Oligomalt, a New Slowly Digestible Carbohydrate, Reduces Post-Prandial Glucose and Insulin Trajectories Compared to Maltodextrin across Different Population Characteristics: Double-Blind Randomized Controlled Trials in Healthy Individuals, People with Obesity, and People with Type 2 Diabetes.
Odd Erik JohansenJoel NeutelSanjay GuptaBarbara MarianiGerhard UfheilEmilie PerrinAndreas RytzAnirban LahiryFrederik DelodderJaclyn Lerea-AntesNaomi OcampoMaximilian von EynattenPublished in: Metabolites (2024)
We assessed the glucometabolic effects of oligomalt, a novel fully slowly digestible carbohydrate, compared with maltodextrin, in cross-over randomized controlled trials (NCT05058144; NCT05963594) involving healthy volunteers (HV), people with overweight or obesity (PwO), and people with type 2 diabetes (T2D). We tested 33 g and/or 50 g of oligomalt/maltodextrin, which were dissolved in 300 mL of water and consumed after fasting in the morning. The primary exploratory endpoint was the incremental area under the curve (iAUC) for postprandial glucose, assessed by frequent blood sampling over 3 h. Insulin levels were also assessed. In the HV cohort, a 4 h hydrogen breath test was performed with 15 g of inulin as a positive control. Analysis was performed by a mixed model. Oligomalt elicited a lower post-prandial glucose response compared to maltodextrin in HV (50 g, n = 15 [7 women], mean age/BMI 31 years/22.6 kg/m 2 ), in PwO (33 g and 50 g, n = 26 [10 women], age/BMI 44 years/29.9 kg/m 2 , mean HbA1c 5.3%), and in people with T2D (50 g, n = 22 [13 women], age/BMI 61 years/31.8 kg/m 2 , HbA1c 7.4%), with significant reductions observed in PwO and T2D for the 0-1 h window (HV: -19% [ p = 0.149]/PwO 33g -38% [ p = 0.0002]/PwO 50g -28% [ p = 0.0027]/T2D-38% [ p < 0.0001]; the 0-2 h window (HV: -17% [ p = 0.311]/PwO 33g -34% [ p = 0.0057]/PwO 50g -21% [ p = 0.0415]/T2D-37% [ p < 0.0001]), and the 0-3 h window (HV: -15% [ p = 0.386]/PwO 33g -30% [ p = 0.0213]/PwO 50g0 -19% [ p = 0.0686]/T2D-37% [ p = 0.0001]). The post-prandial insulin response was significantly lower, by 38-60%, across all populations, dose, and time points, with oligomalt. In HV, the breath-hydrogen pattern was comparable between oligomalt and maltodextrin, but increased significantly with inulin. These data support the glucometabolic advantages of oligomalt over maltodextrin, hence confirming it as a healthier carbohydrate, and underscoring its full digestibility. This therefore opens up the possibility for the incorporation of oligomalt in relevant food products/matrices.
Keyphrases
- type diabetes
- weight gain
- blood glucose
- polycystic ovary syndrome
- insulin resistance
- glycemic control
- randomized controlled trial
- body mass index
- weight loss
- metabolic syndrome
- pregnancy outcomes
- cervical cancer screening
- blood pressure
- high fat diet induced
- adipose tissue
- breast cancer risk
- double blind
- electronic health record
- pregnant women
- deep learning
- artificial intelligence
- phase ii