Volume 18, Issue 5 p. 430-435
Clinical Trial

Bioavailability of Magnesium Diglycinate vs Magnesium Oxide in Patients with Ileal Resection

Sally A. Schuette PHD

Sally A. Schuette PHD

University of Chicago, Department of Medicine, Section of Gastroenterology, BioChemAnalysis Corp, 2201 West Campbell Park Drive, Chicago IL 60612

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Bret A. Lashner MD

Bret A. Lashner MD

University of Chicago, Department of Medicine, Section of Gastroenterology, Department of Gastroenterology, Cleveland Clinic Foundation, 9500 Euclid Avenue, Cleveland, OH 44195

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Morteza Janghorbani PHD

Morteza Janghorbani PHD

University of Chicago, Department of Medicine, Section of Gastroenterology, BioChemAnalysis Corp, 2201 West Campbell Park Drive, Chicago IL 60612

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First published: 01 September 1994
Citations: 36

Abstract

Background: Patients who have undergone ileal resection are at risk for developing magnesium depletion/deficiency because of poor absorption and decreased intake as well as increased endogenous losses. Magnesium repletion is difficult to accomplish because of the cathartic action of most oral magnesium supplements at therapeutic doses. The results of in vitro and in situ studies show that magnesium diglycinate (chelate) represents a highly available form of magnesium that is absorbed in part as an intact dipeptide in the proximal small intestine. Methods: We conducted a double-blind, randomized crossover trial with 12 patients who had ileal resections in order to compare the bioavailability of a 100-mg dose of 26Mg-labeled chelate with MgO in this patient population. Results: For the patient group as a whole, 26Mg absorption was low but was not different for the two supplements (23.5% vs 22.8% for magnesium chelate and MgO, respectively). However, 26Mg absorption was substantially greater from the chelate (23.5% vs 11.8%; p <.05) in the four patients who showed the greatest impairment of magnesium absorption with MgO and was better tolerated by all patients. Peak isotope enrichment also occurred significantly earlier after 26Mg chelate than after 26MgO ingestion (mean difference 3.2 ± 1.3 hours; p <.05), and the area under the enrichment vs time curve was greater after chelate ingestion (p <.05). Conclusions: Data from this study support the suggestion that some portion of magnesium diglycinate is absorbed intact, probably via a dipeptide transport pathway. Magnesium diglycinate may be a good alternative to commonly used magnesium supplements in patients with intestinal resection. (Journal of Parenteral and Enteral Nutrition 18:430–435, 1994)