MedPath

Metabolic Surgery for Steato-Hepatitis

Not Applicable
Conditions
Non-alcoholic Fatty Liver Disease (NAFLD)
Non-Alcoholic Steato-Hepatitis (NASH)
Interventions
Other: Lifestyle and Diet
Procedure: Metabolic/Bariatric surgery
Registration Number
NCT04282005
Lead Sponsor
King's College London
Brief Summary

Non-alcoholic fatty liver disease (NAFLD) is associated with obesity and type 2 diabetes mellitus (T2DM) and is characterised by excess liver fat on imaging or histology. NAFLD affects up to 25% of the Western population. It's more aggressive form is non-alcoholic steatohepatitis (NASH) characterised by cell injury, inflammation and fibrosis, and is associated with increased mortality from liver and cardiovascular disease. Currently, there is no specific treatment for NASH. Diet and exercise-induced weight loss remain the only recommended options. However, maintaining weight loss in the long term is difficult. There is therefore a significant unmet need for effective therapy in patients with NASH that can address the underlying mechanisms of disease. Although preliminary observational evidence suggests that bariatric/metabolic surgery, especially RYGB can improve NASH, no controlled trials to date has confirmed the efficacy of surgery compared to standard weight loss programs. Also, while animal and clinical studies have shown that bariatric surgery exerts weight-independent effects on glucose metabolism, it is yet unknown if the observed effects of bariatric/metabolic surgery on NASH are due to weight loss alone or result from additional, weight-independent mechanisms, like in the case of T2DM. If the effect of surgery on inflammation, liver fibrosis and other mechanisms of cardiometabolic risk were found to be independent on weight reduction, there would be profound and far-reaching implications for both the treatment and the understanding of NASH, cardiovascular disease and obesity-related cancers.

This project will investigate the hypothesis that, similarly to surgical control of diabetes, bariatric/metabolic surgery can also exert weight-independent effects on mechanisms of disease in NAFLD/NASH (i.e. influence on lowgrade inflammation and markers of fibrosis)

Detailed Description

This study's population includes patients with severe obesity (BMI \>35kg/m2 or \>32.5. kg/m2 if patient of South Asian, Caribbean or Black ethnicity) and non-alcoholic fatty liver disease (NAFLD) who are eligible for bariatric/metabolic surgery and are on the waiting list for either Roux-en-Y gastric bypass (RYGB) or sleeve gastrectomy (SG) at King's College Hospital. Patients who meet study criteria will be assigned to the study groups as described below:

1. Surgery Group: Fourteen patients who meet study criteria will be assigned to the study group and will undergo surgery; 7 RYGB and 7 SG, as planned for their standard care.

2. Lifestyle Intervention Group: Fourteen patients matched to the surgery group for age, gender, BMI, diabetes status, and NAFLD score will undergo additional lifestyle interventions, dietary counselling (either a meal replacement diet or a low calorie diet) by a dietician aimed at inducing at least a 5-7% weight reduction, prior to their surgery (while on the waiting list for surgery).

Each participant in both the surgery and lifestyle intervention group will then attend the baseline visit.

At the baseline visit the participant will undergo a metabolic lab panel from bloods already provided to the clinic. This visit will also involve the clinical team performing an ultrasound-guided fine needle aspiration (FNA) of the liver. The fine needle aspiration will involve inserting a small needle through the skin to take a small sample of cells from the liver. It will be carried out in the Institute of Liver Studies at King's College Hospital. The clinical research team will also access the participants medical record to collect data from your medical history including weight, height, body mass index (BMI) and previous FibroScan®. Additionally, a saliva swab, urine and stool sample will be collected.

A subgroup of patients (6 participants in the Lifestyle Intervention Group, 6 undergoing RYGB, 6 undergoing SG) will undergo a mixed meal test (MMT) to investigate changes in meal-response of circulating cardiometabolic markers, bile acids and gut hormone as well as calculated insulin sensitivity/secretion. The surgery group patients will undergo surgery as per standard practice and will be reviewed in the bariatric clinic 4-6 weeks' post surgery- this will be at 5-7% weight loss (WL). At the 5-7% WL visit the patient will undergo a metabolic lab panel, a liver FNA, will have their weight and height recorded and BMI calculated. A new FibroScan will be performed.

Additionally, a saliva swab, urine and stool sample will be collected. The 12 patients ( 6 RYGB, 6 SG) in the surgery group who were included in the previous MMT will undergo a second MMT to investigate the change in meal-response of circulating cardio-metabolic markers, bile acids, gut hormones, insulin sensitivity/secretion post-surgery.

The lifestyle intervention group participants will attend a one-to-one dietary consultation with a registered dietician to select a diet plan: either a low-calorie diet or meal replacement diet to induce 5-7% WL. Information booklets that will aid dieting will be provided to the participant. The participant will then be expected to follow the dietary advice in order to achieve a 5-7% WL. The clinical research team will provide additional phone call consultations at 2-, 4-, 8-, 12-, 14-, 16-, 18-, 20-, 22-, 24-weeks post-lifestyle intervention to assess weight change, diet adherence and motivation. Once the participant has a 5-7% WL they will attend the bariatric clinic for their 5-7% WL visit. At the 5-7% WL visit the patient will undergo a metabolic lab panel, a liver FNA, will have their weight and height recorded and BMI calculated. A new FibroScan will be performed. Additionally, a saliva swab, urine and stool sample will be collected. The 6 patients in the lifestyle intervention group who were included in the previous MMT will undergo a second MMT to investigate the change in meal-response of circulating cardio-metabolic markers, bile acids, gut hormones, insulin sensitivity/secretion post-lifestyle intervention.

The outcome measures above will be measured at two time-points; baseline and after 5-7% weight loss in both groups. The study design allows to control for weight loss (through an equivalent weight loss of 5-7% between the two groups) and to understand the effects bariatric/metabolic surgery versus lifestyle intervention (diet and exercise), by mechanisms independent of weight-loss, on markers of NASH and cardiovascular risk, therefore allowing to identify weight-independent effects of bariatric/metabolic surgery, if they exist. Based on published data it is predicted that it will take 3-6 months for patients to achieve 5-7% weight loss (WL) from the lifestyle intervention used in this study and 4-6 weeks after surgery.

Adipose and liver tissue from intraoperative biopsies and gastric and intestinal tissue from surgical waste will be collected and stored for future ethically approved research.

Recruitment & Eligibility

Status
UNKNOWN
Sex
All
Target Recruitment
28
Inclusion Criteria

• BMI greater than 35 kg/m2 (or >32.5. kg/m2 for patients of South Asian, Caribbean or Black ethnicities) with raised alanine transaminase (ALT), aspartate transaminase (AST) and a FibroScan® score > 7.9 (indicating presence of NAFLD and high likelihood of NASH).

Exclusion Criteria
  • other causes of liver disease such as viral, alcoholic (alcohol consumption >20 g/day for women or >30 g/day for men),
  • auto-immune disease
  • use of certain medications that may interfere with outcome measures (i.e. corticosteroids, insulin and glycoprotein-1 (GLP-1) analogues).

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
lifestyle and dietLifestyle and DietFourteen patients matched to the surgery group for age, gender, BMI, diabetes status, and NALFD score will undergo additional lifestyle interventions, dietary counselling and or meal replacement by a dietician aimed at inducing at least a 5-7% weight reduction, prior to their surgery (while on the waiting list for surgery).
surgery groupMetabolic/Bariatric surgeryFourteen patients who meet study criteria will be assigned to the study group and will undergo surgery; 7 RYGB and 7 SG, as planned for their standard care.
Primary Outcome Measures
NameTimeMethod
Assessment of liver inflammation and fibrosisChange from baseline to 4-6 weeks (for the surgery group) and to 6 months (lifestyle intervention group)

Fine Needle Aspiration of the liver to obtain a measurement of inflammatory cells in liver

Secondary Outcome Measures
NameTimeMethod
Assessment of gut hormones in fasting and postprandial phase in response to a mixed meal test (MMT) in a subset of patients (total no.=18; 6 RYGB, 6 SG, 6 lifestyle intervention)Changes from -10 minutes to 0, 15, 30, 60, 90, 120 and 180 minutes after meal consumption.

Plasma levels gut hormones \[i.e.GLP-1, PYY3-36, ghrelin, glucose, insulin, c-peptide levels\] will be measured.

Assessment of markers of cardiovascular disease in fasting and postprandial phase in response to a mixed meal test (MMT) in a subset of patients (total no.=18; 6 RYGB, 6 SG, 6 lifestyle intervention)Changes from 0 to 30 and 60 minutes after meal consumption.

Serum levels of apoprotein (apolipoproteins; apoprotein C3, apoprotein C2, and apoprotein E). Blood will be obtained at 0, 30 and 60 minutes.

• Bile acids: Blood will be obtained at 0, 30 and 60 minutes. Adipose and liver tissue from intraoperative biopsies; gastric and intestinal tissue from surgical waste will be collected. Furthermore, urine, saliva and stool will be obtained at baseline and at 5-7% WL to be stored for use in future downstream hypothesis.

Assessment of bile acids in fasting and postprandial phase in response to a mixed meal test (MMT) in a subset of patients (total no.=18; 6 RYGB, 6 SG, 6 lifestyle intervention)Changes from 0 to 30 and 60 minutes after meal consumption.

Measurement of bile acids in blood.

Assessment of insulin sensitivity in fasting and postprandial phase in response to a mixed meal test (MMT) in a subset of patients (total no.=18; 6 RYGB, 6 SG, 6 lifestyle intervention)Changes from -10 minutes to 0, 15, 30, 60, 90, 120 and 180 minutes after meal consumption.

Oral glucose insulin sensitivity (OGIS) index will be used to calculate insulin sensitivity.

Trial Locations

Locations (1)

King's College London

🇬🇧

London, United Kingdom

Related Trials

Prevalence of Metabolic Liver Diseases in Patients With Type 1 Diabetes Mellitus

Unknown Status
Consorci Sanitari de l'Alt Penedès i Garraf
Posted 9/23/2021

Metabolic Flexibility, Gut Microbiota, Healthy Diet and Exercise in NAFLD on Genetics Base

CompletedNot Applicable
University of Roma La Sapienza
Posted 11/1/2016
Updated 5/27/2022

Association of Non-alcoholic Fatty Liver Disease and Diabetes Mellitus

CompletedNot Applicable
Johann Wolfgang Goethe University Hospital
Posted 11/28/2013
Updated 2/3/2021

Molecular Investigation of Non Alcoholic Fatty Liver Diseases in Obese Patients

Unknown Status
University Hospital, Strasbourg, France
Posted 2/16/2009
Updated 4/27/2009
© Copyright 2025. All Rights Reserved by MedPath
HomeTerms & ConditionsPrivacy Policy