Understanding How Gut and Brain Barriers Are Linked to Inflammation in Obesity

N/AEnrolling By InvitationNCT06787001

University Hospital, Gentofte, Copenhagen50 enrolled

Overview

The goal of this observational study is to understand how obesity affects the function of the gut and blood-brain barriers in adults. These barriers protect the body and brain from harmful substances, and changes in their function may lead to inflammation and increased risk of chronic diseases. The study will include 25 participants with obesity (BMI over 35) and 25 healthy participants (BMI 20-25) matched by age and gender. The main questions it aims to answer are: * How does obesity affect the blood-brain barrier and its connection to cognitive and psychopathological status? * Does increased gut permeability lead to higher inflammation levels? * Does obesity increase the permeability of the gut barrier? Researchers will compare results from participants with obesity to healthy participants to determine how obesity impacts barrier function, inflammation, and overall health. Participants will: Attend three visits over several days, including: * Screening visit: A health examination with weight, height, blood pressure, blood tests, and a scan to assess body fat distribution. * Visit 1: Provide a stool sample, drink a sugar solution to assess gut permeability, collect urine samples, and take cognitive as well as psychopathological tests. * Visit 2: Undergo an MRI scan to assess the blood-brain barrier and its function. The study aims to identify how obesity-related changes in these barriers contribute to health risks.

The study is a cross-sectional study including individuals with obesity and lean healthy controls. It is planned to recruit 25 individuals with a BMI above 35 kg/m2 and 25 lean healthy gender- and age-matched individuals with a BMI between 20-25 kg/m2. Given the extensive nature of these examinations, which include the lactulose/sucralose-mannitol test, DCE-MRI, metabolic and cognitive assessments, they will be conducted on three separate study days, in random order, and with fixed time intervals between each study day. The study employs a comprehensive approach to assess gut barrier integrity using the lactulose/sucralose-mannitol test to evaluate barrier permeability and absorptive surface area, complemented by measuring biomarkers related to gut integrity and microbial-immune interaction. Additionally, the study analyses circulating proinflammatory biomarkers and microbial genetic material to understand systemic inflammation and bacterial translocation in obesity. The integrity of the BBB is examined using DCE-MRI to detect alterations in obesity and investigate correlation between BBB permeability and obesity-related neurological conditions. Cognitive functions are assessed through tests that evaluate domains like processing speed and memory and psychopathological tests will evaluate depressive and anxiety symptoms. These tests explore the potential impact of obesity on the central nervous system. Metabolic and physiological measurements, including glucose levels, haemoglobin A1c, and body composition, provide insights into the metabolic effects of obesity and its broader physiological implications.

Eligibility

Sex: ALLMin age: 40 YearsMax age: 70 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion criteria for individuals living with obesity * BMI \> 35 kg/m2, bioimpedance-assessed body fat \> 30% (men) or \> 40% (women), and hip/waist-ratio \> 0.85 * Age ≥40 and ≦70 years * Sterilised or postmenopausal women (\> 12 months amenorrhoea or females ≥ 60 years of age) or women who are sexually abstinent during the entire study period or are practicing non-hormonal contraception (no contraceptive pill, no hormonal intrauterine device) during the entire study period * Able to understand written participant information and give signed informed consent. Inclusion criteria for lean healthy controls * BMI 20-25 kg/m2, bioimpedance-assessed body fat \< 30% (men) or \< 40% (women), and hip/waist-ratio \< 0.85 * Age ≥40 and ≦70 years * Sterilised or postmenopausal women (\> 12 months amenorrhoea or females ≥ 60 years of age) or women who are sexually abstinent during the entire study period or are practicing non-hormonal contraception (no contraceptive pill, no hormonal intrauterine device) during the entire study period Exclusion Criteria: * Diagnosis of diabetes mellitus type 1 or type 2. * Inflammatory gastrointestinal conditions such as Crohn's disease, ulcerative colitis, clinically significant food allergies, candidiasis, etc. * Previous bariatric surgery, or surgeries involving the removal of intestinal tissue * The use of weight loss-inducing medication such as GLP-1 receptor agonists, bupropion/naltrexone, and orlistat within 90 days prior to screening * Planned elective surgery during the study period with the exception of dermatosurgical, ENT (ear, nose, throat) or dental procedures not requiring general anaesthesia and/or perioperative antibiotic treatment * Chronic systemic inflammatory diseases (e.g. rheumatoid arthritis) and other conditions significantly affecting inflammation status or immunoregulation (severe allergies, status post transplantation etc.) * History of sleep disorders * Chronic infectious diseases such as hepatitis, HIV etc. * Use of proton pump inhibitors, metformin, anti-biotic, lipid-lowering statins, laxatives, antihistamines, paracetamol, aspirin, statins, tricyclic antidepressants, selective serotonin reuptake inhibitor antidepressants and any other medications correlated to changes in faecal microbiome diversity for the period of the study and within 20 days prior to screening * Active use of nicotine products, including but not limited to cigarettes, vapes, or any other form of nicotine consumption. * Abuse of alcohol and/or drugs, or any other co-existing conditions that will make the individual unsuitable to participate in the study, as deemed by the investigators * Pregnancy or desire to become pregnant during the study period * Breastfeeding * Any concomitant disease or treatment that, at the discretion of the investigators, might jeopardise the participant's safety during the study * Mental incapacity or language barriers that preclude adequate understanding or cooperation, or unwillingness to comply with study requirements * Body weight above the MRI scanner's maximum capacity of 140 kg or claustrophobia at a level, which makes MRI scans impossible * Severe kidney disease with increased serum creatinine and low estimated glomerular filtration rate (GFR) (\<60ml/min/1.73m2) * Magnetic foreign objects in the body (e.g. pacemaker, metal implants from operation, etc.) * Adherence to a restrictive diet (e.g. ketogenic diet, vegan diet, raw diet, low FODMAP diet, and paleo diet) which is significantly correlated to changes in faecal microbiome diversity 7.2.3. Criteria for discontinuation in the study * Withdrawal of informed consent * Pregnancy * Any safety consideration as assessed by the investigators * Any exclusion criterion developing or being diagnosed during the course of the study * Non-compliance with the study protocol as deemed by the investigators

Outcomes

Primary Outcomes

BBB permeability

Differences in BBB permeability using Dynamic Contrast-Enhanced Magnetic Resonance Imaging (DCE-MRI) between individuals with and without obesity

Time frame: 25 minutes post contrast administration

Secondary Outcomes

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and Lactulose/Mannitol ratio from Lactulose/Sucralose-Mannitol test.

Time frame: 25 minutes post contrast administration and 0-5h Lactulose/Mannitol ratio

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and Lactulose/Mannitol ratio from Lactulose/Sucralose-Mannitol test.

Time frame: 25 minutes post contrast administration and 5-24h Lactulose/Mannitol ratio

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and quantities of plasma Zonulin

Time frame: 25 minutes post contrast administration and baseline (fasting) Zonulin

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and quantities of plasma Citrulline

Time frame: 25 minutes post contrast administration and baseline (fasting) Citrulline

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and quantities of plasma Regenerating islet-derived protein 3-alpha

Time frame: 25 minutes post contrast administration and baseline (fasting) Regenerating islet-derived protein 3-alpha

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and quantities of plasma Lipopolysaccharide binding protein

Time frame: 25 minutes post contrast administration and baseline (fasting) LBP

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and quantities of plasma soluble cluster of differentiation 14

Time frame: 25 minutes post contrast administration and baseline (fasting) sCD14

Correlation between BBB permeability and gut barrier permeability

Ki values from DCE-MRI and full blood bacterial DNA

Time frame: 25 minutes post contrast administration and postprandial AUC of full blood bacterial DNA

Correlation between BBB permeability and markers of neuronal damage

Ki values from DCE-MRI and quantities of plasma Amyloid beta

Time frame: 25 minutes post contrast administration and baseline (fasting) Amyloid beta

Correlation between BBB permeability and markers of neuronal damage

Ki values from DCE-MRI and quantities of plasma P-Tau

Time frame: 25 minutes post contrast administration and baseline (fasting) P-Tau

Correlation between BBB permeability and markers of neuronal damage

Ki values from DCE-MRI and quantities of plasma NfL

Time frame: 25 minutes post contrast administration and baseline (fasting) NfL

Correlation between BBB permeability and markers of neuronal damage

Ki values from DCE-MRI and quantities of plasma GFAP

Time frame: 25 minutes post contrast administration and baseline (fasting) GFAP

Correlation between BBB permeability and markers of neuronal damage

Ki values from DCE-MRI and quantities of plasma Alfa-Synuclein

Time frame: 25 minutes post contrast administration and baseline (fasting) Alfa-Synuclein

Correlation between BBB permeability and systemic inflammation

Ki values from DCE-MRI and quantities of plasma High sensitivity CRP

Time frame: 25 minutes post contrast administration and baseline (fasting) HS CRP

Correlation between BBB permeability and systemic inflammation

Ki values from DCE-MRI and quantities of plasma TNF alfa

Time frame: 25 minutes post contrast administration and baseline (fasting) TNF alfa

Correlation between BBB permeability and systemic inflammation

Ki values from DCE-MRI and quantities of plasma IL 1 beta

Time frame: 25 minutes post contrast administration and baseline (fasting) IL 1 beta