Evidence suggests that butyric acid supplementation can provide the critical support needed to improve the health of the gut microbiome and help patients optimize well-being.
As the dangers of oxidative stress become increasingly evident, there is reason to believe that lowering this stress via glutathione supplementation could help patients optimize well-being.
Early studies suggest that glutathione may aid in the prevention and/or management of a wide variety of serious conditions, ranging from neurological diseases and gastrointestinal conditions to aging skin.
A growing body of scientific evidence suggests that glutathione, a powerful antioxidant, taken in supplement form may help combat the oxidative stress that plays role in some cases of IBS.
Whether you’re a patient or practitioner, staying abreast of the various conditions which may be mistaken for irritable bowel syndrome is critical to ensuring correct diagnosis and treatment.
Curcumin is being recognized as a possible treatment for IBS owing to its potent anti-inflammatory properties, potentially helping patients control flare-ups preventively and more effectively than is possible with conventional treatment alone.
When the active ingredients in nutritional supplements are not absorbed as they pass through the digestive system, the chance that a supplement will have a therapeutic impact is significantly limited.
Evidence suggests that the IBS home remedies with universal appeal and efficacy focus on supporting the health of the gut microbiome, which can play a role in any and all symptoms of IBS.
For almost two decades, researchers have been conducting rigorous in vitro experiments, animal studies, and clinical trials, to determine whether probiotics could make a difference for patients with IBS.
Exploring the Therapeutic Benefits of Turmeric Supplements for Patients with Gastrointestinal Disorders
The latest research suggests that a relatively new turmeric-based supplement—tetrahydrocurcumin—may be more effective for addressing gastrointestinal symptoms, particularly when delivered in highly bioavailable forms.