Preventing Variceal Bleeding in Infants and Children: Is Less More?

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Preventing Variceal Bleeding in Infants and Children: Is Less More? See “Experience with endoscopic management of high-risk gastroesophageal varices with and without bleeding in children with biliary atresia,” by Duche M, Ducot B, Ackermann O, et al, on page 000.

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n this issue of GASTROENTEROLOGY, Duche et al1 report their retrospective experience with endoscopic management of esophageal varices in 66 young children (mean age, <2 years old) with biliary atresia and portal hypertension: 36 who had never bled undergoing preventative endoscopic management (primary prophylaxis), and 30 who had a prior variceal bleed and were undergoing endoscopic secondary prophylaxis. After 4–5 sessions of endoscopic variceal band ligation (EVL; or sclerotherapy early in the study and in children < w8 kg), none of the children receiving primary prophylaxis bled after eradication of varices and only 10% of the secondary prophylaxis group had breakthrough bleeding. Varices could not be eradicated in about 25% of both groups. Early bleeding during treatment occurred in 6% of the primary prophylaxis group and 17% of the secondary prophylaxis group. Of the primary prophylaxis group, 58% underwent liver transplantation, whereas 76% of the secondary prophylaxis group was transplanted. Varices reappeared in about 40% in both groups. Based on these data, the authors recommend screening endoscopy and primary prophylaxis with endoscopic therapy in children with high-risk varices (Figure 1). Adult guidelines for the management of esophageal varices in patients with cirrhosis are clear and are predicated on reducing the morbidity and mortality of variceal bleeding.2 Screening endoscopy for varices is recommended upon diagnosis of cirrhosis. In the patient who has never bled, if small varices are present, along with bleeding risk factors such as Child’s class B/C or red wale marks on varices, nonselective b-blocker prophylaxis is recommended. When large varices are seen, b-blockers or EVL are recommended for those with bleeding risk factors, whereas b-blockers are preferred for those without risk factors. b-Blockers are titrated to the maximum tolerated dose. In the adult patient who has already had an esophageal variceal hemorrhage, secondary prophylaxis with combination therapy—a b-blocker and EVL—is recommended, with close endoscopic follow-up. Transjugular intrahepatic portosystemic shunting (or even surgical shunting) is recommended in Child’s A/B patients who continue bleeding despite prophylaxis. Large, randomized, controlled trials and meta-analyses have studied these issues. For example, a 1999

meta-analysis including 1189 patients showed a bleeding rate of 30% among patients who did not receive primary prophylaxis and 14% in patients who received b-blockers.3 A 2005 meta-analysis including 600 adult cirrhotics who had never bled demonstrated a lower bleeding rate when treated with EVL instead of propranolol, with fewer adverse events but similar mortality.4 In a more recent meta-analysis evaluating randomized, controlled trials including 1860 adult cirrhotics with a history of variceal bleeding, combination therapy with a b-blocker and band ligation was superior to band ligation alone in preventing rebleeding.5 Pediatric data on management of varices (especially primary prophylaxis), in contrast, are limited. The diseases that cause cirrhosis in children differ from those that cause it in adults; more than half of childhood cirrhotics have biliary atresia, developing cirrhosis and portal hypertension in the first years of life, often but not always after the Kasai operation fails to achieve adequate bile flow. Evolving investigations have identified “prediction rules” using platelets, spleen size, and albumin that are fairly accurate in predicting the presence or absence of varices.6–8 Recent studies have also provided initial descriptions of variceal appearance and subsequent risk of hemorrhage in children.9,10 Although it is clear that endoscopic primary prophylaxis of varices in children is feasible, screening endoscopy is not universally recommended or implemented in children.11 Limited data indicate that as many as 70%–90% of children with biliary atresia, often in the first years of life, do have varices when endoscopy is performed.9,10 Twenty to thirty percent (or more) of children with biliary atresia have variceal bleeding, often early in their lives9,10,12,13; some of these children have ascites and other evidence of end-stage liver disease, whereas others have preserved synthetic function and normal bilirubin. Experienced pediatric hepatologists acknowledge that death from first variceal bleeding in children is rare; in several small published series, death from uncontrolled bleeding is 2%–5%, with additional mortality owing to underlying liver disease in more children.10,14–17 To date, information on prophylaxis of gastrointestinal bleeding in children is scarce. In contrast with the experience in adults, studies of propranolol prophylaxis are extremely limited, uncontrolled, and not convincingly effective.18 Appropriate pediatric dosing of propranolol and its effects on hemodynamics in children are unknown. The pediatric literature on primary endoscopic prophylaxis includes sclerotherapy and EVL, including 1 randomized, controlled trial (100 children), which demonstrated the possibility of achieving a lower rate of bleeding in those undergoing sclerotherapy compared with controls.18,19 No GASTROENTEROLOGY 2013;-:1–4

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Figure 1. Outcome of primary and secondary prophylaxis of variceal bleeding in 66 children with portal hypertension.

effect on mortality could be shown in that study. A number of small case series of children who have already undergone a variceal bleed report a low rate of rebleeding after EVL.20 A randomized, controlled trial in 49 children comparing sclerotherapy to EVL showed rebleeding in 25% versus 4%.21 Esophageal perforation, ulceration, and stricture formation have been reported after endoscopic treatment of varices in children.10,22 Notably, general anesthesia is usually required in children, and smaller children (<2 years old) have required sclerotherapy with its attendant morbidity. Although data are limited, most pediatric hepatologists would agree that secondary prophylaxis of the child who has had a variceal hemorrhage is reasonable, given the historically high rebleeding rate and the excellent adult data in support of it. Primary prophylaxis in children deserves more debate, however. The findings reported in this issue of GASTROENTEROLOGY’s young (but heterogeneous) group of biliary atresia infants may not be generalizable to other cirrhotic conditions of childhood (or to extrahepatic portal vein obstruction, which is not addressed in this editorial). These children had a mean bilirubin of >10 mg/dL, and 20% had ascites; these parameters would be expected to be associated with a greater risk of bleeding and perhaps greater mortality.12,23–25 A very experienced endoscopist performed the procedures while administering octreotide during an average of four 3-day hospitalizations. Two of the children bled during the process of eliminating the varices,

possibly from ulcers induced by the procedure. Serious complications of EVL were not reported in this group. Within an average of 14 months, more than half of both groups of children undergoing primary prophylaxis and secondary prophylaxis were transplanted. Varices could not be eradicated in one quarter of the children. The recurrence of varices after eradication was very high at 37%. From this perspective, several factors must be considered in evaluating the merits of primary prophylaxis of variceal bleeding in children. Foremost, the risk of mortality of children with a first variceal bleed is low (see references above), partly because underlying liver disease may be well-compensated at onset of bleeding and because comorbidities typically seen in adults are often absent. The risks of endoscopic treatment in children may exceed those in adults; these uncommonly performed procedures in small patients require general anesthesia, multiple procedures, and sometimes sclerotherapy, not to mention a 3-day hospital admission in the present report. We need to weigh the risks and benefits of multiple procedures in a nonbleeding child who may not bleed for years, when varices have a high chance of recurring and transplant is frequently imminent.13,24 Because mortality from gastrointestinal bleeding in children is quite low (zero in this small study), we may need to consider a “wait and watch” approach, taking other issues such as other features of advancing liver disease, failure to thrive, neurodevelopmental impact, and fat-soluble vitamin deficiencies into consideration when weighing primary prophylaxis of variceal bleeding versus more aggressive transplantation. For example, if a failed Kasai operation is an indication for transplantation, the issue of primary prophylaxis may become moot. These considerations argue against a recommendation of routine screening endoscopy and/or primary endoscopic prophylactic therapy for children with biliary atresia, cirrhosis, and portal hypertension. After a first variceal bleed, secondary endoscopic prophylaxis can be initiated, with prompt listing for liver transplantation for those children in whom hepatic decompensation is present or imminent (eg, in the setting of a failed Kasai procedure). This study highlights the need for future research in pediatric liver disease. Liver diseases in childhood are often mechanistically different from those in adulthood; pathophysiologic mechanisms of fibrosis and angiogenesis may differ.26 Unanswered questions include: (1) Which children are at most risk for bleeding and for worse outcomes after bleeding? Ideally, those children who will bleed would be identified noninvasively and parameters such as bilirubin and ascites can indicate increased morbidity of bleeding.12,27 (2) Is EVL effective in preventing first bleeding in children and more importantly what is the impact of this on long-term outcome? A randomized, controlled trial would be ideal, but the

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numerous obstacles to such a solution include the rarity of the condition, lack of standardization as to EVL schedule, and difficulties in recruitment.18 We need to determine whether the risk/benefit ratio truly favors proceeding with EVL in these children who have never experienced a variceal hemorrhage. It will also be important to study whether gastric and ectopic varices then become problematic in children who have had eradication of esophageal varices. (3) Which children would be better served by undergoing liver transplantation, avoiding an expensive and risky series of endoscopies? The trite adage is that children are not just small adults; indeed, we need to know how to manage portal hypertension in children. Given the limitations in pediatric research, creative trial designs are necessary to address this important question. Even multicenter research networks like the Cholestatic Liver Diseases Research and Education Network (ChiLDREN), following >1000 children with biliary atresia, face enormous obstacles to studying portal hypertension and its management. And yet, this kind of collaboration is the only way to determine if therapies so clearly effective when studied in hundreds of adults can be safely applied to helping children.

JEAN PAPPAS MOLLESTON Department of Clinical Pediatrics Pediatric Gastroenterology, Hepatology and Nutrition Indiana University School of Medicine Riley Hospital for Children Indianapolis, Indiana BENJAMIN L. SHNEIDER Department of Pediatrics, Pediatric Hepatology University of Pittsburgh of UPMC Children’s Hospital of Pittsburgh Pittsburgh, Pennsylvania

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27. Gana JC, Turner D, Avitzur Y, et al. Prediction of esophageal variceal bleeding in children [abstract]. Gastroenterology 2009;136:A825.

Hospital for Children, 705 Riley Hospital Drive – ROC 4210, Indianapolis, Indiana 46202. e-mail: [email protected].

Reprint requests Address requests for reprints to: Jean Pappas Molleston, MD, Professor of Clinical Pediatrics, Director, Pediatric Gastroenterology, Hepatology and Nutrition, Indiana University School of Medicine, Riley

Conflicts of interest The author discloses no conflicts. © 2013 by the AGA Institute 0016-5085/$36.00 http://dx.doi.org/10.1053/j.gastro.2013.08.026

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