Protein Fermentation Unraveled (PROFUN) - Exploring the Relationship Between Digestibility and Metabolite Production

Not Applicable

Completed

• Conditions: Protein Fermentation
• Interventions: Combination Product: Protein digestibility

• Registration Number: NCT06161155
• Lead Sponsor: Wageningen University

Brief Summary

Background of the study:

Protein intake is often higher than recommended in Western countries. This leads to increased amounts of protein flowing into the large intestine. Next to increased dietary protein intake, protein digestibility, and endogenous protein losses also affect the amount of protein entering the large intestine. However, these aspects have barely been studied, especially in humans. The large intestine is home to the largest bacterial ecosystem of the body. During the fermentation of protein by these bacteria (microbiota), metabolites are produced such as ammonia, branched-chain fatty acids, biogenic amines, phenolic compounds, indoles, and N-nitroso compounds. There is evidence that some of these metabolites could be harmful for gut epithelia, gastrointestinal health, and health in general after they enter blood circulation. In general, doing measurements inside the gastrointestinal tract is invasive. During this project the protein fermentation will be studied in the gastrointestinal tract using feces and urine, but also in situ using the GISMO GEN1 ingestible. This ingestible contains sensors to measure pH, ammonium, temperature, and redox potential.

Objective of the study:

The primary objectives of this study are:

1. To investigate the feasibility of the GISMO GEN1 System to monitor biomarkers in the gastrointestinal tract by studying the ingestible transit time, data coverage, participant experience, and serious adverse events (if applicable).

2. To study the effect of a 7-day high versus low digestible protein source present in the diet on protein fermentation in healthy subjects, measured by ammonia concentrations.

Study design:

The study is divided into 2 phases. In phase 1, preliminary feasibility of the GISMO GEN1 ingestible system will be assessed and the baseline measurements will be taken without any dietary restrictions. An interim analysis will be performed after phase 1 and only after a positive evaluation of the GISMO GEN1 System, the study will continue with phase 2.

Phase 2 is a randomized cross-over controlled feeding trial. Two diets will be used: one diet containing a high digestible protein source, and the other diet containing a low digestible protein source. Each diet will be given for 7 days, with a wash-out period in between. Measurements done during the dietary interventions will be compared to the other diet, and to the baseline measurements.

Study population:

15 healthy male or female volunteers, age 16 or older, BMI 18.5-30.

Intervention:

A high digestible protein diet (30 g/d whey protein) and a low digestible protein diet (30 g/d bovine plasma protein).

Primary study parameters/outcome of the study:

Ammonia as biomarker for protein fermentation, measured in feces and urine and in situ by the GISMO GEN1 ingestible.

Also, ingestible transit time, data coverage, participant experience, and serious adverse events.

Secundary study parameters/outcome of the study (if applicable):

Secondary study parameters include other protein fermentation related metabolites measured in feces, urine and blood; microbiome composition; transit time; absorption kinetics.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2023-10-19
• Study Start: 2023-11-21
• Study First Submitted QC: 2023-12-05
• Study First Posted: 2023-12-07
• Primary Completion: 2024-02-07
• Study Completion: 2024-02-07
• Status Verified: 2024-03
• Last Update Submitted: 2024-03-26
• Last Update Posted: 2024-03-28

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 15

Inclusion Criteria

• Males and females
• Age between 16 years or older
• BMI between 18.5-30 kg/m2
• Normal bowel movement: at least one defecation per 48 hours
• Suitable veins for insertion of cannula

Exclusion Criteria

• Having a current or past medical history or surgical events that may either put the subject as risk because of participation in the study, or influence the results of the study, including, a swallowing disorder, gastrointestinal or liver or endocrine or renal or cardiovascular disease, any other chronic disease, partial bowel resection, renal failure, cancer, nose/throat diseases, gastric bypass surgery, use of anticoagulants; as determined by the medical supervisor;
• Use of any medications in the week before the study that could substantially alter gastrointestinal motor function (e.g., opioids, prokinetics, anticholinergics, laxatives), or acidity (PPI, H2RA), as determined by medical supervisor;
• Having a bleeding/coagulation disorder, including hemophilia, Von Willebrand disease, Bernard-Soulier, Glanzmann thrombasthenia or thrombocytopenia;
• Swallowing disorders; Among others: dysphagia, any oropharyngeal or oesophageal stricture, functional abnormality, or anxiety disorders related to swallowing disorders;
• Severe dysphagia to food or pills;
• Suspected or known strictures, fistulas, or physiological/mechanical GI obstruction;
• Previous GI abdominal surgery; Except: uncomplicated appendectomy, and/or laparoscopic cholecystectomy;
• Pregnancy, recent childbirth in last 6 months, or actively trying to get pregnant;
• Planned MRI procedure during the study;
• Pacemakers, defibrillator, infusion pump, or other implanted electromedical devices;
• Suffering >2 times per week from: nausea / vomiting / decreased appetite / abdominal pain / high blood pressure / headaches, shakiness, and weakness / fever / diarrhea / constipation;
• Unwilling to undergo an X-ray examination and/or ultrasound (in case sensorcapsule exit cannot be confirmed);
• Working in a professional healthcare facility (e.g. hospital, dental office, emergency room), military area (e.g. submarine, near radar installation), or heavy industrial area (e.g. power plants, automotive, mining, refineries) during the duration of the study;
• Having an allergy or intolerance towards compounds in the prescribed foods (e.g. gluten, lactose, fish, peanuts, soy, nuts);
• Following a vegetarian or vegan diet;
• Use of prebiotic supplements or probiotics for 3 months before the start of the study;
• Use of antibiotics within 2 months of starting the study or planned during the study;
• Excessive alcohol consumption (alcohol: <21 consumptions/week for men, and <14 consumptions/week for women);
• Use of soft drugs within 1 month of starting the study or during the study;
• Use of hard drugs;
• Hemoglobin levels <8.5 mmol/L for men and <7.5 mmol/L for women;
• Participation in another biomedical study;
• Not having a GP;
• Being an employee of Wageningen University, Division of Human Nutrition and Health.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Bovine plasma protein then whey protein	Protein digestibility	During the first dietary intervention, the diet is supplemented with bovine plasma protein. During the second dietary intervention, the diet is supplemented with whey protein isolate.
Whey protein then bovine plasma protein	Protein digestibility	During the first dietary intervention, the diet is supplemented with whey protein isolate. During the second dietary intervention, the diet is supplemented with bovine plasma protein.

Primary Outcome Measures

Name	Time	Method
GISMO GEN1 System feasibility	3 times approximately 3 days during the trial, within a time frame of 2.5 months	Ingestible transit time, data coverage, participant experience, and serious adverse events (if applicable)
Ammonia	3 times during the trial (baseline measurements, dietary intervention 1, dietary intervention 2), within a time frame of 2.5 months	Ammonia will be measured in feces, urine, and throughout the gastrointestinal tract using the GISMO GEN1 System.

Secondary Outcome Measures

Name	Time	Method
Fermentation related metabolites	3 times during the trial (baseline measurements, dietary intervention 1, dietary intervention 2), within a time frame of 2.5 months	Feces, urine, and the GISMO GEN1 ingestible will be used to analyze a range of protein fermentation related metabolites.
Microbiome composition	3 times during the trial (baseline measurements, dietary intervention 1, dietary intervention 2), within a time frame of 2.5 months	Microbiome composition in feces
Absorption kinetics	2 times during the trial (dietary intervention 1, dietary intervention 2), within a time frame of 3 weeks	Amino acid absorption and gut hormones
Transit time	5 times during the trial (1 times during baseline measurements, twice during dietary intervention 1, twice during dietary intervention 2), within a time frame of 2.5 months	Transit time measured using the blue dye method, the insoluble marker acid-insoluble-ash, breath analysis, and the GISMO GEN1 ingestible.
pH	3 times during the trial (baseline measurements, dietary intervention 1, dietary intervention 2), within a time frame of 2.5 months	pH in feces and measured using the GISMO GEN1 ingestible.

Trial Locations

Locations (1)

Wageningen University & Research; 🇳🇱 Wageningen, Gelderland, Netherlands