Trials / Terminated

TerminatedNCT01823952

High Amylose Maize Starch for Treatment of Cholera

Phase 2, Single Centre, Randomized, Double-blind Study Conducted in Adult Males With Acute Dehydrating Diarrhea Due to Cholera With the Aim Being to Select One or More of the Three Fermentable Starches (FS) for an FS-HO-ORS Formulation.

Summary

A randomized, double-blind trial in adult males with acute dehydrating diarrhea of cholera comparing the safety, tolerability and efficacy of HAMS HO-ORS, HAMS 2.5% Acetate HO-ORS, HAMS 6% Acetate HO-ORS and HO-ORS. The primary hypothesis is that at least one of the hypo-osmolar ORS containing high amylose maize starch 6% acetate (HAMSA6-HO-ORS), hypo-osmolar ORS containing high amylose maize starch 2.5% acetate (HAMSA2.5-HO-ORS) and a hypo-osmolar ORS containing high amylose maize starch (HAMS-HO-ORS), will significantly reduce diarrhea duration compared with hypo-osmolar (HO) ORS. Specifically, the investigators expect that HAMSA6 will be the most effective preparation.

Detailed description

* Burden: Watery diarrhea including cholera continues to be a major cause of childhood mortality in developing countries, with an estimated 1.5 million children dying each year. This figure has greatly reduced from approximately 5 million diarrheal deaths annually 20 years ago, a phenomenon often attributed to the utilization of oral rehydration solution (ORS). * Knowledge Gap: ORS is very effective in correcting dehydration and reducing mortality, but is not adequately used in many countries, partly due to the fact that it does not reduce diarrhea. The physiological basis for ORS is that glucose-stimulated sodium and fluid absorption is not inhibited by cyclic 3',5'-adenosine monophosphate (cAMP) and other diarrhea mediators which inhibit sodium chloride absorption. The conventional glucose-based ORS does not reduce duration or severity of diarrhea and may in fact paradoxically increase fecal fluid losses. Advances in ORS composition have included the universal adoption of hypo-osmolar ORS (HO-ORS) in 2003. Recent technological innovations have led to the use of amylase-resistant starches and their modifications in the treatment of diarrhea. Short chain fatty acids (SCFA), which are produced in colon from these non-absorbed carbohydrates, enhance sodium absorption. An orally administered, non-absorbed starch (i.e., one resistant to digestion by amylase) significantly reduced fecal fluid loss and the duration of diarrhea in patients with cholera. * Relevance: Efforts are continuing to improve the efficacy of oral rehydration solution. As glucose stimulates sodium and water absorption in small intestine, short chain fatty acids (SCFAs) stimulate sodium and water absorption in the colon. In cholera, colonic function is also impaired due to the lack of SCFAs. The main source of SCFAs is the unabsorbed carbohydrates that are fermented in the colon by the colonic bacteria. The maize starch contains substantial amount of amylase resistant starch that escapes digestion and absorption in the small intestine and is fermented in the colon, liberating SCFAs. We expect that our experimental ORS containing maize starch will reduce the severity (stool volume) and enhance recovery (reduce duration) of diarrhoea.

Conditions

• Diarrhea

Timeline

Start date

2013-04-01

Primary completion

2014-02-01

Completion

2014-02-01

First posted

2013-04-04

Last updated

2014-04-04

Locations

1 site across 1 country: Bangladesh

Source: ClinicalTrials.gov record NCT01823952. Inclusion in this directory is not an endorsement.