Drug Interactions between Gengraf and Yosprala

MONITOR: Nonsteroidal anti-inflammatory drugs (NSAIDs) may potentiate the nephrotoxic effects of cyclosporine, especially if dehydration is present. The exact mechanism is unknown but is apparently unrelated to plasma cyclosporine levels. The interaction has been reported with diclofenac and sulindac. Data for other NSAIDs are not available, but a similar effect may be expected based on their common pharmacologic action.

MANAGEMENT: Renal function should be closely monitored in patients receiving concomitant therapy with cyclosporine and NSAIDs.

Switch to consumer interaction data

MONITOR: Chronic use of proton pump inhibitors (PPIs) may induce hypomagnesemia, and the risk may be increased during concomitant use of other agents that can cause magnesium loss such as cyclosporine. The mechanism via which hypomagnesemia may occur during long-term PPI use is unknown, although changes in intestinal absorption of magnesium may be involved. Hypomagnesemia has been reported rarely in patients treated with PPIs for at least three months, but in most cases, after a year or more. Serious adverse events include tetany, seizures, tremor, carpopedal spasm, atrial fibrillation, supraventricular tachycardia, and abnormal QT interval; however, patients do not always exhibit these symptoms. Hypomagnesemia can also cause impaired parathyroid hormone secretion, which may lead to hypocalcemia. In approximately 25% of the cases of PPI-associated hypomagnesemia reviewed by the FDA, the condition did not resolve with magnesium supplementation alone but also required discontinuation of the PPI. Both positive dechallenge as well as positive rechallenge (i.e., resolution of hypomagnesemia with PPI cessation and recurrence with PPI resumption) were reported in some cases. After discontinuing the PPI, the median time required for magnesium levels to normalize was one week. After restarting the PPI, the median time for hypomagnesemia to recur was two weeks.

MONITOR: Coadministration with omeprazole may alter the blood concentrations of cyclosporine in some patients. The mechanism of interaction is unknown. Both increased and decreased cyclosporine levels have been described in isolated case reports of patients treated concomitantly with omeprazole 40 mg/day. Moreover, one retrospective study found that the cyclosporine dosage required to achieve a certain therapeutic level was 28% lower in heart transplant patients who received omeprazole (n=21) than in those who did not (n=139). In contrast, two pharmacokinetic studies have found no significant interaction between these two agents. In 10 male kidney transplant patients with stable renal function receiving maintenance cyclosporine therapy, omeprazole administered at 20 mg once daily for two weeks had no clinically or statistically significant effect on the whole blood concentrations of cyclosporine and its metabolites relative to placebo. In addition, no adverse event and no clinically significant changes in laboratory values were noted during administration of omeprazole. Likewise, no significant changes in cyclosporine levels were observed in eight kidney transplant patients administered omeprazole 20 mg/day for six days compared to controls.

MANAGEMENT: Monitoring of serum magnesium levels is recommended prior to initiation of therapy and periodically thereafter if prolonged treatment with a proton pump inhibitor is anticipated or when combined with other agents that can cause hypomagnesemia such as cyclosporine. Patients should be advised to seek immediate medical attention if they develop potential signs and symptoms of hypomagnesemia such as palpitations, arrhythmia, muscle spasm, tremor, or convulsions. In children, abnormal heart rates may cause fatigue, upset stomach, dizziness, and lightheadedness. Magnesium replacement as well as discontinuation of the PPI may be required in some patients. A potential interaction with omeprazole should also be considered when cyclosporine levels are altered and no other causes can be identified. Occasionally, a dosage adjustment of cyclosporine may be necessary.

Switch to consumer interaction data

Coadministration with proton pump inhibitors may decrease the oral bioavailability of aspirin and other salicylates. The interaction has been studied with omeprazole and aspirin, although data are conflicting. In one study, pretreatment with omeprazole (20 mg/day for 2 days) in 11 healthy volunteers led to a significant and progressively greater reduction in the mean serum salicylate level at 30, 60, and 90 minutes after administration of aspirin (650 mg single dose). The investigators suggest that acid suppression may reduce the lipophilic nature of aspirin, thereby adversely affecting its absorption from the gastrointestinal tract. Another study found no effect of omeprazole pretreatment (20 mg/day for 4 days) on plasma salicylate and aspirin levels, skin bleeding times, or antiplatelet effect of low-dose aspirin (125 mg single dose) in 14 healthy volunteers. However, these results do not exclude the possibility that omeprazole might interfere with the analgesic, antipyretic, or anti-inflammatory effects of aspirin, which has been demonstrated in rats.

Proton pump inhibitors may enhance the release rate of salicylates from enteric-coated formulations due to premature disruption of the coating and intragastric release of the drug secondary to an increase in gastric pH. In eight healthy volunteers, omeprazole pretreatment (20 mg/day for 4 days) did not affect the bioavailability of salicylate from uncoated aspirin tablets but significantly increased the absorption rate of salicylate from enteric-coated sodium salicylate tablets. The clinical significance of this interaction is unknown. Theoretically, it may increase the risk of gastric adverse effects associated with salicylates.

Switch to consumer interaction data