Description Module

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Description Module

The Description Module contains narrative descriptions of the clinical trial, including a brief summary and detailed description. These descriptions provide important information about the study's purpose, methodology, and key details in language accessible to both researchers and the general public.

Description Module path is as follows:

Study -> Protocol Section -> Description Module

Description Module

Ignite Creation Date: 2025-12-24 @ 7:56 PM
Ignite Modification Date: 2025-12-24 @ 7:56 PM
NCT ID: NCT06771804
Brief Summary: With increasing demands on the environment people are looking in different ways to decrease their carbon footprint. Protein is an important part of human diets a it provides building blocks for growth and helps to ensure people stay health. Animal protein is one of the primary sources of of protein from our diets but it is also known that farming cattle for example places a lot of pressure on the environment. As a result of this new protein sources are being looked at that can take the place of animal protein. Insects have been consumed on many civilisations for a long time and they are slowly making their way into the western diets. At this time the investigators however do not know very much about how well insect protein compares to animal protein as a nutritious food source. This research project is therefore one of the first to compare some of the nutritional properties between animal and insect proteins. In brief, this study involves eating a sweet breakfast muffin made of either whey (animal) protein powder or cricket flour (very finely ground whole adult crickets) and then breathing into test tubes at various time points for a few hours as well as collecting some small amounts of blood using a finger stick to measure blood glucose and fats.
Detailed Description: Insects have been used as protein source for many years in East-Asian and African populations, and more recently the interest in this potential protein source has been growing in Western countries due to the issues outlined above and increased awareness of animal welfare issues in the food chain. However, up until now there is no clear evidence that insect-derived protein has the same nutritional properties as its animal counterpart. Even though nutritional composition of insects can be similar or sometimes even better to support a healthy diet certain properties of the insects (such as the chitin in their exoskeleton) could have detrimental effects on their bioavailability. Gastric emptying (GE) describes the process of food being digested and absorbed by the controlled delivery from the stomach into the duodenum (1.). In the field of nutrition, GE is important, since a slower rate of GE can lead to a lower postprandial rise in macronutrients, and consequently a lower postprandial burden on their clearance. To date it is known that certain food properties such as volume, calories, and viscosity, as well as physiological factors such as age and gender can influence the gastric emptying rate (1.). However, the interaction between human physiology and different food in the stomach is widely unknown. A slower GE rate is particularly important regarding postprandial plasma triacylglycerol concentrations, with impaired clearance being related to inflammation and cardiovascular disease. The attenuation of the postprandial increase in blood glucose has long been a goal for improved metabolic health. As reviewed, small differences in GE can have a major impact on postprandial glycaemia in health and type 2 diabetes (2.). Furthermore, a slowed gastric emptying rate as a result of certain types of food is associated with a delayed reoccurrence of feeling of hunger and can influence satiation. The 13C octanoic acid breath test is a relatively cheap, non-invasive, and simple test to measure GE. The test is performed via the ingestion of a controlled meal containing the commercially available non-harmful stable isotope 13C in a short chain fatty acid (C8) and the following detection of the 13Clabelled CO2 in the breath (3.). The data generated by the breath test is commonly analysed with a one compartment model based on Ghoos et al (1993) (4.) to generate parameters such as half time and lag time. More advanced semi mechanistic models are used in pharmacokinetics and could be applied to the breath test.
Study: NCT06771804
Study Brief:
Protocol Section: NCT06771804