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Drug Interactions between conjugated estrogens and MLK F2

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

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Interactions between your drugs

Major

lidocaine BUPivacaine

Applies to: MLK F2 (bupivacaine / lidocaine / triamcinolone) and MLK F2 (bupivacaine / lidocaine / triamcinolone)

GENERALLY AVOID: Additive toxicities may occur when bupivacaine is coadministered with other local anesthetics. The potential for increased risk of systemic toxicities such as methemoglobinemia and central nervous system and cardiovascular adverse reactions should be recognized.

MANAGEMENT: Additional use of local anesthetics should generally be avoided within 96 hours following administration of bupivacaine. If coadministration cannot be avoided, overall local anesthetic exposure through 72 hours must be considered in addition to monitoring for the development of methemoglobinemia as well as central nervous system and cardiovascular adverse reactions. Signs and symptoms of methemoglobinemia may be delayed some hours after drug exposure. Patients or their caregivers should be advised to seek medical attention if they notice signs and symptoms of methemoglobinemia such as slate-grey cyanosis in buccal mucous membranes, lips, and nail beds; nausea; headache; dizziness; lightheadedness; lethargy; fatigue; dyspnea; tachypnea; tachycardia; palpitation; anxiety; and confusion. In severe cases, patients may progress to central nervous system depression, stupor, seizures, acidosis, cardiac arrhythmias, syncope, shock, coma, and death. Early warning signs of central nervous system toxicity may include restlessness, anxiety, incoherent speech, dizziness, lightheadedness, numbness and tingling of the mouth and lips, metallic taste, tinnitus, blurred vision, tremors, twitching, depression, and drowsiness. Cardiovascular toxicity may include atrioventricular block, ventricular arrhythmias, cardiac arrest, and decreased cardiac output and arterial blood pressure due to depressed cardiac conductivity, excitability, and myocardial contractility. Patients should have cardiovascular and respiratory vital signs and state of consciousness constantly monitored while under treatment.

References

  1. Cerner Multum, Inc. "UK Summary of Product Characteristics." O 0
  2. Cerner Multum, Inc. "Australian Product Information." O 0
  3. "Product Information. Zynrelef (bupivacaine-meloxicam)." Heron Therapeutics (2021):

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Moderate

conjugated estrogens triamcinolone

Applies to: conjugated estrogens and MLK F2 (bupivacaine / lidocaine / triamcinolone)

MONITOR: Estrogens may enhance the systemic effects of both endogenous and exogenous corticosteroids. The proposed mechanism is an increase in serum cortisol-binding globulin (transcortin) induced by estrogens, resulting in a decreased rate of corticosteroid metabolic clearance. The interaction has been reported with estrogens or estrogen-containing oral contraceptives (OCs) and hydrocortisone, prednisone, and prednisolone. In one pharmacokinetic study, the mean plasma clearance of total prednisolone (40 mg IV) in eight female OC users was less than half that of five healthy female non-OC users and eight healthy males, and the prednisolone half-life and mean residence time were longer. There was also a 2-fold increase in the area under the plasma concentration-time curve for unbound prednisolone compared to controls.

MANAGEMENT: Patients treated concomitantly with an estrogen-containing drug may require lower dosages of corticosteroids or adrenocorticotropic agents. Pharmacologic response to these agents should be monitored more closely whenever an estrogen is added to or withdrawn from therapy in patients stabilized on their existing corticosteroid or adrenocorticotropic regimen, and the dosage(s) adjusted as necessary.

References

  1. Frey BM, Schaad HJ, Frey FJ "Pharmacokinetic interaction of contraceptive steroids with prednisone and prednisolone." Eur J Clin Pharmacol 26 (1984): 505-11
  2. Meffin PJ, Wing LM, Sallustio BC, Brooks PM "Alterations in prednisolone as a result of oral contraceptive use and dose." Br J Clin Pharmacol 17 (1984): 655-64
  3. Legler UF, Benet LZ "Marked alterations in dose-dependent prednisolone kinetics in women taking oral contraceptives." Clin Pharmacol Ther 39 (1986): 425-9
  4. Olivesi A "Modified elimination of prednisolone in epileptic patients on carbamazepine monotherapy, and in women using low-dose oral contraceptives." Biomed Pharmacother 40 (1986): 301-8
  5. Boekenoogen SJ, Szefler SJ, Jusko WJ "Prednisolone disposition and protein binding in oral contraceptive users." J Clin Endocrinol Metab 56 (1983): 702-8
  6. "Product Information. Ortho-Novum 1/35 (ethinyl estradiol-norethindrone)." Ortho McNeil Pharmaceutical
  7. "Product Information. Premarin (conjugated estrogens)." Wyeth-Ayerst Laboratories PROD (2001):
  8. "Product Information. Nextstellis (drospirenone-estetrol)." Mayne Pharma (2021):
View all 8 references

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Minor

lidocaine conjugated estrogens

Applies to: MLK F2 (bupivacaine / lidocaine / triamcinolone) and conjugated estrogens

Coadministration with estrogens may increase or decrease the plasma concentrations and effects of lidocaine. Estrogen can reduce alpha-l-acid glycoprotein (AAG), a plasma protein to which lidocaine has a relatively high binding affinity. Theoretically, a reduction in AAG could result in a higher free fraction of lidocaine, though clinical reports of adverse reactions resulting from this effect do not currently exist. In contrast, a pharmacokinetic study of postmenopausal women on oral hormone therapy (HT) highlighted the opposite effect. Study subjects received oral or transdermal HT with 17-beta-estradiol and micronized progesterone for 6 months with single intravenous lidocaine doses (1 mg/kg) prior to, at 3 months, and at 6 months of HT. At 3 months, lidocaine plasma exposure (AUC) and half-life were reduced by 15% and 15.2%, respectively. Additionally, lidocaine's elimination rate constant increased by 10%. However, no changes in lidocaine's AUC, half-life, or elimination rate constant were observed at 6 months with oral HT or at any point with transdermal HT. The mechanism and clinical significance are not clear, nor is the contribution, if any, of progesterone to this interaction. Clinical and laboratory monitoring may be advised when estrogen-containing products are coadministered with lidocaine.

References

  1. "Product Information. Lidocaine Hydrochloride (lidocaine)." Hospira Inc. (2024):
  2. "Product Information. Lidocaine Hydrochloride (lidocaine)." Hospira Healthcare Corporation (2015):
  3. "Product Information. Lidocaine Hydrochloride (lidocaine)." Hameln Pharma Ltd (2022):
  4. "Product Information. Xylocaine HCl (lidocaine)." Aspen Pharmacare Australia Pty Ltd (2022):
  5. gawronska-szklarz b, Zarzycki M, Musial HD, Pudlo A, Loniewski I, Drozdzik M "Lidocaine pharmacokinetics in postmenopausal women on hormone therapy https://pubmed.ncbi.nlm.nih.gov/16894333/" (2024):
View all 5 references

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Drug and food interactions

Moderate

lidocaine food

Applies to: MLK F2 (bupivacaine / lidocaine / triamcinolone)

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

  1. Huet PM, LeLorier J "Effects of smoking and chronic hepatitis B on lidocaine and indocyanine green kinetics" Clin Pharmacol Ther 28 (1980): 208-15
  2. "Product Information. Lidocaine Hydrochloride (lidocaine)." Hospira Inc. (2024):
  3. "Product Information. Lidocaine Hydrochloride (lidocaine)." Hospira Healthcare Corporation (2015):
  4. "Product Information. Lidocaine Hydrochloride (lidocaine)." Hameln Pharma Ltd (2022):
  5. "Product Information. Xylocaine HCl (lidocaine)." Aspen Pharmacare Australia Pty Ltd (2022):
  6. Isohanni MH, Neuvonen PJ, Olkkola KT "Effect of erythromycin and itraconazole on the pharmacokinetics of oral lignocaine https://pubmed.ncbi.nlm.nih.gov/10193676/" (2024):
  7. Isohanni MH, Neuvonen PJ, Olkkola KT "Effect of erythromycin and itraconazole on the pharmacokinetics of intravenous lignocaine https://pubmed.ncbi.nlm.nih.gov/9832299/" (2024):
View all 7 references

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Minor

conjugated estrogens food

Applies to: conjugated estrogens

Coadministration with grapefruit juice may increase the bioavailability of oral estrogens. The proposed mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall induced by certain compounds present in grapefruits. In a small, randomized, crossover study, the administration of ethinyl estradiol with grapefruit juice (compared to herbal tea) increased peak plasma drug concentration (Cmax) by 37% and area under the concentration-time curve (AUC) by 28%. Based on these findings, grapefruit juice is unlikely to affect the overall safety profile of ethinyl estradiol. However, as with other drug interactions involving grapefruit juice, the pharmacokinetic alterations are subject to a high degree of interpatient variability. Also, the effect on other estrogens has not been studied.

References

  1. Weber A, Jager R, Borner A, et al. "Can grapefruit juice influence ethinyl estradiol bioavailability?" Contraception 53 (1996): 41-7
  2. Schubert W, Eriksson U, Edgar B, Cullberg G, Hedner T "Flavonoids in grapefruit juice inhibit the in vitro hepatic metabolism of 17B-estradiol." Eur J Drug Metab Pharmacokinet 20 (1995): 219-24

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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.

See also

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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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