Healthy Clinical Trial
— GutBrainGABAOfficial title:
Mapping the Impact of Gut Bacteria on Brain and Behaviour Through the Lens of GABA (GutBrainGABA)
Gut microbiota produce different metabolites within the human body, which include neurotransmitters. Animal studies have demonstrated a critical role for the gut microbiota in various aspects of brain and behavioural function, and a smaller number of studies in humans have shown differences of gut microbiota composition in psychiatric conditions. However, almost nothing is known about the impact of neurotransmitters produced by the gut microbiota on human brain and behaviour. The way in which differences in brain, behaviour and personality traits are associated with the gut microbiota, and how they are influenced by a probiotic will be explored, with a special focus on GABA (Gamma Amino Butyric Acid). Abnormalities of microbiota composition have been identified in metabolic disorders, such as inflammatory bowel disease and obesity, and psychiatric conditions, such as depression and anxiety. The aim of this intervention trial will be to answer the following fundamental questions: 1. Does the population of gut bacteria capable of producing GABA modulate brain-based measures of GABA? 2. Does the population of gut bacteria capable of producing GABA influence performance in behavioural tasks known to depend on GABA-ergic function? The impact of a GABA producing probiotic on the measures of GABA in the brain and serum, relevant metabolites in blood, faecal and urine samples and performance in GABA dependent behavioural tasks will be investigated in this trial.
Status | Recruiting |
Enrollment | 60 |
Est. completion date | December 31, 2026 |
Est. primary completion date | December 31, 2026 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | Male |
Age group | 18 Years to 50 Years |
Eligibility | Inclusion Criteria: - Male - Right-handed - Caucasian/White - Between 18 and 50 years of age - Grew up in the UK or other European country - Body Mass Index 18.5 to 30. Exclusion Criteria: - Use of antibiotics within the last 3 months - Use of protonic pump inhibitors (PPIs) within the last 3 months - Current or history of regular smoking within the last 6 months - Regular consumption of >14 units of alcohol per week - Current use of psychotropic drugs for medicinal or recreational purposes - Current use of probiotic/prebiotic supplements - Current diagnosis of neurological, developmental or psychiatric condition - Current diagnosis of gut microbiota related conditions such as inflammatory bowel disease or irritable bowel syndrome |
Country | Name | City | State |
---|---|---|---|
United Kingdom | University of Reading | Reading |
Lead Sponsor | Collaborator |
---|---|
University of Reading | European Research Council |
United Kingdom,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Changes in GABA concentrations in the brain assessed using Magnetic Resonance Spectroscopy (MRS) | Concentrations of GABA will be quantified using MRS. MRS data will be analysed separately in the time domain using an open-source magnetic resonance spectroscopy analysis tool, such as Osprey. | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Primary | Changes in GABA-ergic activity in the sensorimotor component of the resting state network assessed using resting state functional Magnetic Resonance Imagine (rs-fMRI) | GABA-ergic activity will be measured using rs-fMRI. MRI data will be analysed.. | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Primary | Changes in GABA concentrations in urine assessed by Liquid chromatography-mass spectrometry (LC-MS). | Concentrations of GABA will be measured in urine samples by LC-MS. | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Primary | Changes in GABA concentrations in serum assessed by Liquid chromatography-mass spectrometry (LC-MS). | Concentrations of GABA will be measured in serum samples by LC-MS. | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in faecal bacteria quantity assessed by Fluorescent In Situ Hybridisation Followed by Flow Cytometry (FISH-FCM) | Quantity of faecal bacteria will be assessed by FISH-FCM | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in compositional diversity of faecal microbiota attributable to intervention assessed by 16S ribosomal RNA (16S rRNA) gene amplicon sequencing | Compositional diversity of faecal microbiota attributable to intervention will measured by 16S rRNA sequencing methods | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in metabolic profile in faecal samples assessed by Nuclear Magnetic Resonance spectroscopy (NMR) | The metabolic profile will be measured in faecal samples using NMR | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in metabolic profile in urine samples assessed by Nuclear Magnetic Resonance spectroscopy (NMR) | The metabolic profile will be measured in urine samples using NMR | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in metabolic profile in serum samples assessed by Nuclear Magnetic Resonance spectroscopy (NMR) | The metabolic profile will be measured in serum samples using NMR | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in blood pressure assessed by measures of systolic and diastolic blood pressure | Blood pressure will be recorded during the intervention using an upper arm blood pressure monitor | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in motor function performance assessed by reaction time | Motor performance data will be calculated by averaging the reaction time from correct trials (i.e., where participants pressed the button corresponding to the visual sequence presented). | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in emotion recognition performance assessed by reaction time and accuracy | Emotion recognition task accuracy and reaction time will be calculated in response to six emotions and a neutral facial expression. | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in tactile discrimination performance assessed by reaction time, static threshold and dynamic threshold | Tactile discrimination reaction time and thresholds will be obtained from each participant using established 'staircase' threshold estimation procedures. | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in levels of trait and state anxiety assessed by the State-Trait Anxiety Inventory (STAI) | Trait and state levels of anxiety will be assessed by the STAI questionnaire | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) | |
Secondary | Changes in levels of depression assessed by the Centre for Epidemiological Studies Depression questionnaire (CES-D) | Levels of depression will be assessed by the CES-D questionnaire | 1. Baseline (Week 0), 2. Following intervention (Week 4 or Week 12, depending on intervention arm assignment), 3. Following washout (Week 8), 4. Following placebo (Week 4 or Week 12, depending on intervention arm assignment) |
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