A new series of in-vitro and in-vivo studies initiated by BENEO and conducted by Corbee et ali, have evaluated the digestion of isomaltulose, as well as its glycaemic and insulinaemic effects in dogs, compared to other relevant carbohydrate sources. The study results demonstrate that isomaltulose is a suitable low glycaemic ingredient for use in dog food, triggering a lower blood glucose rise after consumption. This property makes it a particularly interesting solution with the potential to support metabolic health and weight management.
Numbers of overweight and obese dogs have steadily increased over the last few decades and exceed 50% in Western countriesii. Excessive weight is linked to metabolic and skeletal associated disorders and impacts the quality of life of both dog and owner. This is reflected in pet owners’ interest in tackling such issues: More than 8 in 10 pet owners worldwide agree that on-pack communication about helping to control their pet’s weight naturally (87%), or having a lower impact on blood sugar levels (85%), very much or somewhat affects their purchase intention of a pet food productiii. Here, nutrient choice has an important role to play, especially in regards to which carbohydrate is used in a dog’s food. Firstly, because overweight or obese pets are at risk of developing impaired glucose tolerance and insulin resistance. Secondly, low glycaemic diets have been shown to support weight loss and improve metabolic health in both humans and dogsiv. Therefore, finding suitable low glycaemic ingredients for dog food is key.
In total, three studies were carried out by the teams from universities in Utrecht and Wageningen. The first, an in-vitro study of small intestinal tissue samples from three dogs, evaluated the small intestinal hydrolysis of isomaltulose compared to sucrose, maltose, maltodextrin, lactose and ɑ-trehalose. The aim was to confirm if dogs have the ability to digest isomaltulose, as well as compare it with other carbohydrate sources. The findings showed that it can be digested by canine intestinal enzymes, with a lower enzyme activity compared to high glycaemic carbohydrates, indicating a slower rate of hydrolysis.
The second and third studies compared the effects of isomaltulose, sucrose and maltodextrin in an in-vivo set-up. One of the studies assessed the glycaemic effects of the three carbohydrates in nine dogs and using a 3×3 Latin-square designv. After an overnight fast, the blood glycaemia and insulinaemia were measured 0-180 minutes after the administration of a single dose of either isomaltulose, sucrose or maltodextrin. The results showed that isomaltulose significantly lowered blood glucose and insulin responses in the dogs, compared to maltodextrin or sucrose.
The goal of the final study was to assess the glycaemic properties of isomaltulose in dogs, after continuous intake. This was based on the assumption that the abilities to digest isomaltulose might evolve through adaptation, so that its impact on blood glucose levels would get closer to the other carbohydrates. In this study, 18 dogs received a 50:50 mix of isomaltulose and sucrose (1g per kg bodyweight) daily for two weeks. They were then split into three equal groups which each received a single dose of either isomaltulose, sucrose or maltodextrin after an overnight fast. Following this, the dogs’ blood glucose and insulin responses were measured. Even after continuous intake over two weeks, the low glycaemic and insulinaemic properties of isomaltulose were confirmed.
Commenting on the findings, Dr Maygane Ronsmans, Product Manager Animal Nutrition at BENEO says: “This research is of great importance as it offers the first comprehensive characterisation of isomaltulose with respect to its digestibility and metabolic effects in dogs. The low glycaemic properties of isomaltulose already shown in other species, including humans, pigs and rodents, have now been confirmed in dogs. The combined results of this study suggest that isomaltulose would be a suitable energy source in dog food, which contributes to a more stable blood glucose response, and may improve the dog’s metabolic profile and overall health.”
Isomaltulose is a disaccharide which occurs naturally in honey. It is composed of glucose and fructose, characterised by a stronger glycosidic bond than that of usual sugar. Isomaltulose is a direct source of energy that generates a more balanced blood glucose response, distinguishing it from high glycaemic energy sources, such as heat treated cereals and conventional sugars (e.g., dextrose). BENEO derives isomaltulose from sugar beet at its production plant for functional carbohydrates in Offstein, Germany.
iCorbee, R. J., Mes, J. J., de Jong, G. A. H., van den Dool, R. T. M., Neumer, F., Theis, S., & Bosch, G. (2023). Brush border enzyme hydrolysis and glycaemic effects of isomaltulose compared to other saccharides in dogs. Journal of Animal Physiology and Animal Nutrition, 1– 9. https://doi.org/10.1111/jpn.13860
iiRead, C. (2019). The growth of pet obesity. The Veterinary record 185, 1–3. https://doi.org/10.1136/vr.l6498
German, A.J., Woods, G.R.T., Holden, S.L., Brennan, L. & Burke, C. (2018). Dangerous trends in pet obesity. Veterinary Record, 182: 25. https://doi.org/10.1136/vr.k2
iiiBENEO Consumer Research on Attitudes towards Pet Food in US, Brazil, UK, Germany & China 2021
ivMitsuhashi Y, Nagaoka D, Bigley KE, Umeda T, Otsuji K, Bauer JE (2012). Metabolic and Hormonal Alterations with Diacylglycerol and Low Glycemic Index Starch during Canine Weight Loss. ISRN Veterinary Science 2012: 750593. doi: 10.5402/2012/750593. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3671726/
vA Latin-square design is a method of placing treatments so that they appear in a balanced fashion within a square block or field. Treatments are assigned at random within rows and columns, with each treatment once per row and once per column.