Short-Term Effects of Sucralose and Saccharin on Blood Sugar and Gut Microbiota in Type 2 Diabetes

Although these sweeteners are generally recognized as safe, emerging studies have raised concerns regarding their potential metabolic effects. In particular, findings on their influence on glycaemic control in humans remain inconsistent. One proposed mechanism underlying these effects involves modulation of the gut microbiota, which is increasingly recognised as a critical regulator of host metabolic homeostasis. However, current evidence in human studies is limited and inconclusive.

Individuals with T2DM commonly exhibit pre-existing gut dysbiosis, raising important questions about whether the use of NNS may further impair microbial composition or function. To date, no clinical trial has comprehensively examined the short-term effects of sucralose and saccharin on both glycaemic responses and the gut microbiota in specific T2DM population. Moreover, data from Asian populations whose dietary patterns, gut microbial composition, and metabolic phenotypes differ significantly from Western cohorts are scarce. Given the widespread consumption of NNS in daily diets, especially among individuals seeking glycaemic control, this represents a critical evidence gap with potential implications for dietary recommendations and metabolic health.

This study aims to address these gaps through a clinical trial in adults with T2DM. The crossover design enables within-subject comparisons, thereby reducing inter-individual variability and enhancing statistical power to detect subtle biological effects. Reference to previous studies has shown inconsistencies arising from factors such as inconsistent dosing, varying administration routes (e.g., sachet vs. capsule; pure compound vs. commercial product), differences in intervention duration, and a lack of control for confounding variables such as habitual diet, medication use, and physical activity. To address these issues, we have incorporated several methodological improvements. Our study will implement a body weight-based individual dosing protocol, oral administration in a standardised pure compound capsule form, and detailed characterisation of participants' dietary intake and lifestyle behaviours.

Additionally, for our study phenotype, we have strictly controlled for patients' diabetes progression, including diagnosis duration (1-5 years), treatment type (oral antidiabetic medication only, no insulin), age group (30-50 years), demographic (male only), ethnicity (single ethnic group), and BMI range (specified). Through these measures, our study aims to minimise variability, particularly in gut microbiota outcomes and generate more robust results.