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Fructose and Liver Diseases in Youth: Help Them FLY

U

University of Alberta

Status

Enrolling

Conditions

Non-alcoholic Fatty Liver Disease

Treatments

Other: Dietary intervention

Study type

Interventional

Funder types

Other

Identifiers

NCT05528471
Pro00049795

Details and patient eligibility

About

Obesity has been increasing all over the world. This has lead to a significant increase of a liver disease in children called non-alcoholic fatty liver disease (NAFLD). NAFLD is a liver disease that ranges from excess fat being stored in the liver to an inflamed and fatty liver with fibrosis to cirrhosis. NAFLD is thought to be caused by changes in energy, fat and carbohydrate metabolism induced by diets high in in processed foods. Sugary (especially high fructose corn syrup or HFCS) and fatty foods in processed foods have been shown to produce more insulin resistance, a factor that is thought to cause a fatty liver. Currently the main treatment for NAFLD is weight loss. However, it unknown the best way to achieve this. The investigator has shown previously that adolescents with NAFLD eat a lot of fatty and sugary foods, and that when they decrease the amount of foods they eat that contain HFCS, experience some improvements in insulin resistance and liver dysfunction even when they don't lose weight. The plan is to compare and contrast how two different diets (high vs low HFCS containing diets) may affect how much fat gets deposited in the liver and whether or not a lower diet in HFCS can help decrease liver damage in adolescents with NAFLD.

Full description

Study Rationale: Non-alcoholic fatty liver disease (NAFLD) is a chronic liver disease estimated to occur in 10-20% of obese children and adults. High fructose and saturated fat intakes are thought to be major dietary factors contributing to over nutrition, insulin resistance, cardio-metabolic risk (e.g dysplipidemia, hypertension) and disease pathogenesis in adults and children with NAFLD . Although weight loss is the goal of treatment, there are currently no evidence based clinical guidelines regarding the specific dietary treatment needed for NAFLD. The investigator has shown previously that children and adolescents with NAFLD have diets rich in both total fructose (>10% of total energy intake) and high fructose corn syrup (20-50% of total fructose intake. These levels of intake were associated with increasing indices of liver dysfunction, insulin resistance and inflammation. In a recent pilot study, the investigator has showed that children with NAFLD experienced significant reductions in systolic blood pressure, percentage body fat, plasma markers of liver dysfunction (ALT, AST), cardio-metabolic risk (HOMA-IR, AI-IR, TG, Apo-B100) and alterations in body fat distribution in response to six months of an iso-caloric/low fructose diet (~5% of total kcal). High levels of fructose in the diet have been independently associated with insulin resistance, visceral adiposity, hepatic and skeletal muscle intramyocellular fat (IMF) deposition, altered hepatic mitochondrial function and energy utilization (ATP depletion), increased rates of de novo lipogenesis, inflammation, and hepatic fibrosis in both animal models and adults with NAFLD. While adult studies in NAFLD have related the impact of high intakes of HFCS to altered liver energetics (ATP production) and increasing insulin resistance and IMF , this has not be studied in obese children and adolescents with NAFLD. In addition, no information is available regarding the impact of dietary fructose reductions on these processes in either obese children, adolescents or adults with NAFLD. The plan is to use validated, non-invasive and safe methodologies such as Magnetic Resonance Imaging (MRI) and Magnetic Resonance Stimulation (MRS) to compare and contrast the effects of varying fructose intakes (low vs high) in iso-caloric diets on liver mitochondrial energetic (ATP production), hepatic and skeletal muscle fat content and markers of cardio-metabolic risk, liver dysfunction, insulin resistance, inflammation and oxidative stress in adolescents with NAFLD.

Hypotheses

  1. Obese adolescents with NAFLD treated with a low fructose /low HFCS diet over 12 weeks, in the absence of weight loss, will result in significant improvements in indices of hepatic ATP production and reduced liver/ skeletal muscle fat deposition when compared to the effects of a higher fructose/higher HFCS diet.
  2. Obese adolescents with NAFLD treated with a low fructose /low HFCS diet over 12 weeks, in the absence of weight loss, will result in significant improvements in indices of visceral and subcutaneous adiposity, insulin resistance and markers of liver and cardio-metabolic dysfunction, inflammation and oxidative stress when compared to the effects of a higher fructose/higher HFCS diet.

Enrollment

70 estimated patients

Sex

All

Ages

12 to 18 years old

Volunteers

No Healthy Volunteers

Inclusion criteria

  • obese boys and girls aged 12-18 years (Tanner Stage: III-V) with clinically diagnosed NAFLD

Exclusion criteria

  1. all patients with a history of a known primary liver disease associated with steatohepatitis (Wilson disease, various metabolic disorders, viral hepatitis) (7);
  2. All patients with a known primary diagnosis of Type 2 Diabetes or those on insulin;
  3. Patients on medications known to cause hepatic steatosis (e.g., methotrexate, corticosteroids, valproic acid, statins);
  4. Patients with evidence of bridging fibrosis (8); and
  5. Patients with a known significant history of smoking or alcohol consumption (6, 9) and
  6. Any patient undergoing an active weight loss program and/or who has received bariatric surgery for the treatment of obesity
  7. Any participant with a cardiac pacemaker or with metal pins as this is a contraindication for MRS/MRI testing
  8. Any participant of child bearing potential who is known to be pregnant (as this is a contraindication to MRS/MRI) testing. All females of child bearing potential will be asked to undergo a routine pregnancy test (urine) prior to MRS/MRI testing. This will be conducted in the baseline study visit
  9. Any child with significant developmental delay or a significant co-morbidity that precluded the ability to participate in study procedures

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

Single Blind

70 participants in 2 patient groups

Intervention group
Experimental group
Description:
Iso-caloric and low fructose /low HFCS diet (\~5% of total energy intake (TEI); HFCS max: 10-15% of total fructose intake) (n=35)
Treatment:
Other: Dietary intervention
Control group
No Intervention group
Description:
Iso-caloric with higher fructose diet (\~10% of TEI; HFCS max 20-30% of total fructose intake) (n=35)

Trial contacts and locations

1

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Central trial contact

Diana R Mager, PhD RD

Data sourced from clinicaltrials.gov

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