The French guidelines for alcohol-related liver disease—what’s new, what’s not and what’s still needed
Introduction
Louvet et al. recently published the French Association for the Study of the Liver (AFEF) and the French Alcohol Society clinical guidelines (1). The AFEF guidelines are the first specific to the screening and care of alcohol-related liver disease (ALD) in France. We compared these to the guidelines of American Association for the Study of Liver Diseases [AASLD, 2020; (2)] and European Association for the Study of Liver [EASL, 2018 (3)]; some noticeable differences and similarities emerge (Table 1).
Table 1
Recommendations | AFEF (1) | AASLD (2) | EASL (3) |
---|---|---|---|
Detecting excessive alcohol consumption | |||
AUD screening | |||
General population (AUDIT-C) | Yesa | Yes | Yes |
Cognitive impairment? | Yes | –b | Yes |
Other addictions (e.g., smoking) | Yes | – | Yes |
Brief intervention recommended? | |||
Psychosocial/behavioral? | Yes | Yes | Yes |
Pharmacological intervention? | Yes | Yes | Yes |
Biomarkers of alcohol consumption? | |||
General population | Noc | Yes | – |
Specialist referral | Possibled | Yes | Possible |
Before/after liver transplant? | – | Yes | Yes |
Consumption profile | |||
Screen for binge drinking | Yes | – | – |
Educate on risks of binge drinking? | Yes | – | – |
Research on binge drinking? | Yes | – | – |
Harm reduction | |||
Definition of standard drink (grams) | 10 | 14 | 10 |
Definition of binge drinking | |||
Within 2 h (drinks) | – | >4/5 (f/m) | >4/5 (f/m) |
Within 24 h (grams) | >60 g | – | >60 g |
Definition of daily safe drinking (ALD) | |||
Daily (drinks) | <2 | <1/2 (f/m) | <1 |
Weekly (drinks) | <10 | – | – |
Weekly alcohol-free day? | Yes | – | – |
No drinking in ALD/cirrhosis? | Yes | Yes | Yes |
Medical management of AUD: the influence of advanced liver disease | |||
Treatment of alcohol withdrawal | |||
Use of benzodiazepines? | Yes | – | Yes |
Modify regimen/drug for liver disease? | Yes | – | Yes |
Management of abstinence | |||
Contraindications in liver disease? (e.g., disulfiram, naltrexone) | Yes | Yes | Yes |
Safe drugs for liver disease? (e.g., acamprosate and baclofen) | Yes | Yes | Yes |
Invasive and non-invasive diagnosis of fibrosis and steatosis in ALD | |||
Medical semiology | – | Yes | Yes |
Fibrosis assessment | |||
Imaging (e.g., TE or MRI)? | Yes | Yes | Yes |
Blood tests | Yes | Yes | Yes |
Steatosis assessment | |||
Imaging (e.g., CAP, MRI) | No | Yes | Yes |
Liver biopsy in non-AH ALD | If needed for differential diagnosis and/or grading of disease severity | ||
Alcohol-related liver disease and comorbidities | |||
Screen/treat smoking? | Yes | – | Yes |
Screen/treat psychiatric disorders? | Yes | – | Yes |
Screen/treat obesity/metabolic syndrome? | Yes | Yes | Yes |
Other coexistent liver disease? | – | Yes | – |
Screening for ALD in the general population | |||
Targeted screening? | Yes | – | Yes |
Utility of imaging? | Yes | – | Yes |
Utility of LFTs? | No | – | Yes |
Utility of other blood tests? | Yes | – | Yes |
AH | |||
Biopsy to confirm AH? | If needed for differential diagnosis | ||
NIAAA criteria in absence of biopsy? | Yes | Yes | Yes |
Non-invasive tests for AH (e.g., CK 18) | Yes, but need more to improve diagnosis/prognosis | ||
Utility of laboratory scores | |||
Severity assessment | MDF and MELD preferred | ||
Prognosis assessment | MELD and Lille preferred | ||
Initiating corticosteroids | MDF (and GAHS) preferred | ||
Cessation of corticosteroids | Lille preferred | ||
Tissue-based scores (e.g., AHHS)? | – | Limited use | Limited use |
Importance of infection screening | Yes | – | Yes |
Treatment of AH | |||
Abstinence | Yes | Yes | Yes |
Nutrition | – | Yes | Yes |
Corticosteroids | Yes | Yes | Yes |
N-acetylcysteine | Possible | Possible | Possible |
GC-SF | – | Possible | Possible |
Pentoxifylline | No | No | No |
Fast track liver transplant benefit? | Yes | Yes | Yes |
The order of comparison was based on the order of discussion and guidelines in the AFEF document (1). Some areas that were discussed in AASLD and/or EASL guidelines (e.g., management of alcohol-related cirrhosis) were not covered in the AFEF guidelines and therefore no comparison was made. a, “Yes” indicates that a specific guideline recommendation was made in favor; b, “–” indicates that no specific guideline recommendation was made, even if the topic was discussed; c, “No” indicates that a specific guideline recommendation was made against; d, “Possible” indicates that guidelines suggest recommendation, but with limited data to support. AFEF, French Association for the Study of the Liver; AASLD, American Association for the Study of Liver Diseases; EASL, European Association for the Study of Liver; AUD, alcohol use disorder; AUDIT, alcohol use disorder identification test; f/m, female/male; ALD, alcohol-related liver disease; TE, transient elastography; MRI, magnetic resonance imaging; CAP, controlled attenuation parameter; AH, alcohol-related hepatitis; LFTs, liver function tests; NIAAA, National Institute on Alcohol Abuse and Alcoholism; CK 18, cytokeratin 18; MDF, Maddrey’s discriminant function; MELD, model of end-stage liver disease; GAHS, Glasgow Alcoholic Hepatitis Score; AHHS, Alcoholic Hepatitis Histological Score; GC-SF, Granulocyte Colony Stimulating Factor.
What’s new?
Although the rationale for AFEF to publish guidelines that are separate from the European (EASL) guidelines are not stated by the authors, it becomes clear that some efforts were made to build upon the EASL guidelines and incorporate some aspects of the more recent AASLD guidelines. The AFEF guidelines therefore appear as a merger or marriage of these 2 approaches (Table 1). Moreover, the authors employ the Grades of Recommendation, Assessment, Development, and Evaluation (GRADE) method for rating the quality and strength of the evidence that supports each recommendation (4), an approach shared by the EASL guidelines (3).
The GRADE approach not only weighs each recommendation by supporting evidence, but also highlights where the gaps in our understanding remain. For example, since alcohol consumption is often underreported, continuous efforts to uncover the surreptitious harmful alcohol use in the general population are important aspects of all 3 guidelines (1-3). Recent work has suggested that biomarkers of alcohol consumption may be useful in screening the general population. However, the GRADE approach led the AFEF to conclude that biomarkers are not required in the systematic detection of alcohol misuse [in contrast to alcohol use disorder identification test (AUDIT)-C questionnaire], since there are insufficient data to decipher the value of systematic screening in the general population at this time.
The AFEF guidelines are also unique in that they systematically recognize that the pattern of drinking is also critical to the field’s understanding. Specifically, although it is understood that heavy episodic (i.e., ‘binge’) drinking puts an individual at higher risk for alcohol harm, these did not translate to specific recommendations in the EASL and AASLD guidelines. The AFEF is specific in instructing clinical practitioners to educate and screen the general population on the risks of binge drinking. The AFEF also highlights that our current understanding of the impacts of binge drinking harm to the liver are incompletely understood and calls for more prospective studies to address this gap.
The AFEF guidelines offer no specific comments or clinical practice guidance for alcohol-associated cirrhosis, which differs from both the AASLD and EASL guidelines (2,3). It is assumed that the authors viewed inclusion in this document overlapping with their separate guidelines for cirrhosis (5). Nevertheless, the omission appears strange, especially when the care of alcohol-related cirrhosis patients can be more involved than cirrhosis by other etiologies, as they acknowledge.
What’s not new, but it is important?
The dimensional perspective provided by the Diagnostic and Statistical Manual of Mental Disorders (DSM-V) was crucial for categorizing the differentiation between alcohol use disorders (AUD) and alcohol misuse/dependance (6). Moreover, DSM-V was a key step forward to overcome the alcohol-related stigmatization. All three guidelines adopt these changes to remove stigmatizing statements in our terminology. Similar to the AASLD and EASL guidelines (2,3), the AFEF guideline emphasize the need to systematically screen the general population for an AUD. Although the French guidelines more explicitly suggest that using the AUDIT-C questionnaire (which consists of the first 3 questions of AUDIT) is often sufficient to detect of excessive alcohol consumption in both general practice and specialist consultations, the guidance for practice remains largely the same between the 3 documents.
The AFEF also emphasizes the need to screen those suspected of an AUD for other psychological disorders and addictions; these recommendations are built on the understanding that alcohol misuse is often part of a spectrum of disorders that are afflicting the patient and may represent, at least initially, efforts at self-medication. All three guidelines emphasize the need and potential benefit of brief psychosocial/behavioral and pharmacological intervention in those identified with an AUD in the general population.
Another notable lack of difference between these 3 documents is in the management and care of alcohol-related hepatitis (AH). The mortality of AH, the most lethal condition of the ALD spectrum, has not decreased significantly in the last decades and it is still up to 20–40% at 3 months. AH treatment has not experienced major advances during the last four decades and corticosteroids, the only approved therapy for patients with severe AH, are of limited efficacy (7,8). Furthermore, all guidelines highlight that the development of novel pathogenesis-based targeted therapies represents an urgent need in clinical hepatology. Thus, these differences are not a criticism of the guidelines, per se, but rather a call for more studies.
What’s needed in the field?
Children and young adults are particularly sensitive to alcohol marketing, and they should be screened for binge drinking as a high-risk consumption pattern as highlighted in AFEF guidelines. Indeed, AH is contributing to increasing ALD-related burden in the US among individuals aged ≤35-year-old, affecting mostly young people in their most productive years of life (9). However, screening tools, including AUDIT, have been developed and validated in populations over 18 years old (10). The validity of these tools in young/adolescent populations still needs to be validated.
Another significant challenge, especially with the increasing prevalence of obesity, metabolic syndrome, and type 2 diabetes mellitus, is the role of NAFLD (nonalcoholic liver disease) in ALD as a dual etiology entity. Since its first description in 1980, NAFLD has been conceived as a different entity from ALD, despite that both diseases have an overlap in the pathophysiology, share genetic-epigenetic factors, and frequently coexist. The impact of moderate alcohol use on the severity of NAFLD remains controversial. Studies have suggested protective effects in moderate doses; however, most recent evidence shows that there is no safe threshold for alcohol consumption for NAFLD. In fact, given the synergistic effect between alcohol consumption, obesity, and metabolic dysfunction, it is likely that alcohol use serves as a significant risk factor for the progression of liver disease, and even the development of hepatocellular carcinoma, in NAFLD and metabolic syndrome (11). Additionally, a recent study showed that up to 28% of patients classified as NAFLD have positive biomarkers of heavy alcohol use (12). Critical research in this area needs to be increased.
Another critical area for improvement is spanning the gap between those identified with risky alcohol consumption and those truly at risk for ALD. Specifically, although a positive AUDIT-C score has strong specificity and sensitivity for detecting an AUD, not all individuals will progress onto ALD (or other alcohol-related end-organ diseases). Although there are approaches that detect those who are progressing to severe liver disease, including blood (e.g., FIB-4) and imaging (e.g., transient elastography), the accuracy of these approaches are best at later stages of disease progression (e.g., >F2 fibrosis score). Moreover, given that it is estimated that 1:10 adults have an AUD, the economic burden of applying these more advanced screening approaches to all those testing positive for an AUD would be staggering. What is needed is a relatively inexpensive test/score that better stratifies the risk for ALD much earlier in disease progression, where interventive strategies to reduce alcohol consumption and (potentially) halt disease progression would be more effective. The screening and risk stratification blueprint proposed by Asrani et al. (13) could efficiently help to appropriately identify patients with AUD or/and ALD at all levels of clinical practice.
Noninvasive prognostication in patients with severe AH is also an unmet need. This is especially true given that liver transplantation for AH is increasingly seen as a possible therapeutic option (14). Noninvasive approaches are not only more convenient, but also needed because of the significant regional differences in willingness/ability to perform trans-jugular liver biopsy in patients with severe AH. Several recent efforts have been made to discover and validate new biomarkers. One promising biomarker is cytokeratin-19 (CK19) (15), that has shown to be associated with the presence of alcohol-associated steatohepatitis on biopsy and independently predict 90-day survival. Although several ongoing trials for patients with severe AH are in development, results that alter practice are not yet available.
In summary, ALD-related burden is increasing worldwide, and multi-societal efforts are needed to improve the early diagnosis, prognostication, and the development of effective treatments at all levels of care. The AFEF guidelines offer some new advances in the guidance of the clinical management of ALD. However, the fact that different societies cannot find consensus on simple aspects (e.g., definition of a standard drink) highlights a need for a true consensus on several aspects of ALD. An international unifying guideline covering the unmet needs of consensus is therefore needed.
Acknowledgments
Funding: This study was supported, in part, by grants from NIH (Nos. R01 AA021978 and P30 DK120531).
Footnote
Provenance and Peer Review: This article was commissioned by the editorial office, Hepatobiliary Surgery and Nutrition. The article did not undergo external peer review.
Conflicts of Interest: Both authors have completed the ICMJE uniform disclosure form (available at https://hbsn.amegroups.com/article/view/10.21037/hbsn-22-560/coif). GEA reports grant funding from NIH to his institution; consulting fees from NIH for being a standing member of AA-1 study section; Honoraria for presenting research at University of Cincinnati (2019), Louisiana State University (2019) and University of California San Diego (2020) and he is an unpaid member of nominating committee AASLD from 2020–2022. The other author has no conflicts of interest to declare.
Ethical Statement: The authors are accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
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