The discovery in 1975 that timoprazole was highly effective in reducing gastric acid secretion followed by the creation of a derivative, omeprazole, in 1979 marked the introduction of a new class of drugs: the proton pump inhibitors (PPIs). Since the entry of omeprazole onto the market in 1988, PPIs have become among the most widely prescribed drugs in the world. This is not unique to adults; over the past decade, there has been a significant increase in the rate of use of PPIs in children.1
As PPIs have been increasingly used, concerns have surfaced as to their safety and efficacy.2 In this issue of Pediatrics, Bernal et al3 explore an important 1 of these concerns: infection rate. Their study, “CYP2C19 Phenotype and Proton Pump Inhibitor–Associated Infections,” revealed that among a group of 670 children treated with a PPI, the risk for infection was correlated with a normal or wild type metabolizer phenotype, whereas those children with more rapid metabolism had a lower risk of infection.
These are highly relevant findings for a number of reasons. First, although the authors acknowledge their limitations, it is a large and well conducted study with compelling conclusions. There have been a number of studies suggesting an association between PPI use and infection, adding to the hypothesis that low gastric pH is protective against infection. The authors of this study avoid many of the confounding issues in previous work by looking within a group of children treated with PPIs to determine if there may be subpopulations at a higher infection risk.
Second, their study highlights the relevance of drug metabolism. In the case of the PPIs, the primary route of metabolism is via the polymorphic phase I enzyme CYP2C19. It has been known for some time that CYP2C19 is expressed in a number of distinct phenotypes ranging from poor to normal to ultrarapid metabolizers related to genetically controlled variations in enzyme expression.4,5 Thus, rapid and ultrarapid metabolizers (the group that would clear the drug most effectively and would presumably have the least efficacy in terms of suppression of acid production) were also the groups that had the lowest rate of infections. Of note, these are not insignificant groups because they in fact accounted for one-third of the patients, whereas the normal metabolizers (who had a higher infection rate) made up 40% of the patients.
This in turn raises 2 important considerations. The first relates to drug use. As noted previously, PPIs are among the most widely used drugs in the world. When weighing the therapeutic value of a PPI against its risks, one must consider the fact of an increase in infection among children who metabolize the drug via the normal metabolizer phenotype. This becomes especially relevant for patients who are more medically fragile and comorbid, such as those with immunodeficiency or chronic disease for whom an increased risk of infection may be highly consequential, changing the risk/benefit assessment when deciding to use, or not to use, a PPI.
The second is the potential for risk prediction and dose adjustment based on genotyping, the application of precision medicine to the therapy of gastrointestinal disease in children. It has been suggested that genotyping may be useful when planning PPI therapy, especially on a chronic basis. This study provides evidence that can be used to develop clinical guidelines as to when and in which patients genotyping should be conducted. In addition, it provides guidance to clinicians on how to adjust therapy on the basis of specific genotyping.
A final implication of these findings is the power of linking large administrative databases to clinical outcomes and biological variables such as genotype. This study was possible because of a thoughtful linkage developed between the Vanderbilt University Medical Center’s electronic medical record and DNA biorepository. As therapy for children becomes increasingly complex (with the revolution in biological, cell, and factor therapy already well underway), these approaches will be increasingly important for early detection of signals to identify specific groups of patients for whom therapy may be especially beneficial or especially harmful.
Overall, Bernal et al3 provide important evidence to a new paradigm in which genotyping can enhance clinical decision-making. Their study not only empowers us to improve our prescribing practices but also informs future researchers exploring this paradigm shift in other clinical contexts.
Opinions expressed in these commentaries are those of the authors and not necessarily those of the American Academy of Pediatrics or its Committees.
FUNDING: No external funding.
COMPANION PAPER: A companion to this article can be found online at www.pediatrics.org/cgi/doi/10.1542/peds.2019-0857.
proton pump inhibitor
POTENTIAL CONFLICT OF INTEREST: The authors have indicated they have no potential conflicts of interest to disclose.
FINANCIAL DISCLOSURE: The authors have indicated they have no financial relationships relevant to this article to disclose.