The role of omics in the pathophysiology, diagnosis and treatment of non-alcoholic fatty liver disease

Perakakis, Nikolaos; Stefanakis, Konstantinos; Mantzoros, Christos S.

doi:10.1016/j.metabol.2020.154320

Cited by 74 publications

(94 citation statements)

References 244 publications

(333 reference statements)

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“…Gathering and layering of all pertinent clinical, genetic (i.e., genotyping of major genetic variants or use of PRS), microbiome-related, and cardio-metabolic data should contribute to better defining disease trajectory, risk of progression, and likelihood of response to different therapeutic options in any given patient with NAFLD. Also, in the future, the use of high-throughput omics (i.e., lipidomics proteomics, metabolomics, and glycomics) investigations will help to generate comprehensive biochemical snapshots allowing one to discriminate between patient subgroups [ 185 , 186 ]. Also, artificial intelligence tools to integrate and analyze big data as well as to develop algorithms combining the information through machine learning strategies [ 187 – 189 ] may be of help to better stratifying patients and defining tailored treatment strategies.…”

Section: Discussionmentioning

confidence: 99%

Perspectives on Precision Medicine Approaches to NAFLD Diagnosis and Management

Lonardo¹,

Arab

Arrese

2021

Adv Ther

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Precision medicine defines the attempt to identify the most effective approaches for specific subsets of patients based on their genetic background, clinical features, and environmental factors. Nonalcoholic fatty liver disease (NAFLD) encompasses the alcohol-like spectrum of liver disorders (steatosis, steatohepatitis with/without fibrosis, and cirrhosis and hepatocellular carcinoma) in the nonalcoholic patient. Recently, disease renaming to MAFLD [metabolic (dysfunction)-associated fatty liver disease] and positive criteria for diagnosis have been proposed. This review article is specifically devoted to envisaging some clues that may be useful to implementing a precision medicine-oriented approach in research and clinical practice. To this end, we focus on how sex and reproductive status, genetics, intestinal microbiota diversity, endocrine and metabolic status, as well as physical activity may interact in determining NAFLD/ MAFLD heterogeneity. All these factors should be considered in the individual patient with the aim of implementing an individualized therapeutic plan. The impact of considering NAFLD heterogeneity on the development of targeted therapies for NAFLD subgroups is also extensively discussed.

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Section: Discussionmentioning

confidence: 99%

Perspectives on Precision Medicine Approaches to NAFLD Diagnosis and Management

Lonardo¹,

Arab

Arrese

2021

Adv Ther

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“…Other published studies have examined the utility of ML to predict or diagnose various forms of NAFLD. 6 , 16–20 Perakakis et al (2020) have compared a wide variety of models using different types of omics on a variety of NAFLD prediction problems. We compare a few such models and their differences (objectives, target cohort, methods, type of variables used, outcomes and applicability) to our study ( Table 4 ).…”

Section: Discussionmentioning

confidence: 99%

“…There remains a need to develop a noninvasive, accurate, easy-to-use tool to identify patients with a high probability of NASH. 6 …”

Section: Introductionmentioning

confidence: 99%

Development of a novel machine learning model to predict presence of nonalcoholic steatohepatitis

Docherty¹,

Régnier

Capkun

et al. 2021

Journal of the American Medical Informatics Association

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Objective To develop a computer model to predict patients with nonalcoholic steatohepatitis (NASH) using machine learning (ML). Materials and Methods This retrospective study utilized two databases: a) the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) nonalcoholic fatty liver disease (NAFLD) adult database (2004-2009), and b) the Optum® de-identified Electronic Health Record dataset (2007-2018), a real-world dataset representative of common electronic health records in the United States. We developed an ML model to predict NASH, using confirmed NASH and non-NASH based on liver histology results in the NIDDK dataset to train the model. Results Models were trained and tested on NIDDK NAFLD data (704 patients) and the best-performing models evaluated on Optum data (~3,000,000 patients). An eXtreme Gradient Boosting model (XGBoost) consisting of 14 features exhibited high performance as measured by area under the curve (0.82), sensitivity (81%), and precision (81%) in predicting NASH. Slightly reduced performance was observed with an abbreviated feature set of 5 variables (0.79, 80%, 80%, respectively). The full model demonstrated good performance (AUC 0.76) to predict NASH in Optum data. Discussion The proposed model, named NASHmap, is the first ML model developed with confirmed NASH and non-NASH cases as determined through liver biopsy and validated on a large, real-world patient dataset. Both the 14 and 5-feature versions exhibit high performance. Conclusion The NASHmap model is a convenient and high performing tool that could be used to identify patients likely to have NASH in clinical settings, allowing better patient management and optimal allocation of clinical resources.

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“…Thanks to an increasing number of high-throughput Omics investigations published in the last few years, the molecular pathobiology of MAFLD, considered as a systemic disorder, has been better clarified. This fact represented an important starting point to properly debate regarding the appropriacy of the holistic view on MAFLD pathophysiology, potentially leading to some important diagnostic and therapeutic advantages as well [ 103 ]. As part of this tangled biologic network, nutrigenomics appears to be crucial in this setting, particularly considering the potential benefit that could derive from the dietary therapeutic application and tailored clinical management.…”

Section: Nutrigenomics In Mafld: the Impact Of Nutrients On Epigenetic Regulationmentioning

confidence: 99%

Nutrigenomics and Nutrigenetics in Metabolic- (Dysfunction) Associated Fatty Liver Disease: Novel Insights and Future Perspectives

et al. 2021

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Metabolic- (dysfunction) associated fatty liver disease (MAFLD) represents the predominant hepatopathy and one of the most important systemic, metabolic-related disorders all over the world associated with severe medical and socio-economic repercussions due to its growing prevalence, clinical course (steatohepatitis and/or hepatocellular-carcinoma), and related extra-hepatic comorbidities. To date, no specific medications for the treatment of this condition exist, and the most valid recommendation for patients remains lifestyle change. MAFLD has been associated with metabolic syndrome; its development and progression are widely influenced by the interplay between genetic, environmental, and nutritional factors. Nutrigenetics and nutrigenomics findings suggest nutrition’s capability, by acting on the individual genetic background and modifying the specific epigenetic expression as well, to influence patients’ clinical outcome. Besides, immunity response is emerging as pivotal in this multifactorial scenario, suggesting the interaction between diet, genetics, and immunity as another tangled network that needs to be explored. The present review describes the genetic background contribution to MAFLD onset and worsening, its possibility to be influenced by nutritional habits, and the interplay between nutrients and immunity as one of the most promising research fields of the future in this context.

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The role of omics in the pathophysiology, diagnosis and treatment of non-alcoholic fatty liver disease

Cited by 74 publications

References 244 publications

Perspectives on Precision Medicine Approaches to NAFLD Diagnosis and Management

Perspectives on Precision Medicine Approaches to NAFLD Diagnosis and Management

Development of a novel machine learning model to predict presence of nonalcoholic steatohepatitis

Nutrigenomics and Nutrigenetics in Metabolic- (Dysfunction) Associated Fatty Liver Disease: Novel Insights and Future Perspectives

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