VCTE vs histology in MASLD, study findings
The study included 3,532 adults with MASLD.
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01/06/2026
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by Doug Brunk
Vibration-controlled transient elastography (VCTE)-based liver stiffness measurement (LSM) provides prognostic accuracy comparable to liver biopsy for predicting clinically meaningful liver outcomes in metabolic dysfunction-associated steatotic liver disease (MASLD), according to results from a head-to-head comparison.
Reporting in Hepatology, corresponding author Laurent Castéra, MD, PhD, of the Department of Hepatology at Hopital Beaujon, Clichy, France, and colleagues noted that LSM obtained by VCTE has been shown to be strongly associated with liver-related events (LREs), although prior direct comparisons with liver histology have been constrained by limited sample sizes.
In a multi-center study, the researchers directly compared the ability of VCTE-derived LSM and liver biopsy to predict liver-related events (LREs) in patients with MASLD. They analyzed 3,532 adults with MASLD enrolled in the VCTE-Prognosis cohort, all of whom underwent both VCTE and liver biopsy at baseline. The primary outcome was incident LREs, defined as hepatic decompensation, liver transplantation, or liver-related death. Secondary outcomes included hepatic decompensation and hepatocellular carcinoma (HCC) assessed separately.
The mean age of the patients was 51.9 years and 57.3% were men. Median baseline LSM was 8.8 kPa, and one-third of patients had advanced fibrosis (F3–F4) on histology.
During a median follow-up of 56.6 months, 126 patients (3.6%) developed LREs, the vast majority driven by hepatic decompensation. LSM and histology demonstrated nearly identical prognostic performance for LRE prediction. Five-year area under the receiver operating characteristic curve (AUROC) values were 0.870 for LSM and 0.869 for histology, with comparable integrated AUROCs (0.878 vs 0.852), integrated precision–recall curves, and integrated Brier scores. No significant differences were observed using discrimination improvement metrics. Results were consistent across secondary outcomes, multiple time points, and sensitivity analyses.
According to the authors, LSM may be a practical alternative to histology as a surrogate prognostic endpoint in clinical trials and longitudinal risk stratification.
Summary content
7 Key Takeaways
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Can detect 12 chemical agents, including industrial toxins.
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The guidelines emphasize four-hour gastric emptying studies over two-hour testing. How do you see this affecting diagnostic workflows in practice?
Dr. Staller: Moving to a four-hour solid-meal scintigraphy will actually simplify decision-making. The two-hour reads miss a meaningful proportion of delayed emptying; standardizing on four hours reduces false negatives and the “maybe gastroparesis” purgatory that leads to repeat testing. Practically, it means closer coordination with nuclear medicine (longer slots, consistent standardized meal), updating order sets to default to a four-hour protocol, and educating front-line teams so patients arrive appropriately prepped. The payoff is fewer equivocal studies and more confident treatment plans.
Metoclopramide and erythromycin are the only agents conditionally recommended for initial therapy. How does this align with what is being currently prescribed?
Dr. Staller: This largely mirrors real-world practice. Metoclopramide remains the only FDA-approved prokinetic for gastroparesis, and short “pulsed” erythromycin courses are familiar to many of us—recognizing tachyphylaxis limits durability. Our recommendation is “conditional” because the underlying evidence is modest and patient responses are heterogeneous, but it formalizes what many clinicians already do: start with metoclopramide (lowest effective dose, limited duration, counsel on neurologic adverse effects) and reserve erythromycin for targeted use (exacerbations, bridging).
Several agents, including domperidone and prucalopride, received recommendations against first-line use. How will that influence discussions with patients who ask about these therapies?
Dr. Staller: Two points I share with patients: evidence and access/safety. For domperidone, the data quality is mixed, and US access is through an FDA IND mechanism; you’re committing patients to EKG monitoring and a non-trivial administrative lift. For prucalopride, the gastroparesis-specific evidence isn’t strong enough yet to justify first-line use. So, our stance is not “never,” it’s just “not first.” If someone fails or cannot tolerate initial therapy, we can revisit these options through shared decision-making, setting expectations about benefit, monitoring, and off-label use. The guideline language helps clinicians have a transparent, evidence-based conversation at the first visit.
The guidelines suggest reserving procedures like G-POEM and gastric electrical stimulation for refractory cases. In your practice, how do you decide when a patient is “refractory” to medical therapy?
Dr. Staller: I define “refractory” with three anchors.
1. Adequate trials of foundational care: dietary optimization and glycemic control; an antiemetic; and at least one prokinetic at appropriate dose/duration (with intolerance documented if stopped early).
2. Persistent, function-limiting symptoms: ongoing nausea/vomiting, weight loss, dehydration, ER visits/hospitalizations, or malnutrition despite the above—ideally tracked with a validated instrument (e.g., GCSI) plus nutritional metrics.
3. Objective correlation: delayed emptying on a standardized 4-hour solid-meal study that aligns with the clinical picture (and medications that slow emptying addressed).
At that point, referral to a center with procedural expertise for G-POEM or consideration of gastric electrical stimulation becomes appropriate, with multidisciplinary evaluation (GI, nutrition, psychology, and, when needed, surgery).
What role do you see dietary modification and glycemic control playing alongside pharmacologic therapy in light of these recommendations?
Dr. Staller: They’re the bedrock. A small-particle, lower-fat, calorie-dense diet—often leaning on nutrient-rich liquids—can meaningfully reduce symptom burden. Partnering with dietitians early pays dividends. For diabetes, tighter glycemic control can improve gastric emptying and symptoms; I explicitly review medications that can slow emptying (e.g., opioids; consider timing/necessity of GLP-1 receptor agonists) and encourage continuous glucose monitor-informed adjustments. Pharmacotherapy sits on top of those pillars; without them, medications will likely underperform.
The guideline notes “considerable unmet need” in gastroparesis treatment. Where do you think future therapies or research are most urgently needed?
Dr. Staller: I see three major areas.
1. Truly durable prokinetics: agents that improve emptying and symptoms over months, with better safety than legacy options (e.g., next-gen motilin/ghrelin agonists, better-studied 5-HT4 strategies).
2. Endotyping and biomarkers: we need to stop treating all gastroparesis as one disease. Clinical, physiologic, and microbiome/omic signatures that predict who benefits from which therapy (drug vs G-POEM vs GES) would transform care.
3. Patient-centered trials: larger, longer RCTs that prioritize validated symptom and quality-of-life outcomes, include nutritional endpoints, and reflect real-world medication confounders.
Our guideline intentionally highlights these gaps to hopefully catalyze better trials and smarter referral pathways.
Dr. Staller is with the Division of Gastroenterology, Massachusetts General Hospital and Harvard Medical School, Boston.