PT  - JOURNAL ARTICLE
AU  - H. Jenzer
AU  - L. Sadeghi
AU  - C. Krause
AU  - P. Stute
AU  - M. Joray
AU  - M. Leuenberger
AU  - Z. Stanga
TI  - Adverse digestibility effects, drug-food interactions and long-term safety of proton pump inhibitors
AID  - 10.1136/ejhpharm-2012-000074.270
DP  - 2012 Apr 01
TA  - European Journal of Hospital Pharmacy: Science and Practice
PG  - 187--188
VI  - 19
IP  - 2
4099  - http://ejhp.bmj.com/content/19/2/187.2.short
4100  - http://ejhp.bmj.com/content/19/2/187.2.full
SO  - Eur J Hosp Pharm2012 Apr 01; 19
AB  - Background Gastric acidity is mandatory for pepsin activation, bactericidal effect, secretin and pancreatic enzymes&#039; release. PPIs (proton pump inhibitors) change gastric pH permanently to &amp;gt;3-4. Purpose The aim of this work is to assess the impact of permanent high gastric pH on absorption and bioavailability (except of CYP450-interactions) and to recommend nutrition support options. Materials and methods A systematic online literature research was performed on usual platforms. Recommendations rely on a multidisciplinary focus group assessment. Results Risk factors assigned to long-term inhibition of gastric acidity arise from · cleavage-resistance of peptide and glycosidic bonds · mucosal degeneration and leak · loss of bactericidal action and comprise · bacterial overgrowth · community and hospital-acquired pneumonia · childhood asthma related to PPI treatments of mothers in pregnancy · sensitisation to food allergens in the older and in pregnant women (progesterone slows down gastric emptying) · deterioration of lactose intolerance, celiac disease, atrophic gastritis, rheumatoid arthritis, diabetes mellitus · modified bioavailability o malabsorption of micronutrients, for example vit C and B12, folate, Zn, Fe, Mg, Ca o lower bioavailability, for example ketoconazole, itraconazole, posaconazole, (not: voriconazole), atazanvir, cefpodoxime, cinnarizine, enoxacin, dipyridamole o higher bioavailability, for example nifedipine, digoxin, penicillins, erythromycin, alendronate. To prevent these complications, the focus group recommends: · alternative antacids, step-down, intermittent and on-demand strategies: o MgCO3 and H2-antagonists have a shorter onset and time of pH&amp;gt;3-4 than pantoprazole 40mg (median pH=3.7, pH&amp;gt;4 for 10.8h) or esomeprazole 40mg (median pH=4.7, pH&amp;gt;4 for 16.1h). · to avoid high allergenic food o that is crustacean, eggs, fish, milk, peanuts, soybeans, tree nuts or fruits, and wheat · buffering, pepsin replacement, stimulation of digestion and peristalsis o Carbonated beverages, quinine water, aperitifs, appetisers, and bitter substances (amara) o Prokinetic agents (domperidone, bromopride, metoclopramide, quinine, erythromycin) o Mucosal protectors (curcumin, quercetin, alginates, pectins, glycyrrhizin) o Melatonin (regulates digestion and has structural similarity to omeprazole) o Pepsin in HCl preparations · nutrition and dietary approach combined with physical activity o High-fibre-, low-fat-, low-carb diet · reassessment of pharmacotherapy o Weak acids (pKa&amp;lt;4.5) lose their undissociated state required for diffusion across membranes. o Absorption is impaired by membrane-bound CYP3A4,5,7 and efflux transporter P-gp. (a log-conc-diagram, structure formula, tables of relevant drugs and nutrients, as well as references are provided on the poster) Conclusions PPI safety profiles are troubled by risk factors arising from inappropriate long-term use. Drugs may be more bioavailable as a result of mucosal hyperpermeability, or less bioavailable as a result of altered dissociation. Care should be given to substrates with pKa&amp;lt;4.5. At least children and pregnant women should prefer alternatives to PPIs.