What is the relationship between the Lille score and the Glasgow Alcoholic Hepatitis Score?

GAHS predicts 28 and 84-day mortality at admission. Lille assesses day 7 steroid response. Lille (AUROC 0.85) outperforms GAHS (0.67). They can be used complementarily.

Lille Model Calculator for Alcoholic Hepatitis- Free Steroid Response and 6-Month Mortality Prediction Tool

Lille Model Calculator for Alcoholic Hepatitis – Free Steroid Response and 6-Month Mortality Prediction Tool | Super-Calculator.com

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Lille Model Calculator for Alcoholic Hepatitis

Calculate the Lille score to assess corticosteroid response in severe alcohol-associated hepatitis. This tool uses the validated Louvet formula with six clinical variables measured at baseline and day 7 of steroid therapy to predict 6-month mortality. Supports both SI and conventional units for albumin, bilirubin, and creatinine with automatic conversion and three-tier classification (complete, partial, null responder).

Important Medical Disclaimer

This calculator is provided for informational and educational purposes only. It is not intended to replace professional medical advice, diagnosis, or treatment. Always consult with a qualified healthcare professional before making any medical decisions. The results from this calculator should be used as a reference guide only and not as the sole basis for clinical decisions.

Patient Age (years)50

Serum Albumin (Day 0 Baseline)2.8

g/dL

g/L

Normal range: 3.5-5.0 g/dL (35-50 g/L). Measured before starting corticosteroids.

Total Bilirubin Day 0 (Baseline)15.0

mg/dL

umol/L

Baseline bilirubin measured at admission before starting steroids.

Total Bilirubin Day 7 (After Steroid Therapy)12.0

Measured exactly 7 days after starting prednisolone 40 mg daily. The change from day 0 is the most critical variable.

Serum Creatinine (Baseline)1.0

mg/dL

umol/L

Renal insufficiency threshold: >= 1.3 mg/dL (115 umol/L) coded as 1; below coded as 0.

Prothrombin Time (seconds)18

Normal range: 11-13.5 seconds. Use PT in seconds, not INR. If only INR available, estimate PT = INR x Mean Normal PT.

Lille Score

0.2206

< 0.16

0.16 – 0.56

> 0.56

0 0.16 0.45 0.56 1.0

Complete

< 0.16

Partial

0.16 – 0.56

Null

> 0.56

6-Month Survival

~85%

Steroid Response

Responder

Lille Score

0.2206

6-Mo Survival

~85%

Classification

Partial

Score below 0.16 – Complete Responder

Excellent steroid response. Continue full 28-day prednisolone course.

Score 0.16-0.45 – Partial Responder

Continue steroids. Monitor bilirubin trend closely.

Score 0.45-0.56 – Non-Responder (Partial)

Consider stopping steroids. Evaluate alternatives.

Score above 0.56 – Null Responder

Stop steroids. Evaluate for transplant. Supportive care.

Clinical Recommendation: Continue prednisolone for full 28-day course. Partial responder with favorable 6-month prognosis (~85% survival). Monitor bilirubin trend closely.

Renal Insufficiency Status

Normal (0)

Linear Predictor R Value

0.000

Lille Calculation Details

Hepatic Score Comparison

Lille Score Calculation Breakdown

Component	Input Value	Coefficient	Contribution to R

Lille Model vs Other Hepatic Scoring Systems (AUROC Comparison)

Scoring System	AUROC (6-Month Mortality)	Primary Use
Lille Model	0.85 – 0.89	Steroid response at Day 7
MELD Score	0.72	Baseline severity assessment
Glasgow AH Score	0.67	28/84-day mortality at admission
Maddrey DF	0.66	Severity and steroid indication
Child-Pugh	0.62	Cirrhosis severity staging
MELD + Lille (Combined)	0.90	Best combined predictor

About This Lille Model Calculator

This Lille Model calculator is designed for healthcare professionals managing patients with severe alcohol-associated hepatitis who are receiving corticosteroid therapy. The tool accepts six clinical inputs (age, serum albumin, total bilirubin at day 0 and day 7, serum creatinine, and prothrombin time) and computes the Lille score using the validated logistic regression formula published by Louvet and colleagues in Hepatology (2007). It supports both SI units (g/L, umol/L) and conventional units (g/dL, mg/dL) with automatic conversion, making it accessible to clinicians worldwide regardless of their laboratory’s reporting standards.

The calculator applies the original Lille Model formula with the logistic transformation to produce a score between 0 and 1, then classifies patients using both the traditional binary cutoff of 0.45 (steroid responder versus non-responder) and the refined three-tier Louvet classification from 2015 (complete responder below 0.16, partial responder 0.16-0.56, null responder above 0.56). The binary renal insufficiency variable is automatically determined from the entered creatinine value using the 1.3 mg/dL (115 umol/L) threshold established in the original study.

Results are displayed on an interactive horizontal zone bar showing the score position across risk classification zones, alongside a clinical decision tree that highlights the appropriate treatment pathway for each tier. The calculation details tab provides a complete breakdown of each variable contribution to the linear predictor R value, supporting transparency and educational understanding of the formula. All clinical recommendations are based on evidence from the AASLD, EASL, and ACG guidelines for the management of severe alcoholic hepatitis.

Lille Model Calculator for Alcoholic Hepatitis: Complete Guide to Steroid Response Assessment and 6-Month Mortality Prediction

Alcohol-associated hepatitis (AH), historically referred to as alcoholic hepatitis, is a severe inflammatory liver condition caused by excessive alcohol consumption. In its most acute form, severe AH carries a short-term mortality rate of 20 to 40 percent, making it one of the most dangerous presentations of liver disease. Corticosteroids, particularly prednisolone, remain the primary pharmacological treatment for severe AH, but not all patients respond favorably to this therapy. Identifying steroid non-responders early is critical because continuing corticosteroids in patients who do not benefit exposes them to unnecessary risks, including infection, while delaying consideration of alternative treatments such as liver transplantation. The Lille Model was developed precisely for this purpose: to evaluate whether a patient with severe AH is responding to corticosteroid therapy after 7 days of treatment, and to predict 6-month mortality based on that response.

Developed by Louvet and colleagues at the Centre Hospitalier Regional Universitaire (CHRU) de Lille in France and published in Hepatology in 2007, the Lille Model integrates six clinical variables, five measured at baseline (day 0) and one measured after 7 days of corticosteroid treatment, into a single prognostic score. The model was derived from a cohort of 320 patients with biopsy-proven severe AH and validated in an independent cohort of 118 patients. The Lille score ranges from 0 to 1, with a critical threshold of 0.45: scores below this cutoff are associated with approximately 85 percent 6-month survival, while scores at or above 0.45 correlate with only about 25 percent 6-month survival. This stark difference in outcomes makes the Lille Model an essential tool in clinical hepatology practice worldwide.

Lille Model Formula (SI Units)

R = 3.19 – (0.101 x Age) + (0.147 x Albumin g/L) + (0.0165 x [Bili Day0 – Bili Day7] umol/L) – (0.206 x Renal Insufficiency) – (0.0065 x Bili Day0 umol/L) – (0.0096 x PT sec)

Where Renal Insufficiency = 1 if serum creatinine >= 1.3 mg/dL (115 umol/L), otherwise 0. The final Lille Score = exp(-R) / (1 + exp(-R)), producing a value between 0 and 1.

Lille Model Formula (Conventional Units)

R = 3.19 – (0.101 x Age) + (1.47 x Albumin g/dL) + (0.28215 x [Bili Day0 – Bili Day7] mg/dL) – (0.206 x Renal Insufficiency) – (0.11115 x Bili Day0 mg/dL) – (0.0096 x PT sec)

Same formula with albumin in g/dL and bilirubin in mg/dL. Conversions: Albumin g/dL x 10 = g/L; Bilirubin mg/dL x 17.1 = umol/L; Creatinine mg/dL x 88.4 = umol/L.

Logistic Transformation

Lille Score = exp(-R) / (1 + exp(-R))

The logistic transformation converts the linear predictor R into a probability-like score between 0 and 1. A Lille score less than 0.45 identifies steroid responders, while 0.45 or greater identifies non-responders.

Understanding Severe Alcohol-Associated Hepatitis

Alcohol-associated hepatitis represents an acute inflammatory injury to the liver caused by heavy and prolonged alcohol consumption. While many individuals who drink excessively may develop fatty liver (steatosis) without significant symptoms, a subset progresses to hepatitis characterized by hepatocyte injury, neutrophilic infiltration, Mallory-Denk bodies, and varying degrees of fibrosis or cirrhosis. The severe form, typically defined by a Maddrey Discriminant Function (MDF) score greater than 32 or a Model for End-Stage Liver Disease (MELD) score of 20 or higher, carries substantial short-term mortality. Patients often present with jaundice, ascites, hepatic encephalopathy, and coagulopathy, reflecting profound hepatic dysfunction.

The pathophysiology involves a complex interplay of oxidative stress from alcohol metabolism, gut-derived endotoxemia, activation of innate immune pathways including Kupffer cells and toll-like receptors, and subsequent release of pro-inflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha) and interleukins. This inflammatory cascade leads to hepatocyte necrosis and apoptosis, perpetuating liver injury. The severity of the inflammatory response and the degree of underlying fibrosis largely determine the clinical outcome. In patients with severe AH, the liver’s synthetic capacity is markedly impaired, reflected by low albumin levels, prolonged prothrombin time, and elevated bilirubin, which are precisely the variables incorporated into the Lille Model.

Clinical Context: Why Steroid Response Assessment Matters

Corticosteroids, specifically prednisolone at a dose of 40 mg daily for 28 days, have been the standard of care for severe AH for decades. The rationale for corticosteroid use rests on their ability to suppress the exaggerated inflammatory response driving hepatocyte injury. Multiple randomized controlled trials and meta-analyses have demonstrated a modest survival benefit with corticosteroid therapy in severe AH, particularly in the short term. However, approximately 40 percent of patients treated with steroids do not respond, and these non-responders have a significantly worse prognosis than responders.

Before the Lille Model was introduced, clinicians had limited tools to identify non-responders early in the treatment course. The standard approach was to complete the full 28-day course of steroids regardless of response, exposing non-responding patients to unnecessary immunosuppression and its attendant risks, including opportunistic infections, hyperglycemia, and gastrointestinal bleeding. The Lille Model changed this paradigm by providing a validated tool to assess steroid response at day 7, enabling clinicians to make an informed decision about whether to continue or discontinue corticosteroid therapy.

Components of the Lille Model

The Lille Model incorporates six variables, each reflecting a distinct aspect of hepatic function, systemic health, or treatment response.

Age (years): Older patients generally have diminished hepatic regenerative capacity, more accumulated liver damage, and a higher burden of comorbidities. In the formula, increasing age contributes negatively to the R value, resulting in a higher (worse) Lille score.

Serum Albumin at Baseline (g/L or g/dL): Albumin is a key indicator of hepatic synthetic function. The liver produces approximately 10 to 15 grams of albumin daily under normal conditions. In severe AH, albumin levels are often depressed. Higher albumin at baseline is favorable and lowers the Lille score.

Serum Bilirubin at Day 0 (umol/L or mg/dL): Bilirubin reflects the liver’s ability to conjugate and excrete this breakdown product of hemoglobin. Markedly elevated bilirubin at baseline indicates severe cholestasis and hepatocyte dysfunction, worsening prognosis.

Serum Bilirubin at Day 7 (umol/L or mg/dL): The change in bilirubin from day 0 to day 7 is the most critical dynamic variable. It captures the early treatment response to corticosteroids. A decrease suggests the inflammatory cascade is being controlled. The formula uses (Day 0 minus Day 7) so that a positive change (decreasing bilirubin) is favorable.

Serum Creatinine (mg/dL or umol/L): The Lille Model uses a binary variable for renal insufficiency: creatinine at or above 1.3 mg/dL (115 umol/L) is coded as 1, and below this threshold is coded as 0. Renal impairment may indicate hepatorenal syndrome, volume depletion, or concurrent acute kidney injury.

Prothrombin Time (seconds): PT measures the extrinsic pathway of coagulation and is highly sensitive to hepatic synthetic function. Prolonged PT indicates severely compromised hepatic synthesis and increases the Lille score.

How to Calculate the Lille Score: Step-by-Step

Calculating the Lille score requires collecting specific laboratory values at two time points. At baseline (day 0), before initiating corticosteroid therapy, record the patient’s age, serum albumin, total bilirubin, serum creatinine, and prothrombin time. After 7 days of corticosteroid treatment, measure serum bilirubin again.

First, determine the renal insufficiency variable: if serum creatinine is 1.3 mg/dL (115 umol/L) or higher, assign 1; otherwise assign 0. Second, calculate the change in bilirubin by subtracting the day 7 value from the day 0 value. Third, substitute all values into the linear predictor equation to compute R. Finally, apply the logistic transformation: Lille Score = exp(-R) / (1 + exp(-R)).

Key Point: Unit Awareness Is Critical

The Lille Model formula has different coefficients depending on the units used. The original publication uses SI units (albumin in g/L, bilirubin in umol/L). When using conventional units (albumin in g/dL, bilirubin in mg/dL), the coefficients must be adjusted. Conversion: 1 g/dL albumin = 10 g/L; 1 mg/dL bilirubin = 17.1 umol/L; 1 mg/dL creatinine = 88.4 umol/L.

Interpreting the Lille Score

The Lille score is interpreted using a primary cutoff of 0.45. Patients with a score below 0.45 are classified as steroid responders with approximately 85 percent 6-month survival. Patients with a score of 0.45 or above are classified as non-responders with approximately 25 percent 6-month survival, and the recommendation is to discontinue corticosteroids.

A subsequent study by Louvet and colleagues in 2015 proposed a more refined three-tier classification: scores below 0.16 indicate complete responders with excellent prognosis, scores between 0.16 and 0.56 indicate partial responders with intermediate prognosis, and scores above 0.56 indicate null responders with very poor prognosis. This approach provides additional clinical nuance for transplant referral discussions.

Key Point: The 0.45 Cutoff Is Not Absolute

While 0.45 is well-validated, patients very close to the cutoff (0.40 to 0.50) may warrant additional clinical judgment. Some centers use the three-tier classification, and combined scoring systems incorporating MELD or MDF alongside the Lille score may improve prognostic accuracy.

Validation and Predictive Performance

The Lille Model has been extensively validated. In the derivation cohort of 320 patients, the AUROC was 0.89. In the validation cohort of 118 patients, the AUROC was 0.85. These values significantly outperformed Child-Pugh (AUROC 0.62), Maddrey DF (0.66), MELD (0.72), and Glasgow AH Score (0.67). Independent validation studies across different populations have confirmed robust predictive performance. Combining the MELD score with the Lille score provided the best predictive model for 2-month mortality with an AUROC of 0.90.

Day 4 Lille Score: An Earlier Assessment Option

Research has explored whether assessment at day 4 could provide similarly reliable prognostic information. Studies have demonstrated comparable predictive performance to the day 7 score. The rationale is compelling: every additional day of corticosteroid therapy in non-responding patients increases infection risk without benefit. However, the day 7 assessment remains the standard in most guidelines as it has a larger evidence base.

Relationship with Other Hepatic Scoring Systems

The Maddrey Discriminant Function (MDF) is typically the first score calculated to determine whether a patient has severe AH requiring steroids (MDF greater than 32). The Lille score is then calculated at day 7 to assess response.

The MELD score has become a widely used prognostic tool in AH. A MELD above 20 indicates severe AH. Combining MELD with the Lille score improves prognostic accuracy beyond either alone.

The Glasgow Alcoholic Hepatitis Score (GAHS) uses age, white blood cell count, urea, PT ratio, and bilirubin. The ABIC score (Age, Bilirubin, INR, Creatinine) stratifies patients into low, intermediate, and high-risk groups.

Clinical Application and Treatment Algorithm

In current clinical practice, the Lille Model is integrated into a stepwise treatment algorithm for severe AH. The pathway begins with identifying patients with suspected AH based on clinical presentation, including recent onset of jaundice in the setting of heavy alcohol use. Severity is assessed using MDF (greater than 32) or MELD (20 or above). Patients with severe AH who do not have contraindications to steroids are started on prednisolone 40 mg daily.

At day 7, the Lille score is calculated. If below 0.45, prednisolone is continued for 28 days followed by a taper. If 0.45 or above, steroids are discontinued and the clinical team considers alternative strategies including supportive care, early liver transplantation evaluation, or clinical trials. Alcohol abstinence remains the single most important factor influencing long-term outcomes regardless of Lille score.

Key Point: Contraindications to Corticosteroids

Before initiating corticosteroids, clinicians must screen for contraindications including active or uncontrolled infection, sepsis, gastrointestinal bleeding, hepatorenal syndrome type 1, and multi-organ failure. In patients with these conditions, alternative approaches should be considered from the outset.

Limitations of the Lille Model

While powerful, the Lille Model has several limitations. It was developed in predominantly Caucasian European populations, raising generalizability questions. It relies on accurate laboratory measurements at precisely timed intervals. The binary coding of renal insufficiency may miss patients with borderline creatinine values. The model does not account for portal hypertension, hepatic encephalopathy grade, nutritional status, or ongoing alcohol use.

Additionally, the model was designed for biopsy-proven severe AH treated with corticosteroids. Its applicability to patients who did not receive steroids, those treated with alternative therapies, or those diagnosed clinically (without biopsy) is less established. The model’s specificity for predicting steroid futility has been questioned, as some non-responders may still derive partial benefit.

Global Application and Population Considerations

The Lille Model has been applied across multiple continents. While originally developed in a French population, validation studies have been conducted in North America, Europe, Asia, and other regions. The model’s components are universally available, making it applicable in both resource-rich and resource-limited settings.

Different ethnic populations may have varying baseline laboratory values and susceptibilities to alcohol-related liver injury. Certain genetic polymorphisms in alcohol-metabolizing enzymes (ADH and ALDH variants) are more prevalent in East Asian populations. South Asian populations may present with AH at lower alcohol consumption levels. International guidelines from the AASLD, EASL, and ACG all reference the Lille Model as a recommended tool for assessing steroid response.

Emerging Research and Future Directions

Several areas of active research may influence how the model is used. Biomarker research is identifying novel predictors including IL-8, IL-6, TNF-alpha, hepatocyte growth factor, and alpha-fetoprotein. Early liver transplantation for selected steroid non-responders has created a new role for the Lille score as a gatekeeping tool. The STOPAH trial (2015, New England Journal of Medicine) confirmed the importance of early response assessment. Research into non-invasive biomarkers and imaging techniques may also influence future application.

Practical Considerations for Using This Calculator

Ensure all input values are in the correct units. The calculator supports both SI and conventional units with automatic conversion. Albumin can be entered in g/dL or g/L. Bilirubin values can be entered in mg/dL or umol/L. Creatinine can be entered in mg/dL or umol/L. Prothrombin time should be in seconds. Always use baseline (pre-treatment) values for albumin, bilirubin day 0, creatinine, and PT.

Key Point: Timing of Measurements

Baseline values should be obtained before or at the time of initiating corticosteroid therapy. The day 7 bilirubin must be measured exactly 7 days after starting steroids, not 7 days after hospital admission if steroids were started on a different day.

Unit Conversion Reference for Global Users

For albumin, multiply g/dL by 10 to convert to g/L. Normal albumin is approximately 3.5 to 5.0 g/dL (35 to 50 g/L). For total bilirubin, multiply mg/dL by 17.1 to convert to umol/L. Normal is approximately 0.1 to 1.2 mg/dL (1.7 to 20.5 umol/L). For creatinine, multiply mg/dL by 88.4 to convert to umol/L. The renal insufficiency threshold of 1.3 mg/dL corresponds to 115 umol/L.

Prothrombin time does not require conversion but some laboratories report only INR. The Lille Model requires PT in seconds. If only INR is available, PT can be estimated: PT (seconds) = INR x Mean Normal PT (typically 11 to 13.5 seconds). Direct PT measurement is preferred.

Combining Scoring Systems for Improved Prognostication

Combining multiple scoring systems improves accuracy. Louvet and colleagues demonstrated that the combination of MELD at baseline with Lille at day 7 was the most accurate model for predicting 2-month mortality. Some centers use a combined approach where patients with high MELD (above 30) and high Lille (above 0.56) are prioritized for early transplant evaluation.

Nutritional Support and Supportive Care

All patients with severe AH require comprehensive supportive care regardless of Lille score. Nutritional support is a cornerstone: 35 to 40 kcal/kg/day with 1.2 to 1.5 g/kg/day protein. Enteral nutrition is preferred. Additional care includes hepatic encephalopathy prophylaxis, ascites management, infection surveillance, and gastrointestinal bleeding prevention. Alcohol cessation counseling should begin during hospitalization and continue after discharge.

Frequently Asked Questions

1. What is the Lille Model and what does it predict?

The Lille Model is a clinical prognostic tool that predicts 6-month mortality in patients with severe alcohol-associated hepatitis (AH) treated with corticosteroids. Developed by Louvet and colleagues at the CHRU de Lille in France (published in Hepatology, 2007), it uses six clinical variables measured at baseline and after 7 days of steroid therapy to produce a score between 0 and 1. The primary purpose is to identify steroid non-responders early so alternative treatments can be considered.

2. What variables are included in the Lille Model formula?

The Lille Model incorporates six variables: age in years, serum albumin at baseline in g/L or g/dL, total bilirubin at baseline in umol/L or mg/dL, total bilirubin at day 7 of steroid treatment, serum creatinine at baseline to determine renal insufficiency (coded as binary 0 or 1), and prothrombin time in seconds at baseline. Five are measured before starting steroids; the day 7 bilirubin captures early treatment response.

3. What does a Lille score below 0.45 mean?

A Lille score below 0.45 classifies the patient as a steroid responder with approximately 85 percent estimated 6-month survival. The recommendation is to continue prednisolone for the full 28-day course, followed by a gradual taper, alongside supportive care including nutritional support and alcohol cessation counseling.

4. What does a Lille score of 0.45 or above mean?

A Lille score of 0.45 or above classifies the patient as a steroid non-responder with approximately 25 percent 6-month survival. The recommendation is to discontinue corticosteroids to avoid immunosuppression risks and to consider alternative strategies such as early liver transplantation evaluation, clinical trials, or focused supportive care.

5. What is the three-tier Louvet classification?

Proposed in 2015 in Gastroenterology, this refined classification divides patients into complete responders (Lille below 0.16, best prognosis), partial responders (0.16 to 0.56, intermediate prognosis), and null responders (above 0.56, worst outcomes). This provides more granular prognostic information than the simple 0.45 cutoff.

6. How does the Lille Model compare to the Maddrey Discriminant Function?

MDF is used at diagnosis to assess severity and determine whether steroids are indicated (threshold of 32). The Lille Model is used 7 days after starting steroids to assess treatment response. The Lille Model has significantly higher AUROC (0.85-0.89) compared to MDF (0.66) for predicting 6-month mortality.

7. How does the Lille Model compare to the MELD score?

MELD assesses baseline liver disease severity using bilirubin, INR, and creatinine but does not incorporate treatment response. The Lille Model (AUROC 0.85) outperformed MELD (AUROC 0.72) for 6-month mortality prediction. However, combining both scores provides the best prognostic accuracy.

8. Why is the change in bilirubin from day 0 to day 7 so important?

This is the single most important variable because it directly captures whether the patient is responding to corticosteroid therapy. A decrease indicates the inflammatory cascade is being suppressed and hepatocyte function is improving. Stable or rising bilirubin suggests steroids are not controlling inflammation.

9. Why does the Lille Model use a binary variable for renal function?

Logistic regression analysis found that binary classification (creatinine at or above 1.3 mg/dL coded as 1, below as 0) provided the best fit for predicting mortality. The 1.3 mg/dL threshold corresponds to clinically significant renal dysfunction in the context of severe AH.

10. Can the Lille score be calculated at day 4 instead of day 7?

Several studies have demonstrated comparable predictive performance at day 4. The advantage is earlier identification of non-responders. However, day 7 remains the standard in most guidelines due to its larger evidence base and allowing more time for the therapeutic effect to manifest.

11. What should clinicians do if the Lille score is above 0.45?

Discontinue corticosteroids, focus on aggressive nutritional support, manage complications (ascites, encephalopathy, infections), and consider early liver transplantation evaluation in appropriate candidates or enrollment in clinical trials investigating novel therapies.

12. Is the Lille Model applicable to patients not treated with corticosteroids?

No. The Lille Model was specifically developed for patients on corticosteroid therapy. The dynamic bilirubin component loses its interpretive value without the context of steroid therapy. For non-steroid-treated patients, MELD, MDF, GAHS, or ABIC scores are more appropriate.

13. How accurate is the Lille Model in predicting 6-month mortality?

The Lille Model has excellent discriminative ability with AUROC of 0.89 in the derivation cohort and 0.85 in validation, significantly outperforming Child-Pugh (0.62), MDF (0.66), MELD (0.72), and GAHS (0.67). However, it provides probability estimates, not definitive predictions for individual patients.

14. What is the role of the Lille score in liver transplantation decisions?

The Lille score helps identify candidates for early liver transplantation. Pioneering studies have shown excellent outcomes with early transplantation in carefully selected steroid non-responders. A high Lille score (particularly above 0.56) combined with high MELD may trigger early transplant evaluation.

15. What are the normal ranges for the input parameters?

Normal ranges are approximately: albumin 3.5-5.0 g/dL (35-50 g/L), total bilirubin 0.1-1.2 mg/dL (1.7-20.5 umol/L), serum creatinine 0.6-1.2 mg/dL (53-106 umol/L), and prothrombin time 11-13.5 seconds. Severe AH patients typically have markedly abnormal values.

16. Can I use INR instead of prothrombin time?

The formula requires PT in seconds. If only INR is available, estimate PT: PT (seconds) = INR x Mean Normal PT (typically 11-13.5 seconds). This introduces variability, so direct PT measurement in seconds is preferred.

17. How was the Lille Model originally developed?

It was developed using data from 320 patients with biopsy-proven severe AH at the CHRU de Lille in France. Logistic regression identified independent predictors of 6-month mortality. The model was validated in 118 patients and published in Hepatology in 2007.

18. What happens if day 7 bilirubin is higher than day 0?

This indicates worsening liver function despite steroid therapy. The change in bilirubin becomes negative, decreasing R and increasing the Lille score toward or above 0.45. Rising bilirubin is one of the strongest indicators of steroid non-response and strongly supports discontinuing steroids.

19. What is the recommended corticosteroid regimen for severe AH?

Prednisolone 40 mg orally once daily for 28 days, preferred over prednisone because prednisone requires hepatic conversion. After 28 days, the dose is tapered over 2-4 weeks. In non-responders (Lille 0.45 or above), steroids are discontinued at day 7.

20. Does the Lille Model account for cirrhosis severity?

Not directly, but its component variables (albumin, bilirubin, PT) are influenced by cirrhosis severity. For specific cirrhosis assessment, use Child-Pugh classification or MELD score alongside the Lille Model.

21. Is the Lille Model validated across different ethnic populations?

It was originally developed in a European population and has been validated in North American, Scandinavian, and some Asian cohorts. While it generally maintains good discriminative ability, calibration may vary in different ethnic groups due to differences in baseline laboratory values and alcohol metabolism genetics.

22. What is the STOPAH trial and how does it relate to the Lille Model?

STOPAH (published in NEJM, 2015) was the largest RCT in severe AH with 1,103 patients. It found a non-significant trend toward reduced 28-day mortality with prednisolone and no benefit from pentoxifylline. It reinforced the importance of early response assessment tools like the Lille score.

23. Can the Lille score change over time in the same patient?

The Lille score is a one-time assessment at day 7. It is not designed to be recalculated repeatedly during the same treatment episode. For subsequent AH episodes, a new score is calculated with fresh baseline and day 7 values.

24. What are the main risks of continuing steroids in non-responders?

Increased susceptibility to bacterial and fungal infections due to immunosuppression, hyperglycemia, gastrointestinal bleeding, muscle wasting, poor wound healing, and adrenal suppression. Infection-related mortality is a major contributor to death in steroid-treated AH patients.

25. How does nutritional status affect the Lille score and outcomes?

Nutritional status does not directly enter the formula but profoundly affects underlying variables. Malnutrition contributes to hypoalbuminemia, impaired hepatic synthesis, and compromised renal function. Current guidelines recommend 35-40 kcal/kg/day with 1.2-1.5 g/kg/day protein for all severe AH patients.

26. What alternative therapies exist for steroid non-responders?

Supportive care with aggressive nutrition, early liver transplantation evaluation, N-acetylcysteine (NAC) as adjunctive therapy, and clinical trials investigating G-CSF, IL-22 agonists, or other immunomodulatory agents. Pentoxifylline has largely fallen out of favor per STOPAH evidence.

27. What is the significance of a Lille score very close to 0.45?

Borderline scores (0.40-0.50) require additional clinical judgment. Consider bilirubin trajectory, infection status, nutritional status, and overall clinical trajectory. Some clinicians may continue steroids briefly in borderline cases with repeat bilirubin measurements before a definitive decision.

28. How does infection affect interpretation of the Lille score?

Active infection can impair liver recovery and elevate bilirubin regardless of steroid response, leading to a falsely elevated Lille score. Clinicians should screen for and treat infections before calculating the Lille score. If new infection develops during the 7-day trial, clinical judgment is required.

29. What role does alcohol abstinence play after the Lille score is calculated?

Alcohol abstinence is the single most important factor determining long-term survival regardless of Lille score. Even steroid responders face worse outcomes if they resume drinking. All patients should receive cessation counseling and be connected with addiction medicine services.

30. Can the Lille Model be used for non-alcoholic hepatitis?

No. It was specifically developed for severe alcohol-associated hepatitis treated with corticosteroids. It should not be applied to viral hepatitis, autoimmune hepatitis, drug-induced liver injury, or NASH. Each condition has different pathophysiology and prognostic models.

31. How does age affect the Lille score?

Increasing age has a negative prognostic influence, producing higher Lille scores when other variables are equal. This reflects diminished hepatic regenerative capacity and higher comorbidity burden. However, age is just one of six variables, and a young patient with very abnormal labs can still have a high score.

32. What is the relationship between Lille and Glasgow Alcoholic Hepatitis Score?

GAHS uses age, WBC, urea, PT ratio, and bilirubin to predict 28-day and 84-day mortality at admission. The Lille Model assesses steroid response at day 7. Lille (AUROC 0.85) outperformed GAHS (AUROC 0.67) for 6-month mortality. They can be used complementarily.

33. Should patients with steroid contraindications have Lille scores calculated?

No. The Lille score requires active steroid therapy. Patients with contraindications should be assessed with MELD, MDF, or GAHS instead. These patients often have particularly poor prognosis and require aggressive management of their contraindicated conditions.

34. How has the Lille Model influenced early liver transplantation practice?

It has been instrumental in identifying transplant candidates among steroid non-responders. Landmark studies showed excellent post-transplant outcomes in carefully selected patients with high Lille scores. The score, combined with MELD, serves as selection criteria at centers offering early transplantation for AH.

35. What are the key references for the Lille Model?

Louvet A et al. Hepatology 2007;45(6):1348-1354 (original model). Louvet A et al. Gastroenterology 2015;149(2):398-406.e8 (three-tier classification). Sandahl TD et al. Scand J Gastroenterol 2011;46(9):1127-1132 (validation). Thursz MR et al. N Engl J Med 2015;372(17):1619-1628 (STOPAH trial).

Conclusion

The Lille Model remains one of the most important clinical tools in the management of severe alcohol-associated hepatitis. By integrating baseline clinical variables with a dynamic measure of treatment response, it provides clinicians with a robust, validated score to guide one of the most critical decisions in AH management: whether to continue or discontinue corticosteroid therapy. With its AUROC of 0.85 to 0.89 and clear clinical cutoff of 0.45, the Lille Model significantly outperforms other prognostic tools for this specific purpose. Its integration into clinical practice has enabled earlier identification of steroid non-responders, reduced unnecessary exposure to immunosuppressive therapy, and facilitated timely referral for liver transplantation. As research continues to develop novel therapies, the Lille Model will likely remain central to the clinical management algorithm for this devastating condition.

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