Drug Interactions between aspirin / calcium carbonate and betiatide

MONITOR: Chronic administration of antacids may reduce serum salicylate concentrations in patients receiving large doses of aspirin or other salicylates. The mechanism involves reduction in salicylate renal tubular reabsorption due to urinary alkalinization by antacids, resulting in increased renal salicylate clearance. In three children treated with large doses of aspirin for rheumatic fever, serum salicylate levels declined 30% to 70% during coadministration with a magnesium and aluminum hydroxide antacid. Other studies have found similar, albeit less dramatic results. Antacids reportedly have no effect on the oral bioavailability of aspirin in healthy adults. However, administration of antacids containing either aluminum and magnesium hydroxide or calcium carbonate two hours before aspirin dosing led to reduced absorption of aspirin in uremic patients.

MANAGEMENT: Patients treated chronically with antacids (or oral medications that contain antacids such as didanosine buffered tablets or pediatric oral solution) and large doses of salicylates (i.e. 3 g/day or more) should be monitored for potentially diminished or inadequate analgesic and anti-inflammatory effects, and the salicylate dosage adjusted if necessary.

MONITOR: Coadministration of the radiopharmaceutical technetium (Tc99m) mertiatide with another drug that is also eliminated by active tubular secretion may result in increased plasma concentrations of one or both drugs. The exact mechanism has not been fully described but may involve competition in binding to organic anion transporter 1 (OAT1) in the proximal tubule of the kidney, which is involved in moving some drugs from the blood into the urine. The risk and significance of this interaction may vary. Some sources state that the risk is expected with diuretics like hydrochlorothiazide, but only theoretical with others (e.g., nonsteroidal anti-inflammatory drugs). Delayed excretion of Tc99m mertiatide may affect the efficacy of the diagnostic procedure. However, clinical data are limited. One crossover study conducted in 12 healthy male volunteers (22-25 years old), reviewed the differences in scans using Tc99m mertiatide injection alone to those obtained when subjects received either a selective OAT1 substrate (10% sodium p-aminohippurate (PAH) given via intravenous infusion at 120 mg/min 10 minutes prior to and during the scan) or a potent OAT1 inhibitor (probenecid 750 mg 1 hour prior to the scan). PAH appeared to have a greater impact than probenecid, increasing the late phase (30-60 minutes post radiopharmaceutical injection) plasma clearance half-life of Tc99m mertiatide from approximately 27.7 minutes to 54.9 minutes. However, in some circumstances, the administration of an NSAID or other medication that affects the secretion of Tc99m mertiatide may be clinically indicated. For example, there are some protocols that utilize aspirin to enhance Tc99m mertiatide renography for the investigation/diagnosis of renal artery stenosis.

MANAGEMENT: Caution is recommended with the concomitant administration of technetium (Tc99m) mertiatide with drugs that are secreted in the proximal tubule due to the potential to affect the efficacy of the diagnostic procedure. Likewise, since Tc99m mertiatide may also delay the excretion of other drugs eliminated via this route, monitoring for excessive pharmacologic effects of both drugs should be considered. Current clinical guidelines and/or manufacturer's labeling should be consulted for more specific information and guidance. Dehydration and acidosis can also impact kidney function and prolong renal drug elimination. Refer to the product labeling or local protocols for guidelines on patient hydration prior to testing with Tc99m mertiatide.