GCs are the first line treatment for severe AH. However, the efficacy of steroids has been debated for several decades and considered as the potential side effects that include anti-anabolism, muscular proteolysis, immuno-suppression, increased susceptibility to the infections and increased risk of gastrointestinal bleeding. In addition, many patients with alcoholic diseases are predominantly obese, insulin resistant, or diabetic, and concomitant chronic hepatitis B or C is often present. In these settings, the clinical management with steroids are very difficult.

A meta-analysis at the beginning of the 90s, done by 11 randomized studies (10 of which were placebo controlled), suggested a beneficial role of GSs in the patients with severe AH with hepatic encephalopathy, but without active gastrointestinal bleeding by reducing short-term mortality[38]. A later analysis involving 12 controlled clinical trials, could not confirm these benefits, including the patients with encephalopathy[39]. In further support of this finding, the Cochrane review of 2008, including 15 randomized controlled trials with a total of 721 patients, concluded that GCs did not statistically reduce mortality compared with the placebo. A mortality benefit, however, was seen in a subgroup of the patients with MDF greater than 32 or with hepatic encephalopathy[40]. A successive meta-analysis was done using individual patient data from 5 randomised controlled trials. The patients were classified as complete responders (Lille score ≤ 0.16), partial responders (Lille score between 0.16 and 0.56), and null responders (Lille score ≥ 0.16). GCs improved 28-d survival in the patients’ survival within the complete and partial responders, but not in the null responders[41].

Based on these data and on the clinical guidelines of the European Association for the Study of the Liver it is possible to make appropriate conclusions[42]. The GCs therapy of AH is limited by the concerns of heightened risks of sepsis and gastrointestinal hemorrhage. The patients with mild to moderate AH (MDF < 32), without hepatic encephalopathy and with the improvement in serum bilirubin or decline in the MDF score during the first week of hospitalization, should be monitored closely. Such patients will not likely require the benefit from the specific medical interventions and are expected to recover with nutritional support and abstinence from alcohol. The patients with severe disease (MDF ≥ 32) with or without encephalopathy, who do not have contraindications to GCs, should be considered for a 4-wk treatment with prednisolone (40 mg/d), stopped or followed by a taper during 2-4 wk. Prednisolone is preferred to prednisone because the latter requires conversion to prednisolone in the liver, a process that may be impaired in AH. A new treatment is needed for the poor responders. Early liver transplantation may be considered after a careful selection process of these patients.

Pentoxifylline is a phosphodiesterase inhibitor that blocks transcription of TNF-α to decrease serum levels of the gene product. It may be an acceptable therapeutic option in the patients with severe AH. When compared to the placebo, the patients with severe AH (MDF score ≥ 32) treated with pentoxifylline presented a higher 6-mo survival. This was related to a marked decreased development of a hepatorenal syndrome[43]. Three randomized clinical trials compared pentoxifylline in combination with GCs and GCs monotherapy in severe AH[44-46]. However, these studies reported that the combination of GCs and pentoxifylline presented no additional survival advantage compared with GCs alone in a 6-mo survival. On the basis of these data, the guidelines by American Association for the Study of Liver Disease recommend pentoxifylline (400 mg orally 3 times daily for 4 wk) in the patients with severe AH (MDF score ≥ 32), especially if there are contraindications to the GCs treatment[26,47]. The European Association for the Study of the Liver Guidelines recommend using pentoxifylline if sepsis precludes the use of GCs[42].

TNF-α is a key cytokine that reproduces a number of features of alcoholic hepatitis. It is known to be increased in proportion to the severity of this disease and its low levels increase the liver regeneration[48]. The anti TNF-α therapies were considered as the most attractive strategies to treat severe AH. In a pilot study, 20 patients with biopsy-proved severe AH (MDF between 32 and 55) were randomized to either 5 mg/kg iv of infliximab at day zero plus 40 mg/d of prednisone or prednisone alone. In severe AH, infliximab was well tolerated and associated with a significant improvement of MDF score at day 28[49]. The effectiveness of anti-TNF-α was not confirmed in two randomized controlled trials testing multiple doses of infliximab (10 mg/kg in weeks 0, 2, 4, associated with prednisolone 40 mg/d for 28 d) or etanercept (25 mg sc 6 times over 3 wk), for association with a higher probability of severe infections and deaths[50,51]. In summary, the role of anti TNF-α agents is limited in the confines of the approved randomized clinical trials.

One specific drug that is useful in the treatment of severe AH is metadoxine (pyridoxol L-2-pyrrolidone-5-carboxylate). Pyrrolidone carboxylate is involved in the amino acid metabolism through the glutathione pathway[52]. It facilitates de novo ATP synthesis and prevents ATP decrease in the brain and liver of rats acutely intoxicated with ethanol. Pyridoxine increases the metabolic degradation rate of ethanol, thereby reducing the damage to the cell functions caused by acetaldehyde, the first metabolite in the ethanol elimination process. It can also prevent glutathione depletion, lipid peroxidation damage, collagen deposition and TNF-α secretions induced by alcohol and acetaldehyde in hepatocytes and hepatic stellate cells[53]. A double-blind controlled trial included 136 alcoholic patients diagnosed with fatty liver who were randomly assigned to metadoxine (1500 mg/d) or placebo for 3 mo. A significant improvement in the liver function tests was reported in both groups at the end of the study. However, the improvement was observed more rapidly in those randomized to metadoxine[54]. More recently our group, in a retrospective study of 94 alcohol dependent patients, who received metadoxine for alcohol intoxication with a dose ranged between 500-2000 mg/d and a period of 2-42 d, registered a significant improvement in the transaminase levels, accompanied by the decrease in drinks per week and craving level[53]. Further studies are needed for better understanding of the potential role of metadoxine to treat the ALD, and, in particular, the severe forms of AH, and to define the exact dosage.

SAMe is a principal methyl donor for methyltransferase reactions that regulates gene expression and facilitates the generation of the antioxidant glutathione from homocysteine. The protective effects on the liver in the course of alcoholic injury are also mediated by the maintenance of mitochondrial function and down-regulation of TNF-α. Several data established the association of an abnormal hepatic methionine metabolism with the development of the ALD[55]. SAMe was studied in the patients with liver cirrhosis. In a multicenter randomized, double-blind trial, 123 patients were treated with SAMe (1200 mg/d, orally) or placebo for 2 years. Mortality was not reduced overall, but after the exclusion of a small number of very advanced cases with Childs C cirrhosis, a significant reduction in mortality was found. This study has yet to be replicated, but SAMe is used sporadically on the basis of these encouraging results and its safe profile[56]. Randomized, blinded, placebo-controlled studies assessed the effectiveness of Milk Thistle in chronic ALD. The results of these trials might be conflicting and confounded because of heterogeneity of the degree of the disease severity and alcoholic intake or abstinence[57]. Pre-clinical studies showed that silymarin, the active complex of this plant, play a role to protect against the acute liver injury caused by ethanol administration[58]. Considering its safety profile, it could be developed as an effective therapeutic agent for acute AH by its anti-oxidative stress and anti-inflammatory features. For ambulatory patients, the antioxidant therapies may be considered in a motivated patient with a specific nutritional support.

Alcoholic patients present a profound catabolic state with malnutrition, secondary to anorexia and poor diet, which can promote bacterial infections[59]. In fact, large volumes of alcohol suppress the appetite. Many admit that drinking is the main source of their calories in the form of alcohol. However, nutritional support is recommended in the patients with AH[60]. It improves the liver function and the obtained results from histological analyses might increase the survival rates based on the results of short-term follow-up studies. Nutrition should be provided orally or via a nasojejunal tube if nausea, vomiting, or encephalopathy are present. The patients with AH also require multivitamin, folic acid and thiamine supplementations. The formula of the enteral diet was a low-fat diet in which medium-chain triglycerides and oleic acid were accounted for most of its lipid content and rich in carbohydrate and protein-derived calories[61]. It was also suggested that combined treatment with enteral nutrition and GCs could improve the outcome of the patients with severe AH[62].

The maintenance of ev fluids should be avoided. These patients are often profoundly potassium depleted due to the lack of an intake of potassium-containing foods and hyperaldosteronism due to their liver disease. The replacement of potassium may be required daily until the serum potassium level is normal without supplementation. If the patients with AH exhibit signs of fluid retention, but the blood urea nitrogen and creatinine are normal, spironolactone may be given, which increases urinary excretion of sodium, water and serum potassium[63]. Oral furosemide may, then, be added, once the serum potassium normalizes without further need for potassium supplementation. If azotemia occurs, diuretics should be discontinued and the patients should be evaluated for a hepatorenal syndrome. There may be a component of malabsorption of vitamin K due to jaundice in addition to poor synthesis of coagulation components by the diseased liver. Three daily doses of vitamin K (10 mg) intravenously or subcutaneously usually decrease the international normalized ratio (INR). Oral dosing of vitamin K is not effective because of the poor absorption in the setting of deep jaundice[37]. Finally, considering the potential risk of Wernicke’s encephalopathy, the supplementation with B-complex vitamins is needed[64].

Total alcohol abstinence represents the cornerstone in the treatment strategy for the patients affected by severe AH. This point in the clinical practice is often problematic, especially when these patients present a psychiatric diagnosis of AUD. Medical recommendations and/or brief interventions may not be sufficient to achieve and maintain the abstinence when a diagnosis of dependence is present. Therefore, the need to add pharmacological approaches has been emphasized in the last decades. As a consequence, pharmacotherapy of AUD is undergoing a period of the scientific development. Several drugs that can reduce alcohol craving, and consequently, can increase abstinence and prevent alcohol relapse have been evaluated[65]. In particular, disulfiram, naltrexone, and acamprosate have been approved for AUD. However, these medications might worsen liver disease[66].

Baclofen is a GABA_B receptor antagonist that represents a new alcohol pharmacotherapy. Several pre-clinical and clinical studies demonstrated that baclofen could represent an effective drug to treat the AUD patients[67,68]. In particular, this drug was shown to reduce alcohol withdrawal symptoms, as well as to reduce alcohol craving and intake and to promote alcohol abstinence[69]. Notably, baclofen showed a safe profile when administered to the alcoholics, including those with liver cirrhosis. In a randomized, double-blind, controlled study, we evaluated the efficacy of baclofen for the maintenance of alcohol abstinence in 148 alcohol-dependent patients with liver cirrhosis. The subjects were randomized to either oral baclofen (10 mg 3 times a day) or placebo for 12 wk. Of 42 patients treated with baclofen, 71% achieved and maintained abstinence compared with 29% of 42 patients assigned to the placebo group[70]. The appropriate dosing of baclofen is still being debated. The secondary analysis with baclofen in the patients without underlying liver disease, have shown a dose-effect relationship of the drug on the reduction of daily alcohol intake and on the number of drinks per drinking day[69]. In this regard, it should be taken into account that the safety of the drug in the alcoholic patients with alcoholic hepatitis has also been reported recently by Avanesyan[71].

Orthotopic liver transplantation (OLT) is a possible therapeutic option for severe AH in the non-responder patients. The OLT is the last treatment option for the patients with end-stage liver disease who have a greater than 10% risk of dying[42]. The patients with severe AH who do not respond to GCs or pentoxifylline have a mortality of 50% to 75% within 6 mo[72]. Several Centers have proposed that this is a rescue option for the patients with severe AH who do not respond to medical therapies. However, the risk of recidivism of AUD still represents the major ethical concern about the usefulness of the OLT in alcoholic patients. The outcomes and in particular the survival rate, are better than other causes of the end-stage liver disease, especially if recidivism does not occur[73]. Even when the recidivism is present, the risks of developing the ALD and graft loss are unpredictable, due to the modifications in the susceptibility to alcohol damage secondary to the OLT. A period of 6-mo in total alcohol abstinence before the OLT is proposed as a strategy to reduce the risk of recidivism. However, this strategy is not evidence based and it is not accepted worldwide[65]. Recently, a prospective multicenter study showed that the early OLT clearly improved the 6-mo survival in the patients with a first episode of severe AH not responding to medical treatment[74]. In our opinion, the 6-mo rule should not be considered as a predictor of a recidivism risk, but as a recovery period. In particular, with all its limitations, the 6-mo rule should be used to test the possible improvement of liver function, which could avoid the OLT. When liver function does not allow for a 6-mo waiting time, such as in the patients with severe AH or with the advanced ALD, the pre-OLT abstinence time should be shortened, at least in the patients strictly followed by an alcohol addiction unit (AAU)[74,75]. The management of the alcoholic patients with the end-stage ALD listed for the OLT by an AAU within a liver transplant Centre could represent a useful strategy to reduce the risk of alcohol recidivism both before and after the transplantation.