Targeting NSAIDS, RAAS inhibitors, and PPIs
The new study used automated EHR analysis to not only identify patients with incident AKI, but also to flag medications these patients were receiving from any of three classes suspected of worsening renal function: nonsteroidal anti-inflammatory drugs, renin-angiotensin-aldosterone system (RAAS) inhibitors (which include angiotensin-converting enzyme inhibitors and angiotensin receptor blockers), and proton-pump inhibitors (PPIs).
“Our hypothesis was that giving clinicians actionable advice could significantly improve patient outcomes,” Dr. Wilson said. “NSAIDs are frequently discontinued” in patients who develop AKI. “RAAS inhibitors are sometimes discontinued,” although the benefit from doing this remains unproven and controversial. “PPIs are rarely discontinued,” and may be an underappreciated contributor to AKI by causing interstitial nephritis in some patients.
The prospective study included 5,060 adults admitted with a diagnosis of stage 1 AKI at any of four Yale-affiliated teaching hospitals who were also taking agents from at least one of the three targeted drug classes at the time of admission. Clinicians caring for 2,532 of these patients received an alert about the AKI diagnosis and use of the questionable medications, while those caring for the 2,528 control patients received no alert and delivered usual care.
The study excluded patients with higher-risk profiles, including those with extremely elevated serum creatinine levels at admission (4.0 mg/dL or higher), those recently treated with dialysis, and patients with end-stage kidney disease.
The study had two primary outcomes. One measured the impact of the intervention on stopping the targeted drugs. The second assessed the clinical effect of the intervention on progression of AKI to a higher stage, need for dialysis, or death during either the duration of hospitalization or during the first 14 days following randomization.
Overall, a 9% relative increase in discontinuations
In general, the intervention had a modest but significant effect on cessation of the targeted drug classes within 24 hours of sending the alert.
Overall, there was about a 58% discontinuation rate among controls and about a 62% discontinuation rate among patients managed using the alerts, a significant 9% relative increase in any drug discontinuation, Dr. Wilson reported.
Discontinuations of NSAIDs occurred at the highest rate, in about 80% of patients in both groups, and the intervention showed no significant effect on stopping agents from this class. Discontinuations of RAAS inhibitors showed the largest absolute difference in between-group effect, about a 10–percentage point increase that represented a significant 14% relative increase in stopping agents from this class. Discontinuations of PPIs occurred at the lowest rate, in roughly 20% of patients, but the alert intervention had the greatest impact by raising the relative rate of stopping by a significant 26% compared with controls.
Analysis of the effect of the intervention on the combined clinical outcome showed a less robust impact. The alerts produced no significant change in the clinical outcome overall, or in the use of NSAIDs or RAAS inhibitors. However, the change in use of PPIs following the alerts significantly linked with a 12% relative drop in the incidence of the combined clinical endpoint of progression of AKI to a higher stage, need for dialysis, or death.
The results were consistent across several prespecified subgroups based on parameters such as age, sex, and race, but these analyses showed a signal that the alerts were most helpful for patients who had serum creatinine levels at admission of less than 0.5 mg/dL.
Dr. Wilson speculated that the alerts might have been especially effective for these patients because their low creatinine levels might otherwise mask AKI onset.
A safety analysis showed no evidence that the alert interventions and drug cessations increased the incidence of any complications.