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| Name | Class |
|---|---|
| Canadian Liver Foundation | UNKNOWN |
| Canadian Institutes of Health Research (CIHR) | OTHER_GOV |
| American College of Gastroenterology | OTHER |
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The first aim of this study is to assess oxidative stress and nutritional status in patients with elevated liver enzymes who were found to have either simple steatosis (SS) or nonalcoholic steatohepatitis (NASH) or normal histological findings on liver biopsy by measuring liver lipid peroxides and tumor necrosis factor (TNF)-α, liver pathology and immunohistochemistry, liver function tests, liver and red blood cell membrane fatty composition, insulin resistance (IR) parameters, plasma lipid peroxides, plasma antioxidant vitamins and antioxidant power, lipid profile, subject demographics, medical history and medication use. The second aim is to detect differences in hepatic gene expression (messenger RNA, mRNA) and epigenetic regulation (micro RNA, miRNA) between patients with SS or NASH and healthy controls, in addition to determine in patients with non-alcoholic fatty liver disease (NAFLD = SS+NASH combined) whether there is an association between hepatic n-3 PUFA content and gene expression. The third aim is to determine the intestinal microbiome (microbial composition and metagenome) in patients with SS or NASH and healthy controls.
NASH is associated with obesity, diabetes and hyperlipidemia. Fat accumulation in the liver is likely due to variable degrees of disordered fatty-acid metabolism and insulin resistance (IR). Liver steatosis, especially polyunsaturated fatty acids (PUFA) in the liver, increases lipid peroxidation and is associated with a reduction in the antioxidant defense system. This oxidative stress can lead to increased production of pro-inflammatory cytokines (TNF-α, transforming growth factor-beta) contributing to the development of steatohepatitis and fibrosis.TNF-α - may further contribute to IR. In addition, changes in fatty acid composition within the liver may influence lipid metabolism and inflammation. In particular, n-3 PUFA have an effect on the insulin sensitivity, transcription of antioxidant genes, inflammatory response and production of reactive oxygen species. Differences might be seen on the gene expression level (mRNA) and also in epigenetic regulation (miRNA).
Microbiota composition might influence energy metabolism, and inflammatory tone and IR through increased endotoxemia and therefore could also play a role in the development of NAFLD.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Healthy controls | Healthy living liver donors with healthy liver on imaging and/or liver histology | ||
| Simple steatosis | Patients with non-alcoholic fatty liver disease confirmed by liver biopsy with a diagnosis of simple steatosis | ||
| Nonalcoholic steatohepatitis | Patients with non-alcoholic fatty liver disease confirmed by liver biopsy with a diagnosis of steatohepatitis | ||
| Minimal findings | Patients undergoing liver biopsy because of suspected fatty liver but nonspecific findings on liver histology. This group was initially used as a control group. Later in the study, this group was replaced by healthy donors as true healthy controls. |
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| Measure | Description | Time Frame |
|---|---|---|
| Hepatic fatty acid composition in total lipids in liver biopsy | Gas chromatography | Baseline |
| Hepatic gene expression | mRNA by microarray | Baseline |
| Intestinal microbiota composition | Illumina 16S technology | Baseline |
| Measure | Description | Time Frame |
|---|---|---|
| Lipid peroxides in the liver | Test kit | Baseline |
| Hepatic liver antioxidant power | Test kit | Baseline |
| Measure | Description | Time Frame |
|---|---|---|
| Hepatic phospholipid composition | Gas chromatography | Baseline |
| Red blood cell fatty acid and phospholipid composition | Gas chromatography | Baseline |
Inclusion criteria:
Exclusion criteria:
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Healthy living liver donors from the Multiorgan transplant program at the University Health Network Patients with nonalcoholic fatty liver disease (SS or NASH on liver biopsy) or patients with elevated liver enzymes but no significant findings on liver biopsy.
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| Name | Affiliation | Role |
|---|---|---|
| Johane Allard, MD,FRCPC | University Health Network, Toronto | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Toronto General Hospital | Toronto | Ontario | M5G 1Z5 | Canada |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 24587650 | Background | Schwenger KJ, Allard JP. Clinical approaches to non-alcoholic fatty liver disease. World J Gastroenterol. 2014 Feb 21;20(7):1712-23. doi: 10.3748/wjg.v20.i7.1712. | |
| 24496399 | Background | Monteiro J, Leslie M, Moghadasian MH, Arendt BM, Allard JP, Ma DW. The role of n - 6 and n - 3 polyunsaturated fatty acids in the manifestation of the metabolic syndrome in cardiovascular disease and non-alcoholic fatty liver disease. Food Funct. 2014 Mar;5(3):426-35. doi: 10.1039/c3fo60551e. |
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| ID | Term |
|---|---|
| D065626 | Non-alcoholic Fatty Liver Disease |
| D005234 | Fatty Liver |
| ID | Term |
|---|---|
| D008107 | Liver Diseases |
| D004066 | Digestive System Diseases |
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DNA - samples retained, with potential for extraction of DNA from at least one of the types of samples retained (e.g., frozen tissue, whole blood
| Hepatic microRNA expression in the liver | NanoString | Baseline |
| Intestinal microbiota - specific organisms and groups | Quantitative real-time polymerase chain reaction | Baseline |
| Intestinal microbiome on a genetic level | Illumina sequencing technology | Baseline |
| Short-chain fatty acids in stool | Gas chromatography | Baseline |
| Plasma endotoxin | Limulus assay | Baseline |
| Plasma fatty acid composition | Gas chromatography | Baseline |
| Plasma lipid peroxides | Test kit | Baseline |
| Plasma antioxidant vitamins | Vitamin C colorimetric, alpha- and gamma-tocopherol and beta-carotene by high-performance liquid chromatography | Baseline |
| Serum antioxidant power | Test kit | Baseline |
| TNF-alpha in the liver | Enzyme linked immunosorbent assay | Baseline |
| Immunohistochemistry | Staining for malondialdehyde, alpha-smooth muscle actin, transforming growth factor beta | Baseline |
| Free choline in serum | liquid chromatography/electrospray ionization-isotope dilution mass spectrometry (LC/ESI-IDMS) | Baseline |
| Bacterial DNA in plasma | Quantitative polymerase chain reaction for bacterial 16S rDNA | Baseline |
| Insulin resistance | Fasting glucose and insulin to calculate insulin resistance (HOMA-IR), C-peptide, hemoglobin A1c, all by standard laboratory methods | Baseline |
| Plasma ethanol | standard laboratory measurement | Baseline |
| Anthropometry | Weight, height, skinfolds, bioelectrical impedance analysis | Baseline |
| Food intake | 7-day food records | Baseline |
| Physical activity | 7 day activity logs | Baseline |
| Factors influencing intestinal microbiota | Environmental questionnaire | Baseline |
| Liver function tests | Alanine transaminase, aspartate transaminase, alkaline phosphatase, standard laboratory tests | Baseline |
| 22469640 | Background | Mouzaki M, Allard JP. The role of nutrients in the development, progression, and treatment of nonalcoholic fatty liver disease. J Clin Gastroenterol. 2012 Jul;46(6):457-67. doi: 10.1097/MCG.0b013e31824cf51e. |
| 24713803 | Background | Mouzaki M, Allard J. Non-alcoholic steatohepatitis: the therapeutic challenge of a global epidemic. Ann Gastroenterol. 2012;25(3):207-217. |
| 24631112 | Result | Da Silva HE, Arendt BM, Noureldin SA, Therapondos G, Guindi M, Allard JP. A cross-sectional study assessing dietary intake and physical activity in Canadian patients with nonalcoholic fatty liver disease vs healthy controls. J Acad Nutr Diet. 2014 Aug;114(8):1181-94. doi: 10.1016/j.jand.2014.01.009. Epub 2014 Mar 14. |
| 23537027 | Result | Arendt BM, Ma DW, Simons B, Noureldin SA, Therapondos G, Guindi M, Sherman M, Allard JP. Nonalcoholic fatty liver disease is associated with lower hepatic and erythrocyte ratios of phosphatidylcholine to phosphatidylethanolamine. Appl Physiol Nutr Metab. 2013 Mar;38(3):334-40. doi: 10.1139/apnm-2012-0261. Epub 2012 Oct 15. |
| 23401313 | Result | Mouzaki M, Comelli EM, Arendt BM, Bonengel J, Fung SK, Fischer SE, McGilvray ID, Allard JP. Intestinal microbiota in patients with nonalcoholic fatty liver disease. Hepatology. 2013 Jul;58(1):120-7. doi: 10.1002/hep.26319. Epub 2013 May 14. |
| 18086506 | Result | Allard JP, Aghdassi E, Mohammed S, Raman M, Avand G, Arendt BM, Jalali P, Kandasamy T, Prayitno N, Sherman M, Guindi M, Ma DW, Heathcote JE. Nutritional assessment and hepatic fatty acid composition in non-alcoholic fatty liver disease (NAFLD): a cross-sectional study. J Hepatol. 2008 Feb;48(2):300-7. doi: 10.1016/j.jhep.2007.09.009. Epub 2007 Nov 20. |
| 25581263 | Result | Arendt BM, Comelli EM, Ma DW, Lou W, Teterina A, Kim T, Fung SK, Wong DK, McGilvray I, Fischer SE, Allard JP. Altered hepatic gene expression in nonalcoholic fatty liver disease is associated with lower hepatic n-3 and n-6 polyunsaturated fatty acids. Hepatology. 2015 May;61(5):1565-78. doi: 10.1002/hep.27695. Epub 2015 Feb 27. |
| 39624175 | Derived | Pasini E, Baciu C, Angeli M, Arendt B, Pellegrina D, Reimand J, Patel K, Tomlinson G, Mazhab-Jafari MT, Kotra LP, Fischer S, Allard JP, Humar A, Bhat M. Acyl-CoA Thioesterase 1 Contributes to Transition of Steatosis to Metabolic-Associated Steatohepatitis. Int J Hepatol. 2024 Jul 11;2024:5560676. doi: 10.1155/2024/5560676. eCollection 2024. |
| 38353022 | Derived | Schwenger KJP, Sharma D, Ghorbani Y, Xu W, Lou W, Comelli EM, Fischer SE, Jackson TD, Okrainec A, Allard JP. Links between gut microbiome, metabolome, clinical variables and non-alcoholic fatty liver disease severity in bariatric patients. Liver Int. 2024 May;44(5):1176-1188. doi: 10.1111/liv.15864. Epub 2024 Feb 14. |
| 35166723 | Derived | Pettinelli P, Arendt BM, Schwenger KJP, Sivaraj S, Bhat M, Comelli EM, Lou W, Allard JP. Relationship Between Hepatic Gene Expression, Intestinal Microbiota, and Inferred Functional Metagenomic Analysis in NAFLD. Clin Transl Gastroenterol. 2022 Jul 1;13(7):e00466. doi: 10.14309/ctg.0000000000000466. Epub 2022 Feb 10. |