Christer Cederberg

Eradication of Helicobacter pylori using one-week triple therapies combining omeprazole with two antimicrobials: the MACH I Study.

Background.Eradication of Helicobacter pylori provides potential cure in the majority of patients with peptic ulcer disease, and eradication rates of more than 90% have been reported, using omeprazole in combination with two antimicrobials. The choice of antimicrobials, dose regimen and duration of treatment have varied between studies, however, and an optimal treatment still has to be established.

Effect of omeprazole--a gastric proton pump inhibitor--on pentagastrin stimulated acid secretion in man.

The effect of oral omeprazole on pentagastrin stimulated gastric acid secretion was studied in 11 healthy subjects. Doses of 20-80 mg produced dose dependent inhibition of acid secretion, with total suppression at the highest dose. Omeprazole was absorbed and eliminated from plasma rapidly and the inhibitory effect was related to the area under the plasma concentration time curve. The duration of action was long and single doses of 20 and 40 mg reduced acid secretion significantly for one and three days, respectively. Omeprazole in a dose of 15 mg given once daily for five days, suppressed acid secretion continuously, the inhibitory effect stabilising after three days at a predose inhibition of about 30% and a postdose inhibition of about 80%.

The MACH2 study: Role of omeprazole in eradication of Helicobacter pylori with 1-week triple therapies

BACKGROUND & AIMS The role of omeprazole in triple therapy and the impact of Helicobacter pylori resistance on treatment outcome are not established. This study investigated the role of omeprazole and influence of primary H. pylori resistance on eradication and development of secondary resistance. METHODS Patients (n = 539) with a history of duodenal ulcer and a positive H. pylori screening test result were randomized into 4 groups. OAC group received 20 mg omeprazole, 1000 mg amoxicillin, and 500 mg clarithromycin; OMC group received 20 mg omeprazole, 400 mg metronidazole, and 250 mg clarithromycin; and AC (amoxicillin, 1000 mg, and clarithromycin, 500 mg) and MC (metronidazole, 400 mg, and clarithromycin, 250 mg) groups received no omeprazole. All doses were administered twice daily for 1 week. H. pylori status was assessed before and after therapy by 13C-urea breath test. Susceptibility testing was performed at entry and in patients with persistent infection after therapy. RESULTS Eradication (intention to treat [n = 514]/per protocol [n = 449]) was 94%/95% for OAC, 26%/25% for AC (P < 0.001), 87%/91% for OMC, and 69%/72% for MC (P < 0.001). Primary resistance was 27% for metronidazole, 3% for clarithromycin, and 0% for amoxicillin. Eradication in primary metronidazole-susceptible/-resistant strains was 95%/76% for OMC and 86%/43% for MC. Secondary metronidazole and clarithromycin resistance each developed in 12 patients: 8 treated with omeprazole and 16 without omeprazole. CONCLUSIONS Addition of omeprazole achieves high eradication rates, reduces the impact of primary resistance, and may decrease the risk of secondary resistance compared with regimens containing only two antibiotics.

Effect of Helicobacter pylori status on intragastric pH during treatment with omeprazole.

To test the hypothesis that Helicobacter pylori infection is associated with a decreased intragastric acidity during omeprazole therapy, ambulatory 24 hour dual point gastric pH recordings were performed in 18 H pylori positive and 14 H pylori negative subjects. There was a four to six week washout period between the two pH recordings made in each subject after one week courses of placebo or omeprazole, 20 mg daily. During placebo, median 24 hour pH values were not different in the corpus (H pylori positive = 1.5, negative = 1.4; p = 0.9) or antrum (H pylori positive = 1.3, negative = 1.2; p = 0.1). However, during omeprazole treatment, median 24 hour pH values were higher in H pylori positive subjects, both in the corpus (H pylori positive = 5.5, negative = 4.0; p = 0.001) and antrum (H pylori positive = 5.5, negative = 3.5; p = 0.0004). During placebo treatment, the only difference between the two groups was a higher later nocturnal pH in the antrum in the H pylori positive group. During omeprazole treatment, gastric pH was higher both in the corpus and in the antrum in the H pylori positive group for all periods, except for mealtime in the corpus. These data indicate that omeprazole produces a greater decrease in gastric acidity in subjects with H pylori infection than in those who are H pylori negative. It is not, however, known whether there is a causal relationship between H pylori infection and increased omeprazole efficacy.

Effect of omeprazole treatment on diazepam plasma levels in slow versus normal rapid metabolizers of omeprazole

The effect of omeprazole treatment on diazepam plasma levels was studied in four slow and six rapid metabolizers of omeprazole. Single intravenous doses of diazepam (0.1 mg/kg) were administered after 1 week of oral treatment with omeprazole (20 mg) and placebo. This was a double‐blind crossover study with randomized placebo and omeprazole treatments. Blood was collected up to 120 hours after diazepam dosing (still during one‐daily omeprazole and placebo administration) for measurement of diazepam and its major metabolite desmethyldiazepam. The slow metabolizers of omeprazole also metabolized diazepam slowly, exhibiting only half the diazepam plasma clearance of the others. The mean clearance of diazepam was decreased 26% after omeprazole in the rapid metabolizers, whereas the slow group showed no apparent interaction. The mean plasma concentrations of desmethyldiazepam showed a more rapid formation in the rapid compared with the slow metabolizers, which is a logical consequence of the rate of diazepam metabolism.

Omeprazole: Pharmacokinetics and Metabolism in Man

Omeprazole is acid labile and, therefore, has to be protected from exposure to the acidic gastric juice when given orally. Following a single oral dose of buffered suspension, omeprazole is rapidly absorbed with peak plasma concentrations within 0.5 hours. The volume of distribution is 0.3 litres/kg corresponding to the volume of extracellular water. In contrast to the long duration of antisecretory action, omeprazole is rapidly eliminated from plasma. The half-life is less than 1 hour, and omeprazole is almost entirely cleared from plasma within 3-4 hours. Omeprazole is completely metabolized in the liver. The two major plasma metabolites are the sulphone and hydroxyomeprazole, neither of which contributes to the antisecretory activity. About 80% of a given dose is excreted in the urine, and the remainder via the bile. The absorption of the coated granule formulation dispensed in hard gelatine capsules is slower, with peak concentrations 1-3 hours after dose. Bioavailability after a single dose is 35% and increases during repeated once-daily dosing to 60%. Omeprazole can potentially interact with the hepatic microsomal cytochrome P-450 enzymes. Studies show that the clearance of both diazepam and phenytoin are decreased and their terminal half-lives are increased during concomitant omeprazole treatment, both interactions being attributable to inhibition of hepatic metabolism. No interaction with propranolol or theophylline has been noted.

Dose-Response Study of Omeprazole on Meal-Stimulated Gastric Acid Secretion and Gastrin Release

In a placebo-controlled, double-blind, crossover, and randomized trial, the effect of 30, 60, and 90 mg of oral omeprazole on peptone-stimulated gastric acid secretion and synchronously measured gastrin release was studied in 8 healthy subjects. Peptone-stimulated acid output was reduced dose-dependently by 42%, 80%, and 92%, respectively. In spite of a short mean plasma half-life of 52 min, the inhibitory effect lasted for greater than 4.5 h and was significantly correlated to the area under the plasma concentration time curve for omeprazole. Mean basal serum gastrin and gastrin profiles increased insignificantly without alteration of integrated gastrin output and did not show any correlation either to the omeprazole area under the plasma concentration time curve or to the inhibition of peptone-stimulated acid secretion. Side effects, significant alterations of laboratory screen, or alterations of serum concentrations of thyroid hormones were not detected. In conclusion, omeprazole is a potent and, under the conditions tested, well-tolerated inhibitor of meal-stimulated gastric acid secretion in humans.

Effect of omeprazole and cimetidine on plasma diazepam levels

SummaryThe effects of steady state dosing with omeprazole and cimetidine on plasma diazepam levels have been studied in 12 healthy males. Single doses of diazepam (0.1 mg · kg−1 i.v.) were administered after one week of treatment with omeprazole 20 mg once daily, cimetidine 400 mg b. d. or placebo, and the treatment was continued for a further 5 days. Blood was collected for 120 h after the dose of diazepam for the measurement of diazepam and its major metabolite desmethyl diazepam. The mean clearance of diazepam was decreased by 27% and 38% and its half-life was increased by 36% and 39% after omeprazole and cimetidine, respectively. Neither drug had any apparent effect on the volume of distribution of diazepam. Desmethyldiazepam appeared more slowly after both omeprazole and cimetidine. It is concluded that the decrease in diazepam clearance was associated with inhibition of hepatic metabolism both by omeprazole and cimetidine. However, since diazepam has a wide therapeutic range, it is unlikely that concomitant treatment with therapeutically recommended doses of either omeprazole or cimetidine will result in a clinically significant interaction with diazepam.

Effect of intravenous and oral omeprazole on 24-hour intragastric acidity in duodenal ulcer patients

Nine patients with duodenal ulcer were on separate occasions given omeprazole, 20 mg orally, 10 mg intravenously (IV), and 40 mg IV once daily for 5 days. On day 1, the median reduction of 24-hour intragastric acidity was 42.2% for the 20-mg oral dose and 54.8% and 88.4% for the two IV doses, respectively, but the between-patient variability was considerable for all three doses. On day 5, the degree of reduction had increased for all three doses to a median value of 99.9% for the 20-mg oral dose and 95.7% and 99.9% for the two IV doses, respectively. Plasma omeprazole concentrations increased significantly from day 1 to day 5 only for the 20-mg oral and 40-mg IV doses. Thus, the increased pharmacological effect of omeprazole during repeated once daily administration can only partly be explained by increased plasma concentrations, suggesting that some additional factor(s) must influence the degree of reduction of 24-hour intragastric acidity. Thus, when determining the optimal dose of omeprazole for acid inhibition, the route and duration of administration must be taken into consideration; after 5 days of once-daily administration of doses as low as 10 mg IV and 20 mg orally are effective and dependable in reducing 24-hour intragastric acidity in patients with duodenal ulcer. However, a daily dose of 40 mg IV omeprazole is not sufficient to keep intragastric pH above 4 in all patients during the first day of treatment.

Effects of Substituted Benzimidazole (H 149/94) on Gastric Acid Secretion in Humans

The effects of a substituted benzimidazole, H 149194, on gastric acid secretion have been studied in vitro and in vivo. In isolated human gastric glands, H 1491 94 produced dose-dependent inhibition of [14C]aminopyrine accumulation stimulated by histamine and by dibutyryl cyclic adenosine monophosphate. This indicates an intracellular site of action peripheral to cyclic adenosine monophosphate. H 149194 inhibited basal acid output in vivo, with or without gastric phosphate buffer perfusion, as well as the gastric acid response to submaximal or maximal pentagastrin stimulation. This inhibitory effect was also dose-dependent. Furthermore, it was long-lasting and 50% inhibition remained after 24 h. The peak plasma concentration occurred about 15 min after oral or intraduodenal administration. Plasma concentrations then declined rapidly. The degree of inhibition of gastric acid secretion correlated significantly with the amount of H 149/94 absorbed.