Evaluation for liver transplantation in adults: 2013 practice guideline by the American Association for the Study of Liver Diseases and the American Society of Transplantation

This practice guideline has been approved by the American Association for the Study of Liver Diseases and the American Society of Transplantation and represents the position of both Associations. Guidelines on Evaluation for Liver Transplantation (LT) were published in 2005 by the American Association for the Study of Liver Diseases (AASLD).1 In the interim there have been major advances in the management of chronic liver disease, most notably in antiviral therapy for chronic viral hepatitis. Nonalcoholic fatty liver disease (NAFLD) has assumed increasing prominence as a cause of cirrhosis and hepatocellular carcinoma (HCC) requiring liver transplant.2 Furthermore, individual disease indications for LT such as HCC have been refined3 and specific guidelines have appeared for chronic viral hepatitis.4 Reflecting the need for a multidisciplinary approach to the evaluation of this complex group of patients who have the comorbidities typical of middle age, recommendations have been developed to assist in their cardiac management.5 With an increasing number of long-term survivors of LT there has been a greater focus on quality of life and attention to comorbid conditions impacting recipient longevity.6 The purpose of the current Guidelines is to provide an evidence-based set of recommendations for the evaluation of adult patients who are potentially candidates for LT. These recommendations provide a data-supported approach. They are based on the following: (1) formal review and analysis of the recently published world literature on the topic; (2) guideline policies covered by the AASLD-Policy on Development and Use of Practice Guidelines; and (3) the experience of the authors in the specified topic. Intended for use by physicians, these recommendations suggest preferred approaches to the diagnostic, therapeutic and preventive aspects of care. They are intended to be flexible, in contrast to standards of care, which are inflexible policies to be followed in every case. Specific recommendations are based on relevant published information. To more fully characterize the available evidence supporting the recommendations, the AASLD Practice Guidelines Committee has adopted the classification used by the Grading of Recommendation Assessment, Development, and Evaluation (GRADE) workgroup with minor modifications (Table 1). The classifications and recommendations are based on three categories: the source of evidence in levels I through III; the quality of evidence designated by high (A), moderate (B), or low quality (C); and the strength of recommendations classified as strong or weak.11 Guyatt GH, Oxman AD, Vist GE, Kunz R, Falck-Ytter Y, Alono-Coello P, et al. GRADE: an emerging consensus on rating quality of evidence and strength of recommendations. BMJ 2008;336:924–926. The literature databases and the search strategies are outlined below. The resulting literature database was available to all members of the writing group. They selected references within their field of expertise and experience and graded the references according to the GRADE system. The selection of references for the guideline was based on a validation of the appropriateness of the study design for the stated purpose, a relevant number of patients under study, and confidence in the participating centers and authors. References on original data were preferred and those that were found unsatisfactory in any of these respects were excluded from further evaluation. There may be limitations in this approach when recommendations are needed on rare problems or problems on which scant original data are available. In such cases it may be necessary to rely on less qualified references with a low grading. Due to the important changes in the treatment of complications of cirrhosis (renal failure, infections, variceal bleeding), studies performed more than 30 years ago have generally not been considered for these guidelines. The funding for the development of this Practice Guideline was provided by the American Association for the Study of Liver Diseases. Liver disease is the twelfth commonest cause of mortality in adults in the United States, resulting in 34,000 deaths annually from cirrhosis.7 In addition, the rising incidence of HCC in the United States is reflected in an increasing number of deaths from HCC. Access to LT, however, has profoundly altered the management of advanced liver disease. Management of decompensated cirrhosis and acute liver failure before the advent of LT was limited to attempts to ameliorate complications. In contrast, successful LT extends life expectancy and enhances quality of life.6 The term orthotopic liver transplantation (OLT) refers to placement of the new organ in the same location as the explanted liver. Although most LT recipients receive a whole organ from a deceased donor, an organ can be "split," with a pediatric recipient receiving a left lateral segment and an adult recipient the larger right lobe. Live donor transplant using the left hepatic lobe initially introduced for pediatric recipients has been extended into adult recipients using the donor's right lobe. Although live donor transplant is widely employed, it remains controversial, with continuing concern about potential risks to the donor, especially when right lobe resection is required for an adult recipient.8-10 Recipients of live donor transplant have reduced waiting list mortality compared to potential recipients of deceased donor organs.11 Live donor transplant should only be contemplated when LT with a deceased donor is unlikely to occur within a reasonable time frame given the severity of the potential candidate's liver disease. Irrespective of the source of the graft, deceased or live, LT is a surgically challenging procedure with dissection and removal of a diseased liver from an abdominal cavity with extensive venous collaterals due to portal hypertension with subsequent implantation of the graft and creation of vascular and biliary anastomoses. Reflecting the complexity of surgery in recipients who are often debilitated because of their advanced liver disease, a number of technical complications can occur as well as a variety of adverse effects from therapeutic immunosuppression. Despite these concerns, however, LT has revolutionized the management of severe liver disease. The United Network for Organ Sharing (UNOS) facilitates organ allocation in the United States and also records graft and recipient outcomes. The UNOS database allows critical evaluation of center- and disease-specific recipient outcomes with LT as well as guiding organ allocation policies. Analogous organizations are involved in organ allocation and data collection in other regions of the world. The greatest challenge in LT remains the inadequate supply of donor organs, limiting access to LT for many potential recipients. LT is indicated for severe acute or advanced chronic liver disease when the limits of medical therapy have been reached (see Table 2). Recognition of cirrhosis per se does not imply a need for LT. Many patients with cirrhosis in the absence of an index complication such as ascites or variceal hemorrhage will not develop hepatic decompensation, although patients with cirrhosis have diminished survival compared to the population as a whole.12, 13 Occurrence of a major complication is an important predictor of decreased survival and should prompt discussion about a possible role for LT.14 However, in many types of liver disease there is the potential for improvement even when major complications have already occurred. A patient with cirrhosis who has suffered a variceal hemorrhage may develop additional complications such as ascites following vigorous fluid resuscitation but with control of bleeding and diuretic therapy the patient's condition may dramatically improve. Similarly, an alcoholic patient with florid hepatic decompensation may have resolution of jaundice and other signs of advanced liver disease with protracted alcohol abstinence. Thus, even in a patient with marked hepatic decompensation LT may be deferred or even avoided if medical therapy is effective. Examples of specific therapies, which may markedly improve hepatocellular function, include oral antiviral agents for hepatitis B infection or corticosteroids for autoimmune hepatitis. However, even if there is a potentially reversible component to hepatic decompensation, LT evaluation should not be deferred if otherwise indicated, as improvement is not invariable even with specific therapy. For certain diseases, notably primary biliary cirrhosis and primary sclerosing cholangitis, prognostic models are available which incorporate readily available clinical and biochemical parameters. For cirrhosis of other etiologies, the Child-Pugh Score had been used to assess prognosis but has been increasingly superseded by the Model for Endstage Liver Disease (MELD).15 The MELD score was initially devised to evaluate 3-month prognosis in patients with cirrhosis undergoing a transjugular intrahepatic portosystemic shunt (TIPS) procedure.16, 17 It is a mathematical model that incorporates serum creatinine and bilirubin levels with the international normalized ratio (INR) of prothrombin time. The MELD score is on a continuous scale from 6 to 40 that corresponded to a 3-month survival of 90% to 7%, respectively. The MELD score is now used to assess prognosis in cirrhosis in a variety of settings, including organ allocation for LT, and can be calculated for individual patients at online sites, including www.UNOS.org. As discussed in the AASLD Pediatric Guidelines, an analogous formula has been validated for children with liver disease omitting serum creatinine but additionally incorporating age, serum albumin, and growth failure. Application of the MELD score has determined that the risk of deceased donor LT in patients with a MELD 70% stenosis) is detected, revascularization may be attempted prior to LT, although rigorous proof of benefit in asymptomatic recipients is lacking. Cardiac surgery carries an increased risk in patients with cirrhosis, especially with more decompensated disease.16 Coronary artery stenting is increasingly performed prior to LT. Bare metal stents are favored to avoid the need for dual antiplatelet therapy (clopidogrel plus aspirin rather than the latter alone), although the requirement for antiplatelet agents to prevent stent occlusion may delay LT.30 Of note, recent data demonstrates superior outcomes in patients who have undergone cardiac stenting with single vessel disease compared to outcomes for patients with prior CABG for multivessel disease.30 The cardiac evaluation may also need to address other entities including valvular heart disease and ventricular dysfunction, which may be of such severity to preclude LT. Anecdotally, aortic valve replacement has been performed simultaneously with LT; however, current medical therapies may sufficiently improve ventricular function to permit safe LT.31 Unsuspected pulmonary hypertension as discussed subsequently may be initially detected by echocardiography during the LT evaluation. 6. Cardiac evaluation needs to include assessment of cardiac risk factors with stress echocardiography as an initial screening test with cardiac catheterization as clinically indicated (1-B). 7. Cardiac revascularization should be considered in LT candidates with significant coronary artery stenosis prior to transplant (2-C). Physiological, not chronological, age determines whether an older patient can be accepted for LT, with careful attention to comorbidities and functional status.32 Overall outcomes are acceptable in recipients >70 years of age, although they are inferior to those in younger age groups.33 8. In the absence of significant comorbidities, older recipient age (>70 years) is not a contraindication to LT (2-B). Pulmonary hypertension, an elevation of the mean pulmonary artery pressure (MPAP) ≥25 mmHg, occurring in the presence of portal hypertension, is referred to as portopulmonary hypertension (POPH).34, 35 It is not correlated with the severity of or etiology of portal hypertension. POPH is detected in 4-8% of LT candidates.36 Mild POPH, MPAP 35 mmHg and 100% with MPAP >50 mmHg.37 Other causes of pulmonary hypertension need to be excluded, including left heart failure, recurrent pulmonary emboli, and sleep apnea. Contrast enhanced echocardiography is the initial screening test to estimate right ventricular systolic pressure (RVSP), with right heart catheterization as the gold standard confirmatory definitive test. In addition to demonstrating an elevated MPAP >35 mmHg, it should also an elevated pulmonary vascular and a pulmonary pressure of POPH not of LT, but mortality rate with more However, if MPAP can be reduced by therapy to less than 35 mmHg and LT is with acceptable POPH can potentially improve with LT and therapy can be in a of recipients. POPH should be excluded in LT candidates by For ≥45 right heart cardiac catheterization is (1-B). Potential recipients with POPH should be by a pulmonary or cardiac for therapy (1-A). LT can be to potential recipients with POPH, which to medical therapy with an MPAP mmHg (1-B). syndrome resulting from in the of chronic liver disease portal hypertension to can be by contrast echocardiography or by is found in of adult liver transplant LT a survival benefit in with of LT recipients at the Mayo Clinic years compared to of patients with severity of and liver disease who were not LT in all patients who more than 6 although perioperative mortality to be high in those with severe with a mmHg or in with an shunt of greater than 20% predictors of increased mortality after LT. recent experience that more severe the need for and a rather than increased mortality Organ a MELD score of for patients with evidence of portal hypertension, and a mmHg, with a mortality increase in every 3 months if the remains of LT candidates by is indicated to patients with a mmHg, using a of at level to complete evaluation of patients of should include a contrast and an evaluation to exclude causes for including pulmonary function and to of 100% with a and may be used to the ability to provide in the perioperative period but does not to is in patients for LT and should be for by (1-A). The presence of severe is associated with increased mortality and should undergo LT evaluation The of renal dysfunction in a patient with cirrhosis has a on with a increase in the risk of In a recent the risk of increased in patients with renal dysfunction, with 50% of patients with cirrhosis within a of the of renal The of renal failure in patients with cirrhosis is and renal disease, most syndrome A recent group has proposed the following of renal dysfunction liver acute that all causes of acute of renal function with an increase in serum creatinine of from or a rise in serum creatinine of in renal disease is as an rate of calculated using the of in Disease 6 Evaluation of renal dysfunction in patients with decompensated cirrhosis should include an of the rate and determination of the etiology as it prognosis both with and without LT. In a recent study of patients with cirrhosis and renal dysfunction, survival was in patients with those without the of MELD for organ allocation the number of simultaneous liver has increased from to in and to of the increased use of renal in LT a of to evaluate and the most appropriate indications for was for (1) renal disease etiology with (2) liver failure with chronic disease and (3) acute or with creatinine and for or liver failure with and renal demonstrating or These recommendations may with increased experience of dysfunction vigorous evaluation prior to LT to etiology and prognosis (1-A). transplantation is indicated for LT candidates in renal failure with or acute with or if extensive is (1-B). is implicated in a number of adverse outcomes in LT recipients including cardiovascular and an increased incidence of hepatic artery although the risk of the latter with by within 2 years of in and other following LT are also to and can result in significant potentially long-term use is in patients with a history of liver disease, the use of which is associated with is not well There are to all use in LT and a condition for for LT and require for should be in LT candidates (1-A). LT recipients are at increased risk of a variety of In an LT recipient with a treatment should have been and time should have to exclude The has a database of outcomes after LT in recipients with a variety of and can an appropriate for LT candidates with a history of The from to treatment and subsequent to transplant on the of and the proposed evidence-based of LT candidates should undergo screening for including and In candidates with risk factors for additional screening should be considered such as evaluation and in current or prior LT candidates with a prior should have definitive treatment with survival prior to for LT (1-B). should undergo age and risk (1-A). Due to hepatocellular dysfunction, LT candidates are at increased risk of a variety of infections, including and infection needs to be treated before LT can be As of the transplant evaluation, a candidate should be for viral including and as discussed A and B should be and vaccination performed if testing for virus and is also and should be for can be by testing or such as or If is detected, therapy is indicated with plus for a 3-month of and or for There had been about with but more recent experience with has been in LT candidates with if detected, needs to be treated In such as the American is screening is if for infection should be excluded and prophylaxis with contrast, screening for or is not and treatment for a result should be discussed with the screening for is indicated in candidates with a history of in patients who are