At a glance......
- 1 Is Proton Pump Inhibitors link to Anemia?The answer is here…
- 2 The rise of Proton Pump Inhibitors
- 3 Overprescribing is the norm of Proton Pump Inhabitors
- 4 Possible harms of Proton Pump Inhabitors
- 5 Drug interactions of Proton Pump Inhibitors
- 6 Time to deprescribe of Proton Pump Inhibitors
- 7 Medical Uses of Proton Pump Inhibitors
User Review( votes)
Proton pump inhibitors (PPIs) are a group of drugs whose main action is a pronounced and long-lasting reduction of stomach acid production. Within the class of medications, there is no clear evidence that one agent works better than another. They are the most potent inhibitors of acid secretion available. This group of drugs followed and largely superseded another group of medications with similar effects, but a different mode of action called H2-receptor antagonists.
Inappropriate use of proton pump inhibitors can cause a range of side effects and even harm to patients.
Proton pump inhibitors (PPIs) are among the most frequently prescribed drugs globally. Although they are cost-effective when used appropriately, studies show they are prescribed without a clear indication in up to 70% of cases. Although the absolute risk of harm to individuals from PPIs is low, their widespread, long-term use can cause adverse effects that contribute to significant negative impacts at a population level. Action is required to limit inappropriate prescribing of PPIs and support deprescribing in patients on long-term therapy for whom the original indications no longer apply.
The rise of Proton Pump Inhibitors
PPIs were introduced in the 1980s and rapidly became some of the bestselling medicines of all time. They inhibit gastric acid secretion through blockade of H+/K+-ATPases in parietal cells, and are highly effective for treating peptic ulceration, oesophagitis, and gastro-oesophageal reflux. They are also important components of Helicobacter pylori eradication regimens and useful for prophylaxis against non-steroidal anti-inflammatory drug (NSAID) induced upper gastrointestinal injury. For most of these presentations, they are only intended for short-term use and are rarely required beyond four to eight weeks. In a minority of conditions (for example, severe Barrett’s oesophagus, gastrinoma and eosinophilic oesophagitis), protracted courses may be required.
PPIs combine high efficacy with low toxicity and are perceived to be safe and cost-effective. Consequently, they are widely prescribed. The total cost of PPIs to the UK NHS is more than £100m each year and global spend is in excess of £2bn. Five PPIs are currently licensed in the UK: omeprazole, lansoprazole, pantoprazole, esomeprazole and rabeprazole. In most cases, there is no clear evidence to support use of one over another, and class effects can be assumed.
Overprescribing is the norm of Proton Pump Inhabitors
Studies consistently find that PPIs are overprescribed globally in both primary and secondary care. Their prevalence continues to increase: in Australia, prescriptions rose by 1,318% over one decade (1996–2006). Most of this growth occurs in primary care, with increasing numbers of patients treated for longer durations. This is partly related to substitution of histamine-2 receptor antagonists, but the bulk represents expanded use of acid suppression therapy. A proportion of this increase is legitimate, on account of rising groups of patients treated with dual antiplatelet therapy for coronary artery or cerebrovascular disease, or bisphosphonates (for which PPIs partially mitigate risk of oesophagitis). There is also a small cohort of patients with a chronic cough in whom gastro-oesophageal reflux is believed to be a contributor. The recent approvals of esomeprazole for general sale, and pantoprazole as over-the-counter medicine may further drive consumer use in the UK.
Some studies have examined the appropriateness of PPI prescriptions. In one study of older patients in Italy, 30% were taking a PPI with no clear indication, although a further 11% of this cohort possessed a recognized indication and were not on treatment (that is, PPIs were underprescribed). A study of 124,133 first-time adult users from Denmark found that only one third met criteria for potential long-term use. In the same catchment population, only 4% of pre-existing long-term users (defined as more than 60 daily doses over a six-month period) had a diagnosis that merited long-term management.
Within hospitals, a retrospective study of surgical inpatients from the Netherlands identified non-compliance with guidelines in 46.6% of cases; 93.1% of these represented overprescribing. Audits of medical inpatients in the UK show inappropriate prescribing rates of 40.7–54.0%, of which 86.0% are cases of overprescribing.
Other studies have probed the underlying rationale for PPI prescriptions and their continued use. The reasons are often questionable, and adherence to guidelines is poor despite educational and stewardship strategies. The most common explanations for long-term PPI use were the inappropriate treatment of dyspepsia, prophylaxis for low-risk patients on NSAIDs or corticosteroids, and stress ulcer prophylaxis (in secondary care).
Communication is often poor. In one UK center, suggested the duration of treatment was specified in fewer than 20% of hospital discharge letters, less than one third indicated that prescriptions needed to be reviewed, and only half contained information explaining why the drug was started.
Overprescribing is more common in patients with comorbidities and polypharmacy who are likely to see several specialists, increasing the chance of a drug being prescribed and making it less likely that one clinician will take overall responsibility for the patient’s medicines.
Another problem is that once a patient has taken a PPI for longer than a few weeks, acid hypersecretion can occur on discontinuation. This causes rebound symptoms and frequently establishes a vicious cycle of drug reinitiation and long-term continuation.
Possible harms of Proton Pump Inhabitors
Over the past decade, many adverse effects of PPI therapy have been identified.
The most widely studied of these is Clostridium difficile infection. A meta-analysis of 23 cohort and case-control studies, involving almost 300,000 patients, identified a 65% increase in the relative risk of C. difficile-associated diarrhea. The mechanism remains unproven, but it may be that acid suppression permits the viability of the C. difficile vegetative state, leading to clinically symptomatic infection. There are suggestions that PPIs also increase risks of Campylobacter and Salmonella gastroenteritis, and two studies demonstrate alterations in the gut microbiome.
Increased fracture risk has been reported with PPI use, most notably in the Nurses Health Study, which followed 79,899 female participants for eight years. The age-adjusted hazard ratio of hip fracture was 1.35 with more than two years of PPI use and even higher in smokers. Possible explanations include reduced calcium absorption or competition with osteoblast and osteoclast proton pumps that impedes bone remodeling. Deficiencies have also been reported in both iron and vitamin B12 absorption, and a major issue in a small subset of patients is severe hypomagnesemia. If the latter occurs, it is typically a drug class effect, likely caused by inhibition of cation transport in the colon.
PPIs are now well recognized as a cause of acute interstitial nephritis, which, in a nested case-control study of 572,661 patients, occurred with an odds ratio of 5.16 (translating into an incidence of 11.98 per 100,000 person-years). Early recognition and drug discontinuation are crucial for maximizing renal recovery. There have also been reports of PPIs triggering subacute cutaneous lupus erythematosus.
Finally, increased rates of chronic kidney disease and myocardial infarction have been reported among PPI users. In one study of 173,321 patients, the hazard ratio of developing chronic renal impairment was 1.22, rising with increasing duration of exposure. In a further data-mining exercise examining records from 2.9 million patients, PPIs were associated with a 1.16-fold risk of myocardial infarction, and a 2-fold increased the risk of cardiovascular mortality. The cause was not ascertained, and although the authors speculated about interference with nitric oxide signaling, an alternative explanation would be confounding because of increased use of acid suppression in patients with comorbidities and polypharmacy, and hence overall cardiovascular risk.
Drug interactions of Proton Pump Inhibitors
Patients with multiple comorbidities and polypharmacy who take PPIs on a long-term basis are at high risk of drug-drug interactions. Specifically, alteration of pH in the gastrointestinal tract can impact on drug absorption, and PPIs inhibit (to varying degrees) cytochrome (CYP) p450 and the p-glycoprotein pathway. This may be a particular issue for omeprazole, which has a high affinity for CYP2C19 and moderate affinity for CYP3A4.
Drug interactions were raised as a major concern in the case of clopidogrel, which requires CYP2C19 for conversion to its active metabolite. An initial randomized controlled trial of 140 patients found a reduction in the platelet reactivity index after one week in patients receiving clopidogrel with omeprazole, and on this basis, several regulatory agencies counseled that both omeprazole and esomeprazole should be avoided in this context. The clinical relevance of the interaction has, however, been called into question, with the prospective COGENT trial reporting no increase in cardiovascular events in 3,761 patients on omeprazole and dual antiplatelet therapy. The trial was terminated prematurely because of a lack of funding but a subsequent review concluded that, despite evidence of an ex vivo interaction, the case for adverse impact in patients in vivo had not been made.
Other research has highlighted a significant risk of bias in many retrospective studies that report harmful interactions between PPIs and clopidogrel and showed that concomitant use halves the risk of gastrointestinal bleeding. Consequently, some authorities advocate preferential use of alternative PPIs with lower CYP2C19 affinity (such as pantoprazole or rabeprazole) in this patient cohort, although the effectiveness of this strategy has not been proven.
Although studies on drug interactions have been dominated by those focusing on antiplatelet therapies, PPIs can also decrease plasma concentrations of several antiretroviral agents, dabigatran, mycophenolate mofetil, and targeted oncological signal pathway inhibitors, as well as increase the concentrations of calcineurin inhibitors, methotrexate, and metformin. As with clopidogrel, little evidence has emerged to date that these can cause clinically meaningful harm, although it would still be prudent to take care when prescribing PPIs with drugs that have the potential for an interaction to occur.
The steps required to curb and subsequently reduce inappropriate prescribing include: recognition of the problem; use of alternative approaches to manage conditions currently treated “by default” with PPIs; education regarding appropriate indications and durations for their use; and enhanced drug stewardship akin to that employed widely for antimicrobials, mandating better documentation around PPI prescriptions and regular review. Patient involvement and shared decision-making are also essential.
One of the most frequent reasons for long-term PPI use is dyspepsia. This condition can often be ameliorated by medication rationalization and lifestyle modification, such as weight loss or smoking cessation. Possible drug contributors to dyspepsia include calcium channel blockers, nitrates, theophyllines, bisphosphonates, antiplatelet agents and NSAIDs. A review should be conducted to consider whether these are still indicated or could be substituted. Where PPIs are prescribed, the lowest effective dose should be used for the shortest possible duration. The indications and intended durations should be clearly documented and communicated to the primary care provider and pharmacy.
Patients on long-term therapy should be reviewed at least annually. Substitution of PPIs with antacid or alginate therapy, or H2 receptor antagonists, can also be considered. Patients should be counselled on rebound acid secretion on drug discontinuation and on strategies to manage this (preferably without re-escalating PPI dose) and it should be explained that this does not necessarily represent recurrence of the disease.
The other common rationale for long-term PPI prescribing is prophylaxis when receiving antiplatelet agents or NSAIDs. Most guidelines suggest this is only required for high-risk patients, specifically those aged over 65 years, with a history of peptic ulcer disease or upper gastrointestinal hemorrhage, or taking multiple medicines that augment gastrointestinal adverse effects.
Time to deprescribe of Proton Pump Inhibitors
Prescribing of PPIs has skyrocketed over the past decade. These drugs can be effective, but are principally intended for short-term use and yet are often not discontinued. There is clear and consistent evidence of overprescribing as clinicians overestimate benefits and underestimate harms, associated with substantial costs to healthcare providers. Measures should be put in place to educate prescribers on appropriate indications and durations for PPI use, provide a degree of stewardship, and facilitate long-term users in de-escalating therapy.
Medical Uses of Proton Pump Inhibitors
These drugs are used in the treatment of many conditions, such as:
- Peptic ulcer disease including after endoscopic treatment for bleeding
- As part of Helicobacter pylori eradication therapy
- Gastroesophageal reflux disease (GERD or GORD) including symptomatic endoscopy-negative reflux disease and associated laryngopharyngeal reflux causing laryngitis and chronic cough
- Barrett’s esophagus
- Eosinophilic esophagitis
- Stress gastritis and ulcer prevention in critical care
- Gastrinomas and other conditions that cause hypersecretion of acid including Zollinger–Ellison syndrome (often 2–3x the regular dose is required)
Specialty professional organizations recommend that people take the lowest effective PPI dose to achieve the desired therapeutic result when used to treat gastroesophageal reflux disease long-term. In the United States, the Food and Drug Administration has advised that no more than three 14-day treatment courses should be used in one year.
Despite their extensive use, the quality of the evidence supporting their use in some of these conditions is variable. The effectiveness of PPIs has not been demonstrated for every case. For example, although they reduce the incidence of esophageal adenocarcinoma in Barrett’s oesophagus, they do not change the length affected.