Histamine Receptor 1 and 2 Antagonists Alter Biodistribution of Radioiodine.

UNLABELLED: Nuclear medicine technology assumes responsibility for examination-specific patient preparation procedures. This requires a clear understanding of the possible effects of medications on the outcome of examinations. There is evidence that common over-the-counter drugs, histamine 1 (H1) and histamine 2 (H2) receptor blockers and proton pump inhibitors, may directly or indirectly affect thyroid function. The objective was to determine whether short-term use of these drugs alters biodistribution of radioiodine in a rat model. METHODS: Rats received no drug (controls) or daily subcutaneous injections of H1 blocker (promethazine), H2 blocker (famotidine), or proton pump inhibitor (esomeprazole) commencing 1 d before a single intraperitoneal injection of 0.037 MBq (1 µCi) of (131)I (NaI) and continuing daily until euthanasia at either 1 d or 8 d after (131)I. Organ uptake of (131)I by control and drug-treated rats was compared by γ-well counting. RESULTS: Promethazine significantly increased uptake of (131)I by the thyroid (drug-treated-to-control ratios) both at 1 d (1.32) and 8 d (1.52) after (131)I. Both famotidine and promethazine (respectively) significantly increased salivary gland uptake of (131)I (drug-treated-to-control ratios) at 1 d (1.37, 1.40) and 8 d (4.52, 5.57) after (131)I. Promethazine significantly increased gastric (131)I uptake (drug-treated-to-control ratios) at 1 d (1.47) and 8 d (1.46) after (131)I. Famotidine and promethazine (respectively) significantly decreased uptake of (131)I by the liver (drug-treated-to-control ratios) at 1 d (0.60, 0.71) after (131)I but resulted in a marked increase over control levels (11.21, 9.28) at 8 d. Blood levels of (131)I were not altered by drug treatment. Esomeprazole did not affect radioiodine distribution. CONCLUSION: H1 and H2 blockers alter the biodistribution of radioiodine in the rat. Although the findings remain to be confirmed in humans, these drugs could increase radiation exposure to nontarget tissues, particularly the stomach and salivary tissue, during (131)I therapy and consideration should be given toward avoiding the elective use of these drugs during radioiodine therapy.

Effect of omeprazole 10 mg on intragastric pH in three different CYP2C19 genotypes, compared with omeprazole 20 mg and lafutidine 20 mg, a new H2-receptor antagonist.

BACKGROUND: Omeprazole 10 mg is used as maintenance therapy for gastro-oesophageal reflux disease, but previous reports have not mentioned the potency of its acid suppression. AIM: To evaluate the potency of acid suppression with omeprazole 10 mg, in relation to CYP2C19 genotypes. METHODS: Eighteen healthy subjects without Helicobacter pylori participated. After a 7-day regimen of omeprazole 10 mg, 20 mg, lafutidine 20 mg (a novel H2-receptor antagonist) or water only (baseline data), intragastric pH was measured for 24 h. RESULTS: With omeprazole 10 mg, greater differences were observed than 20 mg in median pH values and pH > 4 holding time ratios between poor metabolizers (PMs, n = 6) and the others [homozygous extensive metabolizers (homo-EMs, n = 6) and heterozygous extensive metabolizers (hetero-EMs, n = 6)]. With lafutidine 20 mg, these parameters were not influenced by the genotype. The potency of acid suppression was: omeprazole 20 mg approximately lafutidine 20 mg > omeprazole 10 mg in homo-EMs, omeprazole 20 mg > omeprazole 10 mg approximately lafutidine 20 mg in hetero-EMs, and omeprazole 20 mg approximately omeprazole 10 mg > lafutidine 20 mg in PMs. CONCLUSIONS: Omeprazole 10 mg strongly suppresses acid secretion, but depending on the CYP2C19 genotypes shows greater interindividual variations in suppression than 20 mg.

Effects of a histamine type-2 receptor antagonist (BMY-25368) on gastric secretion in horses.

The effects of a potent new histamine-2 (H2) receptor antagonist, BMY-25368, were studied on gastric acid secretion in 5 foals from which food was withheld. Doses of 0.02, 0.11, 0.22, and 1.10 mg/kg of body weight were administered IM in a randomly assigned treatment sequence. Following BMY-25368 administration, hydrogen ion concentration was decreased and mean pH was higher than baseline values in a dose-response pattern. At the 0.22 and 1.10 mg/kg doses, the high pH was sustained for greater than 4 hours. The BMY-25368 thus may be useful for treating gastric ulcer disease in horses.