EASL Clinical Practice Guidelines: Drug-Induced Liver Injury (2019)
Bibliographic info
- Authors: European Association for the Study of the Liver (EASL) — Practice Guidelines Committee
- Journal: Journal of Hepatology, 2019 (EASL CPG)
- DOI: Listed in document header (DILI EASL.pdf)
Key question (guideline scope)
What are the evidence-based clinical practice guidelines for risk assessment, diagnosis, management, and monitoring of drug-induced liver injury (DILI) — particularly idiosyncratic DILI?
Content overview
DILI definition and epidemiology
- Idiosyncratic DILI: unpredictable, dose-independent; most challenging type
- Incidence: ~13.9 cases per 100,000 inhabitants (French population study — first rigorous prospective data)
- HDS (herbal and dietary supplements): 16–20% of DILI cases (US DILIN; Spanish registry); increasing over time
- Prognosis: Hy’s Law: jaundice + drug-induced hepatocellular injury → ~10% mortality/transplantation rate
Causality assessment
- RUCAM scale (Roussel Uclaf Causality Assessment Method): primary diagnostic tool in clinical practice; evaluates time to onset, dechallenge/rechallenge response, risk factors, concomitant drugs, exclusion of other causes
- Clinical Expert Opinion (CEO): consensus-based adjudication; complements RUCAM
- Diagnosis: exclusion process — no specific DILI biomarker exists → requires ruling out alternative causes (viral hepatitis, autoimmune, metabolic, ischemic)
Phenotypic patterns of DILI
- Hepatocellular: ALT elevation dominant; R ratio = ALT/ALP (normalized to ULN) ≥5
- Cholestatic: ALP dominant; R ratio ≤2
- Mixed: R ratio 2–5
- Clinical presentations: acute hepatitis, cholestasis, steatosis, fibrosis, vascular lesions, autoimmune hepatitis-like
Key risk factors reviewed
- Drug-specific: dose, lipophilicity, mitochondrial toxicity, reactive metabolite formation
- Patient-specific: age, sex, alcohol, genetics (HLA associations), comorbidities
Current biomarker landscape
- ⚠️ No specific, validated DILI biomarkers in clinical use
- ALT/AST: most used but non-specific; delayed response (cell necrosis required to release)
- Emerging: GLDH (glutamate dehydrogenase — mitochondrial marker, more specific for hepatocytes), osteopontin, cytokeratin-18, microRNAs (experimental)
- Gap: biomarkers for early, pre-necrotic detection — exactly the gap HSA isoforms could fill
Management
- Stop causative agent (de-challenge)
- SBP and hepatorenal syndrome management (as per standard CLD guidelines)
- N-acetylcysteine (NAC) for acetaminophen (paracetamol) DILI: established; possibly useful in non-APAP fulminant hepatic failure
- Corticosteroids: no evidence for routine use in idiosyncratic DILI
- Liver transplantation: for acute liver failure from DILI (without recovery prognosis)
- Jaundice + coagulopathy → emergency referral
DILI surveillance and pharmacovigilance
- Liver safety monitoring in clinical trials: defined stopping rules based on ALT/AST/bilirubin elevations
- Hepatotoxicity registers: DILIN (USA), Spanish registry, EURODILI (Europe)
Clinical context
- Disease: DILI — drug-induced liver injury
- Relevance to our research: The absence of specific DILI biomarkers is the key clinical gap that HSA isoform profiling (early detection by el-balkhi-2024-seb) addresses. These guidelines define what a new biomarker must outperform (ALT/AST) and the performance thresholds needed.
Connections
- DILI — primary disease page; this document is the reference standard
- Liver fibrosis — progression context; severe DILI can cause fibrosis/cirrhosis
- HSA — potential early DILI biomarker; Cys34 modifications preceding enzyme elevation
- el-balkhi-2024-seb — our SEB test paper; demonstrates HSA detects liver injury at D3 vs ALT/AST at D7 — directly addresses the gap identified in these guidelines
- PTM-CQFD project — plans to include DILI/drug safety monitoring as a future application
Take home notes
- These guidelines confirm the key unmet need that motivates the SEB test and ALBOM: no specific DILI biomarker exists. ALT/AST are sensitive but non-specific and lag behind the actual injury.
- Hy’s Law (jaundice + hepatocellular injury → ~10% mortality) underscores why early detection matters — by the time jaundice appears, severe injury has occurred.
- The phenotypic diversity of DILI (hepatocellular/cholestatic/mixed) makes a single biomarker unlikely to cover all patterns. HSA PTMs (which reflect hepatocyte synthetic function and systemic oxidative stress) may work best for hepatocellular DILI.
- Note: HDS-associated hepatotoxicity (herbal medicines, supplements) is increasing and hardest to diagnose. HSA isoforms would be non-specific to causative agent but could still detect early hepatic dysfunction.
- RUCAM is the gold standard for causality — any new biomarker would likely complement RUCAM, not replace it.