Overview
The goal of this clinical trial is to learn how the liver responds to sugar in people with obesity who are having bariatric surgery. Researchers want to understand differences between people with and without metabolic associated steatotic liver disease (MASLD).
The main question is:
Does giving sugar directly into the vein change how liver genes work in people with and without MASLD?
Researchers will compare:
- People with MASLD who receive sugar
- People with MASLD who receive saline (salt water)
- People without MASLD who receive sugar
- People without MASLD who receive saline
During surgery, participants will:
- Receive either a sugar solution (35 grams of glucose in 150 mL fluid) or saline
- Have small samples (biopsies) taken from the liver and fat tissue before and 45 minutes after the infusion
- Provide blood samples to measure sugar, insulin, and other metabolites
- Provide a one-time sample of intestinal tissue that is normally removed during surgery
This study may help explain why MASLD develops and how the liver reacts to sugar. The results could lead to new ways to understand and treat liver disease in people with obesity.
Description
Metabolic Associated Steatotic Liver Disease (MASLD) is the most common chronic liver disease worldwide and a major cause of liver-related illness and death. Current knowledge is largely based on fasting-state liver biopsies, which do not capture the transcriptional changes triggered by nutrient intake. Postprandial dysfunction is a hallmark of MASLD, yet the molecular mechanisms in human liver tissue under metabolic stress remain poorly understood.
This study uses bariatric surgery as a unique opportunity to obtain paired liver and adipose tissue biopsies before and after an intravenous glucose challenge. By administering a 35-gram bolus of \[6,6-D2\]-labeled glucose during surgery, researchers can mimic the caloric load of a high-sugar meal while controlling for confounding factors such as anesthesia and surgical stress through saline control groups.
The design is a single-center, interventional, 2 × 2 factorial trial with 40 obese participants (20 with MASLD, 20 without MASLD). Participants are randomized to receive either labeled glucose or saline. Biopsies of liver, subcutaneous, omental, and visceral adipose tissue are collected at baseline and 45 minutes after infusion. Jejunal tissue routinely removed during Roux-en-Y gastric bypass is also analyzed for transcriptomic and microbiome profiling.
Primary analyses focus on single-cell RNA sequencing of liver biopsies to identify transcriptional changes induced by glucose infusion and to compare responses between MASLD and non-MASLD participants. Secondary analyses include transcriptomic profiling of adipose depots (subcutaneous, visceral and omental), jejunal tissue, and untargeted metabolomics/proteomics of plasma samples. The use of stable isotope-labeled glucose allows tracing of metabolic pathways, including erythritol synthesis via the pentose phosphate pathway.
This approach builds on prior work done using the BARIA cohort (DOI: 10.1111/joim.13157), which demonstrated that postprandial states reveal clinically relevant differences in metabolic health not apparent in fasting conditions. By integrating tissue transcriptomics, plasma metabolomics, and microbiome data, the GHAST study aims to uncover mechanisms of metabolic dysregulation in MASLD and identify novel therapeutic targets.
Eligibility
Inclusion Criteria:
To be eligible to participate in this study, a subject must meet all of the following criteria:
Adult individuals, age \>35 \< 65 years old. Stable weight (no more than 3% TWL of initial body weight from screening to surgery) Subjects should be able to give informed consent Subjects agree to have tissue biopsies performed during surgery, that is 2 liver, subcutaneous, visceral and omental biopsies plus a one-time jejunal biopsy.
For obese non-MASLD patients:
- Adult individuals, age \>35 \< 65 years old.
- BMI ≥ 40 kg/m², or a BMI ≥ 35 kg/m² with an obesity-related comorbidity
- No MASLD based on Fibroscan
- Estimated glomerular filtration rate (eGFR) \> 60mL/min/1.73m2
For obese MASLD patients:
- MASLD diagnosis according to Fibroscan
- Compensated liver disease with the following hematologic and biochemical criteria on entry into study:
- ALAT \<10x ULN
- Hemoglobin \> 11g/dL for females and 12 g/dL for males
- White blood cell (WBC) \> 2.5 K/ μL
- Neutrophil count \> 1.5 K μL
- Platelets \> 100 K/μL
- Total bilirubin \<35 μmol/L
- Albumin \>30 g/L
- TP \>80% or INR \<1.4
- Serum creatinine \<1.3 mg/dL (men) or \<1.1 mg/dL (women) or
- Estimated glomerular filtration rate (eGFR) \> 60mL/min/1.73m2
Exclusion Criteria:
A potential subject who meets any of the following criteria will be excluded from participation in this study:
- Use of metformin and SGLT2/ exogenous insulin/GLP-1 RA
- Primary lipid disorder
- Known genetic basis for insulin resistance or glucose intolerance
- All medical and psychiatric conditions except for obesity related diseases.
- Uncontrolled hypertension (RR \> 150/95 mmHg)
- Chronic kidney disease (creatinine \> 150 umol/L)
- Pregnancy, females who are breastfeeding
- Evidence of another form of liver disease
- History of sustained excess alcohol ingestion: daily consumption \>30g/day (3 drinks per day) for males and \>20 g/day (2 drinks per day) for females
- Significant systemic or major illnesses other than liver disease, including congestive heart failure (class C and D of the AHA), unstable coronary artery disease, cerebrovascular disease, pulmonary disease, kidney failure, organ transplantation, serious psychiatric disease, active malignancy, compromised immunity
- Body mass index (BMI) \>45 kg/m2
- Type 1 or type 2 diabetes
- Hemostasis disorders or current treatment with anticoagulants
- Known heart failure
- Contra-indication for liver biopsy History of/or current cardiac dysrhythmias and/or a history of cardiovascular events including myocardial infarction, except patients with only well-controlled hypertension