Clinical Trial: Prevalence and Intervention of Hypomagnesemia in Users of Proton-pump Inhibitors

Study Status: Completed
Recruit Status: Completed
Study Type: Interventional

Official Title: Inulin- a Potential Preventive Dietary Supplement Against PPI Induced Hypomagnesemia

Brief Summary:

Hypomagnesemia is a severe side effect of longterm use of all available proton-pump inhibitors (PPIH). It develops due to intestinal malabsorption of Mg2+.

This study investigates the application of dietary inulin fibers in users of proton-pump inhibitors with such a hypomagnesemia. To this end, repetitive short-term trials of 14 days of orally administered inulin, separated by a wash-out period of 14 days each were performed in cases of PPIH and controls. This study was not blinded or randomized.


Detailed Summary:

Hypomagnesemia due to PPI use (PPIH) has a low frequency, but is a difficult to control side effect in clinical practice. It develops over years and results in severe symptoms related to the hypomagnesemia. Due to the widespread use of PPIs, the real number of PPIH may be high. Currently, there is a lack of intervention strategies and no general treatment protocols for patients exist. It is generally anticipated that PPI-withdrawal and antacid replacement therapy is the only working method to recover patients from the hypomagnesemia. However, this frequently resulted in rebound of gastric acid related complaints.

The molecular mechanism of PPIH involves a reduction of Mg2+ absorption by the large intestine. Inulin fibers have been shown to have prebiotic properties. The intestinal microbiome ferments inulin and releases butyrate into the luminal compartment of the intestine. This results in acidification which enhances the uptake of Mg2+ and Ca2+ mediated by pH-sensitive ionchannels.Thus inulin may counteract PPI induced reduction of luminal protons and therefore reestablish normal Mg2+ absorption.

To this end cases with PPIH and controls underwent two 14 day trials of orally administered inulin under separated by wash-out periods of 14 days. During the experimental phase blood measures of electrolytes were monitored.


Sponsor: Radboud University

Current Primary Outcome: Cases and controls: Mean serum Mg2+ treatment effect of inulin (composite measure) [ Time Frame: Cases and controls were followed for 56 days. Single measures of serum Mg2+ (in mmol/L) were performed at days 0, 14, 28,42 and 56. ]

Measured values at respective timepoints are denoted as means +/- SEM in mmol/L. The treatment effect is calculated by the overall mean change of serum Mg2+ during the two inulin treated phases (Days 0 - 14 and days 28 - 42) and expressed as mean +/- SEM.


Original Primary Outcome: Same as current

Current Secondary Outcome:

  • Cases and controls: Mean serum Ca2+ treatment effect of inulin (composite measure) [ Time Frame: Cases and controls were followed for 56 days. Single measures of serum Ca2+ (in mmol/L) were performed at days 0, 14, 28,42 and 56. ]
    Measured values at respective timepoints are denoted as means +/- SEM in mmol/L. The treatment effect is calculated by the overall mean change of serum Ca2+ during the two inulin treated phases (Days 0 - 14 and days 28 - 42) and expressed as mean +/- SEM.
  • Cases only: 24-hrs urine Mg2+ excretion without inulin at days 27/28 [ Time Frame: Collected 24-hrs urine samples are taken from each case at days 27/28. Samples were stored and measured within one week after day 56, the finalizing day of the respective participant. ]
    Measured values for respective timepoint is denoted as a mean +/- SEM in mmol/24hrs.
  • Cases only: 24-hrs urine Mg2+ excretion with inulin at days 41/42 [ Time Frame: Collected 24-hrs urine samples are taken from each case at days 41/42. Samples were stored and measured within one week after day 56, the finalizing day of the respective participant. ]
    Measured values for respective timepoint is denoted as a mean +/- SEM in mmol/24hrs.
  • Cases only: 24-hrs urine Ca2+ excretion without inulin at days 27/28 [ Time Frame: Collected 24-hrs urine samples are taken from each case at days 27/28. Samples were stored and measured within one week after day 56, the finalizing day of the respective participant. ]
    Measured values for respective timepoint is denoted as a mean +/- SEM in mmol/24hrs.
  • Cases only: 24-hrs urine Ca2+ excretion with Inulin at days 41/42 [ Time Frame: Collected 24-hrs urine samples are taken from each case at days 41/42. Samples were stored and measured within one week after day 56, the finalizing day of the respective participant. ]
    Measured values for respective timepoint is denoted as a mean +/- SEM in mmol/24hrs.
  • Cases and controls: General demographics of PPI users (Composite measure) [ Time Frame: at day 0 ]
    Demographical data, extracted from patient reports with relevant data such as age, sex, PPI-use and Duration and relevant comorbidities
  • Cases and Controls: Genetic screen of polymorphisms in the TRPM6 gene [ Time Frame: DNA was extracted from blood, amplified and sequenced in average 2 months after bloodwithdrawal ]
    Small PCR and Sanger sequencing of exons 26+27 of the gene TRPM6 (Mg2+ channel)


Original Secondary Outcome: Same as current

Information By: Radboud University

Dates:
Date Received: June 26, 2015
Date Started: February 2014
Date Completion:
Last Updated: August 5, 2015
Last Verified: August 2015