Browsing by Author "Ajmera, Veeral"
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- ItemClinical trial design, biomarkers and end points in metabolic and alcohol-related liver disease(2025) Díaz Piga, Luis Antonio; Thiele, Maja; Louvet, Alexandre; Lee, Brian P.; Ajmera, Veeral; Tavaglione, Federica; Hsu, Cynthia L.; Huang, Daniel Q.; Pose, Elisa; Bataller, Ramon; McClain, Craig; Mellinger, Jessica; Tincopa, Monica; Mitchell, Mack C.; Ratziu, Vlad; Rinella, Mary E.; Sarin, Shiv K.; Shah, Vijay H.; Szabo, Gyongyi; Wong, Vincent Wai-Sun; Bansal, Meena B.; Leggio, Lorenzo; Kamath, Patrick S.; Krag, Aleksander; Sanyal, Arun J.; Arrese, Marco; Arab Verdugo, Juan Pablo; Anstee, Quentin M.; Mathurin, Philippe; Loomba, RohitMetabolic and alcohol-related liver disease (MetALD) is a newly defined entity within the spectrum of steatotic liver disease, characterized by the interplay of cardiometabolic risk factors and alcohol consumption. The evolving epidemiology and complex pathophysiology of MetALD present unique challenges and opportunities for clinical trial design. Inclusion criteria should require simultaneous evidence of metabolic dysfunction (at least two cardiometabolic features) and verified quantifiable alcohol exposure recorded over the preceding 3–6 months. Traditional histological end points are limited by invasiveness, sampling error and interpretative variability. Thus, imaging modalities, serum-based fibrosis biomarkers and quantitative measures of alcohol intake are gaining relevance as non-invasive, reproducible and patient-centric end points aiming to improve trial feasibility. Furthermore, incorporating alcohol biomarkers, stratifying patients by metabolic risk factor burden, and using adaptive designs of trials might enhance the precision and generalizability of MetALD clinical trials. Although uncertainties remain regarding optimal patient selection criteria, event rates and the dynamic interplay between metabolic dysfunction and alcohol intake, ongoing research efforts aim to refine diagnostic criteria, standardize methodologies and validate novel end points. These advances will ultimately accelerate drug development, improve trial efficiency and foster interventions to treat MetALD.
- ItemHigh inherited risk predicts age-associated increases in fibrosis in patients with MASLD(2025) Díaz, Luis Antonio; Alazawi, William; Agrawal, Saaket; Arab, Juan Pablo; Arrese, Marco; Idalsoaga, Francisco; Barreyro, Fernando Javier; Gadano, Adrián; Marciano, Sebastián; Martínez Morales, Jorge; Villela Nogueira, Cristiane; Leite, Nathalie; Alves Couto, Claudia; Theodoro, Rafael; Dias Monteiro, Mísia Joyner de Sousa; Oliveira, Claudia P.; Pessoa, Mario G.; Reis Alvares-da-Silva, Mario; Madamba, Egbert; Bettencourt, Ricki; Richards, Lisa M.; Majithia, Amit R.; Khera, Amit V.; Loomba, Rohit; Ajmera, VeeralBackground & AimsLimited data have prevented routine genetic testing from being integrated into clinical practice in metabolic dysfunction-associated steatotic liver disease (MASLD). We aimed to quantify the effect of genetic variants on changes in fibrosis severity per decade in MASLD.MethodsThis cross-sectional study included prospectively recruited adults with MASLD aged 18–70 who underwent magnetic resonance elastography (MRE) and genotyping for PNPLA3, TM6SF2, MBOAT7, GCKR, and HSD17B13. A genetic risk score (GRS) was calculated as the sum of established risk alleles in PNPLA3 minus protective variants in HSD17B13 (0=low risk, 1=high risk). We also estimated the polygenic risk score-hepatic fat content (PRS-HFC) and the adjusted version (PRS-5). The primary endpoint was the age-related change in liver stiffness measurement (LSM) on MRE by GRS. Findings were validated using an external cohort from Latin America.ResultsAmong 570 participants, the median age was 57 [49–64] years, 56.8% were women, and 34.2% were Hispanic. Median MRE was 2.4 [2.1–3.0] kPa, and 51% had high GRS. High GRS was independently associated with increased LSM (β=0.28 kPa, 95%CI:0.12–0.44, p=0.001) per 10-year age increase, while the low GRS group showed no significant difference. Similar findings were observed using PRS-HFC and PRS-5. PNPLA3 genotype alone also predicted higher LSM (C/G: β=0.32 kPa, 95%CI:0.02–0.61, p=0.034; G/G: β=0.87 kPa, 95%CI:0.52–1.22, p<0.0001) and G/G genotype was associated with significantly higher LSM by age 44, which was consistent in the validation population.ConclusionGRS, PRS-HFC, PRS-5, and PNPLA3 genotypes alone are associated with greater fibrosis per decade, resulting in divergent disease trajectories starting in midlife. Assessing genetic risk in MASLD will identify high-risk patients who require more frequent monitoring."
- ItemInherited Genetic Risk of Liver Fibrosis in Lean Versus Nonlean Metabolic Dysfunction–Associated Steatotic Liver Disease (MASLD)(John Wiley & Sons Ltd., 2025) Tesfai, Kaleb; Díaz Piga, Luis Antonio; Arab, Juan Pablo; Arrese, Marco; Idalsoaga, Francisco; Ayares, Gustavo; Agrawal, Saaket; Barreyro, Fernando Javier; Gadano, Adrian; Marciano, Sebastián; Martínez Morales, Jorge; Villela‐Nogueira, Cristiane; Leite, Nathalie; Salles, Gil; Regina Cardoso, Claudia; Alves Couto, Claudia; Theodoro, Rafael; Monteiro. Mísia Joyner de Sousa Dias; Oliveira, Claudia P.; Pessoa, Mario G.; Alvares‐da‐Silva, Mario Reis; Huang, Daniel Q.; Madamba, Egbert; Singh, Seema; Lokanadham, Snigdha; Bettencourt, Ricki; Richards, Lisa M.; Khera, Amit V.; Loomba, Rohit; Ajmera, VeeralIntroduction Previous studies have revealed conflicting results regarding liver fibrosis risk in lean metabolic dysfunction–associated steatotic liver disease (MASLD). We aimed to compare the risk of significant fibrosis in lean versus nonlean MASLD and identify fibrosis-associated factors in lean MASLD. Methods The study was a cross-sectional analysis of prospectively enrolled adults with MASLD. Individuals with lean MASLD were age- and sex-matched with nonlean MASLD. Fibrosis assessment included vibration-controlled transient elastography, magnetic resonance elastography and liver biopsy. A genetic risk score (GRS), summating the effect alleles of PNPLA3 and TM6SF2 minus the protective HSD17B13 genotype, was estimated to consider inherited genetic risk across BMI categories. Results were validated in an external Latin American cohort.ResultsThe mean ( SD) age of 312 included participants with MASLD was 58.3 11.6 years and 69.2% were female. 44 (14.1%) individuals were lean, 90 (28.9%) were overweight, 90 (28.9%) had class I obesity and 88 (28.1%) had class II or greater obesity. The prevalence of significant fibrosis was 27.3% in lean and 31.1% in nonlean (p = 0.653). Individuals with a high GRS had a higher prevalence of significant fibrosis compared to patients with low GRS (36.5% vs. 25.2%, p = 0.043) and the prevalence of significant fibrosis was similar in lean and nonlean patients with high GRS (31.3% vs. 37.1%, p = 0.645). The Latin American cohort exhibited similar results. Conclusions The prevalence of significant fibrosis and the effect of GRS were similar in lean and nonlean MASLD, highlighting that lean MASLD patients may have a comparable risk to overweight and obese MASLD.
- ItemNoninvasive pathway for stratifying fibrosis in suspected metabolic dysfunction and alcohol-associated liver disease (MetALD)(2025) Diaz Piga, Luis Antonio; Tavaglione, Federica; Mittal, Nikita; Bettencourt, Ricki; Amangurbanova, Maral; Johnson, Amy; Marti-Aguado, David; Tincopa, Monica; Loomba, Ria; Khan-Riches, Asma; Madamba, Egbert; Siddiqi, Harris; Richards, Lisa; Sirlin, Claude B.; Ajmera, Veeral; Loomba, RohitBackground: Metabolic dysfunction and alcohol-associated liver disease (MetALD) may increase liver fibrosis progression, but data on screening are scarce. We aimed to assess the performance of noninvasive tests (NITs) for detecting significant fibrosis in individuals with suspected MetALD.Methods: This is a cross-sectional study of prospectively enrolled adults identified as overweight or obese. We included adults with suspected MetALD defined by ≥1 of 5 cardiometabolic criteria and self-reported alcohol use within MetALD ranges or lower self-reported alcohol use but with phosphatidylethanol (PEth) levels ≥25 ng/mL. Clinical assessment included contemporaneous magnetic resonance elastography (MRE) and vibration-controlled transient elastography (VCTE). Significant fibrosis was defined as MRE ≥3.14 kPa (or VCTE ≥7.6 kPa if MRE was missing). Analyses included AUROCs.Results: Among 617 individuals screened, we identified 97 (15.7%) with suspected MetALD. The mean age was 50.6±12.8 years, 67% were men, the mean body mass index was 31.4±6.5 kg/m2, 12.4% had diabetes, and 8% had significant fibrosis. Fibrosis-4 ≥1.3 demonstrated good performance for significant fibrosis (AUROC: 0.78, 95% CI: 0.58–0.98, sensitivity 80%, specificity 76%, positive predictive value 17%, and negative predictive value 98%). VCTE ≥8 kPa also had good performance (AUROC: 0.85, 95% CI: 0.66–1.00, sensitivity 80%, specificity 91%, positive predictive value 36%, and negative predictive value 99%). A stepwise approach using fibrosis-4 followed by VCTE yielded a low false negative rate (2% misclassified as low risk).Conclusions: A clinical care algorithm utilizing a stepwise approach with fibrosis-4 and VCTE shows adequate performance in detecting significant fibrosis in individuals with suspected MetALD.
- ItemReply to: Bringing genetic testing into the clinical management of people with MASLD: are we there yet?(2025) Antonio Díaz, Luis; Loomba, Rohit; Ajmera, Veeral