates of CYP450 1A2 (and possibly CYP450 1A1) and/or certain drugs with a narrow therapeutic index (e.g., flecainide, pentazocine). One proposed mechanism is related to the loss of CYP450 1A2 and 1A1 induction by polycyclic aromatic hydrocarbons in tobacco smoke; when smoking cessation agents are initiated and smoking stops, the metabolism of certain drugs may decrease leading to increased plasma concentrations. The mechanism by which smoking cessation affects narrow therapeutic index drugs that are not known substrates of CYP450 1A2 or 1A1 is unknown. The clinical significance of this interaction is unknown as clinical data are lacking.
MANAGEMENT: Until more information is available, caution is advisable if smoking cessation agents are used concomitantly with drugs that are substrates of CYP450 1A2 or 1A1 and/or those with a narrow therapeutic range. Patients receiving smoking cessation agents may require periodic dose adjustments and closer clinical and laboratory monitoring of medications that are substrates of CYP450 1A2 or 1A1.
References (4)
- (2024) "Product Information. Cytisine (cytisinicline)." Consilient Health Ltd
- jeong sh, Newcombe D, sheridan j, Tingle M (2015) "Pharmacokinetics of cytisine, an a4 b2 nicotinic receptor partial agonist, in healthy smokers following a single dose." Drug Test Anal, 7, p. 475-82
- Vaughan DP, Beckett AH, Robbie DS (1976) "The influence of smoking on the intersubject variation in pentazocine elimination." Br J Clin Pharmacol, 3, p. 279-83
- Zevin S, Benowitz NL (1999) "Drug interactions with tobacco smoking: an update" Clin Pharmacokinet, 36, p. 425-38
aspirin food
Applies to: aspirin / dipyridamole
One study has reported that coadministration of caffeine and aspirin lead to a 25% increase in the rate of appearance and 17% increase in maximum concentration of salicylate in the plasma. A significantly higher area under the plasma concentration time curve of salicylate was also reported when both drugs were administered together. The exact mechanism of this interaction has not been specified. Physicians and patients should be aware that coadministration of aspirin and caffeine may lead to higher salicylate levels faster.
References (1)
- Yoovathaworn KC, Sriwatanakul K, Thithapandha A (1986) "Influence of caffeine on aspirin pharmacokinetics." Eur J Drug Metab Pharmacokinet, 11, p. 71-6
Therapeutic duplication warnings
No duplication 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.
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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