Researchers found evidence that the bilayer delivery system has the potential to reduce cramping and provide constipation relief
Washington [US]: As rapid-release, cramp-inducing doses of chenodeoxycholic acid (CDC) have previously shown promise in treating constipation, but further development has been hampered by the abdominal pain associated with the sudden release of CDC–in preclinical studies. A team of researchers devised a plan to deliver CDC in a bilayered capsule, finding that this mode of delivery could decrease colon cramping and thus produce a better patient experience.
In preclinical studies, researchers at Brigham and Women’s Hospital and the Massachusetts Institute of Technology (MIT) the team found evidence that this bilayered delivery system has the potential to reduce cramping and provide constipation relief. Findings are published in Clinical and Translational Gastroenterology.
“We know bile acids are capable of helping with motility, but what has been attempted in the past is giving a bolus — a boatload of bile acid all at once. This manifests in increased bowel movements, but also pain,” said Giovanni Traverso, MD, PhD, of the Brigham’s Division of Gastroenterology, Hepatology and Endoscopy and the Department of Mechanical Engineering at MIT. “Could we take this endogenous, natural product and deliver it in a way that overcomes this risk of contractions?”
The liver produces bile acids to aid in the digestive process, regulating intestinal motility, fluid homeostasis, and humoral activity. Bile acids, such as pro-motility CDC, have been previously studied in patients for their pro-motility effects and recognized to enhance water ingression and bowel motility. The challenge has been how to administer these in ways that minimize potential side effects; to accomplish this, researchers developed a bilayered delivery system.
The bilayered delivery mechanism was tested in swine models for half-life, colon cramping and whether it caused a similar dosage spike to single-layered delivery. Immediate release of the pill’s surface layer established a healthy local concentration of CDC, which in turn offered enough colonic fluid to initiate the pill’s second, slower-release layer of CDC. This biphasic release of CDC established a low-dose, long-lasting presence of bile acid over time, avoiding the dosage spike and decreasing cramping.
Several important limitations exist for this study, including lack of similar studies for comparison and shortcomings of the swine model; the team was not able to measure levels of abdominal pain in the swine model, and only rectal contractions were measured, as opposed to a full colonic evaluation.
Within the next 18 months, clinical trials will begin for the bilayered delivery of CDC to IBS-C patients, with pill production regulated by the team’s newly founded Bilayer Therapeutics. Traverso envisions applications for this therapeutic far beyond IBS-C. Bile acids are involved in metabolic diseases, including diabetes and liver cytopathy.
“While further studies are necessary to demonstrate the therapeutic potential of these systems in humans, our findings suggest that controlled delivery of bile acids to the colon may represent a novel approach to treating gastrointestinal diseases such as constipation,” said co-author Joshua Korzenik, MD, of the Brigham’s Gastroenterology and Hepatology Division.