Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06051318 |
| Other study ID # |
68325123.0.0000.5355 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
January 2024 |
| Est. completion date |
June 30, 2025 |
Study information
| Verified date |
December 2023 |
| Source |
BiomeHub Biotechnology Company |
| Contact |
Luiz Felipe V. de Oliveira, PhD |
| Phone |
+554830121322 |
| Email |
felipe[@]biome-hub.com |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
When all the food we eat is digested, it will increase blood glucose. Two people can have
different glucose blood levels to the same food and one reason can be bacteria live in our
gut. There are more than a thousand bacteria species in our gastrointestinal tract that have
an important role in the proper functioning of our body, so our gut microbiome is a key piece
for our nutrition and blood glucose control.
Nowadays, one of the major public health concerns is the rise of people with diabetes (a
disease characterized by an increase in blood glucose) and the increase in obesity, in which
one of several risks is diabetes. There are multiple reasons for people develop those
diseases, however, some care on diet management can prevent, delay, or improve the effects of
these illnesses. Therefore, this study proposes studying the blood glucose variation between
healthy volunteers and if there is a relationship between that variation and the intestinal
bacteria present. These results can help doctors and nutritionists elaborate a personalized
diet for people who need blood glucose level control.
The investigators are recruiting volunteers aged 18 to 60, healthy, living at Florianopolis
and the surroundings to participate in this crossover randomized N-of-1 study. The
participants must collect fecal samples. After collection, the participants will meet the
investigators and receive a kit containing ten standardized breakfasts, with two kinds of
muffins, and a kit containing a glucose monitor (Abbott Freestyle Libre-CE marked) to monitor
their blood sugar levels. The volunteers must have breakfast with the standardized meals and
monitor the fasting glucose blood and postprandial glucose blood levels for ten consecutive
days. Besides, they must take notes (like a diet diary) about all the food they ingest during
the day in ten days of the study.
Description:
Choice of design: The study is a N-of-1 randomized series trial with multiple crossovers.
Study population: This study will monitor healthy volunteers and they will be recruited via
social media like Facebook, Instagram, and LinkedIn platforms.
Screening Assessment: The participants will be selected based on inclusion and exclusion
criteria by study management researchers. Recruitment will be done via e-mail the participant
will receive all the information about the study including the consent term and the
anthropometric questionnaire. If he/she accepts it will be sent a collection kit for the
fecal samples to the participant's address.
Study duration: Each participant will take part in the study for ten days. Dietary
intervention: The participants will receive 10 standardized meals, divided into two kinds of
muffins, which consist of a low-carbohydrate diet and a vegan one. The low-carb muffin will
have a glycemic control characteristic, with a low carbohydrate content, below 45% of the
carbohydrates recommended by the Acceptable Macronutrient Distribution Ranges (AMDR), while
the vegan muffin will consist entirely of plant-based foods in the recommended macronutrient
proportions. Both muffins will be similar in calories and standardized at 25% of daily
calories, equivalent to the caloric distribution of breakfast.
After the fecal collection, the participant must introduce the standardized meals and the
glucose monitoring device inserted. The meal order must obey the randomization established.
Before breakfast, the participant will have to measure the fasting glucose with the
monitoring glucose device and then eat the breakfast. After ingesting the muffin, the
participant will measure glucose levels every 30 minutes over a 2-hour period, totaling four
postprandial glucose measurements. Participants are free to eat whatever they wish at all
other times, but they will report every meal in a diet diary. Together with breakfast, they
can drink coffee without milk and sugar or water. The volunteers shouldn't do fasting
exercises either for about two hours after breakfast.
Anthropometry dietary and lifestyle questionnaire: Before the participants initiate the
intervention they will answer a simple questionnaire about their weight, height,
gastrointestinal symptoms, stool shape, drugs in use, antibiotics, proton pump inhibitors
use, any diagnosis of chronic disease, kind of diet, and activity information.
Digital devices: Participants will be asked to record daily dietary intake on an online
platform, like Google Sheets. The continuous glucose monitor (Freestyle Libre, CGM) will be
inserted on the back of the upper arm by themselves, or if they prefer it can be inserted by
one of the researchers when they receive all the study kits. Subcutaneous interstitial fluid
glucose will be measured before breakfast and two hours later. At the end of the intervention
period, the CGM can be removed at home. Researchers' email addresses and cellphone number
will be always available to participants to make any question.
Digital app: Participants will need to download the app FreeStyle LibreLink for the
subcutaneous interstitial fluid glucose to be measured with their cellphones.
Sample size: The sample size was calculated through simulation, assuming a Gaussian
multilevel model, comparing two diets with random intercept and diet effects per participant.
The simulation assumptions were validated with a nutritionist to ensure plausible values for
the outcome, intra-individual and inter-individual outcome variability, and individual effect
variability. A minimum clinically significant effect on postprandial blood glucose of 15
mg/dL was determined. This value was used to define the expected range for 95% of true
individual effects. The number of cycles was fixed at five to minimize the study time for
each recruited participant. Under these assumptions, the simulation of 10,000 series of
N-of-1 clinical trials determined it would be recruiting 80 participants.
