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Drug Interactions between oxytetracycline / phenazopyridine / sulfamethizole and Prevpac

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

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Interactions between your drugs

Moderate

amoxicillin oxytetracycline

Applies to: Prevpac (amoxicillin / clarithromycin / lansoprazole) and oxytetracycline / phenazopyridine / sulfamethizole

GENERALLY AVOID: Tetracyclines may reduce the effect of penicillins by inhibiting cellular protein synthesis which is necessary for cell wall synthesis inhibition by penicillins. Antagonism is more likely when low doses of either agent are administered. Therapeutic failure may result.

MANAGEMENT: This combination should be avoided if possible.

References

  1. Gunnison JB, Coleman VR, Jawetz E "Interference of aureomycin and of terramycin with action of penicillin in vitro." Proc Soc Exp Biol Med 75 (1950): 549-52
  2. Lepper MH, Dowling HF "Treatment of pneumococcic meningitis with penicillin compared with penicillin plus aureomycin." Arch Intern Med 88 (1951): 489-94
  3. Jawetz E "Synergism and antagonism among antimicrobial drugs: a personal perspective." West J Med 123 (1975): 87-91
  4. Olsson RA, Kirby JC, Romansky MJ "Pneumococcal meningitis in the adult." Ann Intern Med 55 (1961): 545-9
  5. "Product Information. Declomycin (demeclocycline)." Lederle Laboratories PROD (2001):
  6. "Product Information. Seysara (sarecycline)." Allergan Inc (2018):
View all 6 references

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Moderate

clarithromycin lansoprazole

Applies to: Prevpac (amoxicillin / clarithromycin / lansoprazole) and Prevpac (amoxicillin / clarithromycin / lansoprazole)

MONITOR: Coadministration with clarithromycin may increase the plasma concentrations of lansoprazole. The proposed mechanism is clarithromycin inhibition of intestinal (first-pass) and hepatic metabolism of lansoprazole via CYP450 3A4. Although lansoprazole is primarily metabolized by CYP450 2C19 in the liver, 3A4-mediated metabolism is the predominant pathway in individuals who are 2C19-deficient (approximately 3% to 5% of the Caucasian and 17% to 20% of the Asian population). Additionally, inhibition of P-glycoprotein intestinal efflux transporter by clarithromycin may also contribute to the interaction, resulting in increased bioavailability of lansoprazole. In 18 healthy volunteers--six each of homozygous extensive metabolizers (EMs), heterozygous EMs, and poor metabolizers (PMs) of CYP450 2C19--clarithromycin (400 mg orally twice a day for 6 days) increased the peak plasma concentration (Cmax) of a single 60 mg oral dose of lansoprazole by 1.47, 1.71- and 1.52-fold, respectively, and area under the concentration-time curve (AUC) by 1.55-, 1.74- and 1.80-fold, respectively, in each of these groups compared to placebo. The AUC ratio of lansoprazole to lansoprazole sulphone, which is considered an index of CYP450 3A4 activity, was significantly increased by clarithromycin in all three groups. However, elimination half-life of lansoprazole was prolonged by 1.54-fold only in PMs. Mild diarrhea was reported in two subjects and mild abdominal disturbance in six subjects during clarithromycin coadministration. These side effects continued until day 6 and ameliorated the day after discontinuation of clarithromycin, whereas no adverse events were reported during placebo administration or after lansoprazole plus placebo. In another study, clarithromycin induced dose-dependent increases in the plasma concentration of lansoprazole in a group of 20 patients receiving treatment for H. pylori eradication. Mean 3-hour plasma lansoprazole concentration was 385 ng/mL for the control subjects who received lansoprazole 30 mg and amoxicillin 750 mg twice a day for 7 days; 696 ng/mL for patients coadministered clarithromycin 200 mg twice a day; and 947 ng/mL for patients coadministered clarithromycin 400 mg twice a day.

MANAGEMENT: Although lansoprazole is generally well tolerated, caution may be advised during coadministration with clarithromycin, particularly if higher dosages of one or both drugs are used. Dosage adjustment may be necessary in patients who experience excessive adverse effects of lansoprazole.

References

  1. Ushiama H, Echizen H, Nachi S, Ohnishi A "Dose-dependent inhibition of CYP3A activity by clarithromycin during Helicobacter pylori eradication therapy assessed by changes in plasma lansoprazole levels and partial cortisol clearance to 6beta-hydroxycortisol." Clin Pharmacol Ther 72 (2002): 33-43
  2. Saito M, Yasui-Furukori N, Uno T, et al. "Effects of clarithromycin on lansoprazole pharmacokinetics between CYP2C19 genotypes." Br J Clin Pharmacol 59 (2005): 302-9
  3. Miura M, Tada H, Yasui-Furukori N, et al. "Effect of clarithromycin on the enantioselective disposition of lansoprazole in relation to CYP2C19 genotypes." Chirality 17 (2005): 338-344

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Minor

amoxicillin clarithromycin

Applies to: Prevpac (amoxicillin / clarithromycin / lansoprazole) and Prevpac (amoxicillin / clarithromycin / lansoprazole)

Although some in vitro data indicate synergism between macrolide antibiotics and penicillins, other in vitro data indicate antagonism. When these drugs are given together, neither has predictable therapeutic efficacy. Data are available for erythromycin, although theoretically this interaction could occur with any macrolide. Except for monitoring of the effectiveness of antibiotic therapy, no special precautions appear to be necessary.

References

  1. Strom J "Penicillin and erythromycin singly and in combination in scarlatina therapy and the interference between them." Antibiot Chemother 11 (1961): 694-7
  2. Cohn JR, Jungkind DL, Baker JS "In vitro antagonism by erythromycin of the bactericidal action of antimicrobial agents against common respiratory pathogens." Antimicrob Agents Chemother 18 (1980): 872-6
  3. Penn RL, Ward TT, Steigbigel RT "Effects of erythromycin in combination with penicillin, ampicillin, or gentamicin on the growth of listeria monocytogenes." Antimicrob Agents Chemother 22 (1982): 289-94

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Drug and food interactions

Moderate

oxytetracycline food

Applies to: oxytetracycline / phenazopyridine / sulfamethizole

ADJUST DOSING INTERVAL: Administration with food, particularly dairy products, significantly reduces tetracycline absorption. The calcium content of these foods forms nonabsorbable chelates with tetracycline.

MANAGEMENT: Tetracycline should be administered one hour before or two hours after meals.

References

  1. "Product Information. Achromycin (tetracycline)." Lederle Laboratories PROD (2001):
  2. "Product Information. Declomycin (demeclocycline)." Lederle Laboratories PROD (2001):

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Moderate

oxytetracycline food

Applies to: oxytetracycline / phenazopyridine / sulfamethizole

GENERALLY AVOID: The bioavailability of oral tetracyclines and iron salts may be significantly decreased during concurrent administration. Therapeutic failure may result. The proposed mechanism is chelation of tetracyclines by the iron cation, forming an insoluble complex that is poorly absorbed from the gastrointestinal tract. In ten healthy volunteers, simultaneous oral administration of ferrous sulfate 200 mg and single doses of various tetracyclines (200 mg to 500 mg) resulted in reductions in the serum levels of methacycline and doxycycline by 80% to 90%, oxytetracycline by 50% to 60%, and tetracycline by 40% to 50%. In another study, 300 mg of ferrous sulfate reduced the absorption of tetracycline by 81% and that of minocycline by 77%. Conversely, the absorption of iron has been shown to be decreased by up to 78% in healthy subjects and up to 65% in patients with iron depletion when ferrous sulfate 250 mg was administered with tetracycline 500 mg. Available data suggest that administration of iron 3 hours before or 2 hours after a tetracycline largely prevents the interaction with most tetracyclines except doxycycline. Due to extensive enterohepatic cycling, iron binding may occur with doxycycline even when it is given parenterally. It has also been shown that when iron is administered up to 11 hours after doxycycline, serum concentrations of doxycycline may still be reduced by 20% to 45%.

MANAGEMENT: Coadministration of a tetracycline with any iron-containing product should be avoided if possible. Otherwise, patients should be advised to stagger the times of administration by at least three to four hours, although separating the doses may not prevent the interaction with doxycycline.

References

  1. Neuvonen PJ "Interactions with the absorption of tetracyclines." Drugs 11 (1976): 45-54
  2. Gothoni G, Neuvonen PJ, Mattila M, Hackman R "Iron-tetracycline interaction: effect of time interval between the drugs." Acta Med Scand 191 (1972): 409-11
  3. Venho VM, Salonen RO, Mattila MJ "Modification of the pharmacokinetics of doxycycline in man by ferrous sulphate or charcoal." Eur J Clin Pharmacol 14 (1978): 277-80
  4. "Product Information. Minocin (minocycline)." Lederle Laboratories PROD (2002):
  5. Campbell NR, Hasinoff BB "Iron supplements: a common cause of drug interactions." Br J Clin Pharmacol 31 (1991): 251-5
  6. Bateman FJ "Effects of tetracyclines." Br Med J 4 (1970): 802
  7. Neuvonen PJ, Gothoni G, Hackman R, Bjorksten K "Interference of iron with the absorption of tetracyclines in man." Br Med J 4 (1970): 532-4
  8. Greenberger NJ "Absorption of tetracyclines: interference by iron." Ann Intern Med 74 (1971): 792-3
  9. Neuvonen PJ, Penttila O "Effect of oral ferrous sulphate on the half-life of doxycycline in man." Eur J Clin Pharmacol 7 (1974): 361-3
  10. "Product Information. Seysara (sarecycline)." Allergan Inc (2018):
  11. "Product Information. Nuzyra (omadacycline)." Paratek Pharmaceuticals, Inc. (2018):
View all 11 references

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Minor

clarithromycin food

Applies to: Prevpac (amoxicillin / clarithromycin / lansoprazole)

Grapefruit juice may delay the gastrointestinal absorption of clarithromycin but does not appear to affect the overall extent of absorption or inhibit the metabolism of clarithromycin. The mechanism of interaction is unknown but may be related to competition for intestinal CYP450 3A4 and/or absorptive sites. In an open-label, randomized, crossover study consisting of 12 healthy subjects, coadministration with grapefruit juice increased the time to reach peak plasma concentration (Tmax) of both clarithromycin and 14-hydroxyclarithromycin (the active metabolite) by 80% and 104%, respectively, compared to water. Other pharmacokinetic parameters were not significantly altered. This interaction is unlikely to be of clinical significance.

References

  1. Cheng KL, Nafziger AN, Peloquin CA, Amsden GW "Effect of grapefruit juice on clarithromycin pharmacokinetics." Antimicrob Agents Chemother 42 (1998): 927-9

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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.

Further information

Always consult your healthcare provider to ensure the information displayed on this page applies to your personal circumstances.

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