In the treatment of obesity, nutritional and behavioral modifications are difficult to implement and maintain. Since vegetable consumption is a fundamental part of many dietary interventions and daily nutrient requirements, we developed a novel cellulose-based superabsorbent hydrogel (CB-SAH) platform, inspired by the composition and mechanical properties of raw vegetables, as a mechanobiological therapy. The CB-SAHs properties were studied in a simulated gastrointestinal environment, while their impact on gut tissue was investigated by an ex vivo organ culture (EVOC) model. Functional fibers and raw vegetables were used as reference. CB-SAHs demonstrated orders of magnitude higher elasticity in comparison to the tested functional fibers, however performed similar to the tested raw vegetables. Notably, the biomimetic CB-SAHs with elasticity levels similar to raw vegetables showed benefits in preserving and regulating the gut tissue in the EVOC model. Non-systemic oral mechanotherapeutics based on this technology were advanced through clinical studies, with a first product cleared as an aid for weight management in the US and Europe.
Overweight and obesity are major health concerns worldwide, and are major predisposing factors for type 2 diabetes. This single-centre, Phase I, randomised, open-label, single-dose, 4-arm crossover, device-drug interaction study on 24 healthy volunteers with a body mass index of 25-40 kg/m tested the effect of a novel, nonsystemic, orally administered hydrogel (GS100) on the pharmacokinetics of an oral antidiabetic drug, metformin. When administered in both the fed and fasted states, the effect of GS100 on metformin pharmacokinetic characteristics was found to be similar to that of food. The type, frequency, and intensity of adverse events observed when GS100 was co-administered with metformin were similar to those observed with metformin alone. This study demonstrates that GS100 can be taken by patients receiving metformin, without altering the administration of metformin.
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