Category Archives: Pediatric Gastroenterology Liver Disease

Pediatric HCV Guidelines

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A useful recent article, ‘NASPGHAN Practice Guidelines for pediatric HCV’ (JPGN 2012; 54: 838-55) needs to be a handy reference.  However, given the rapid changes in the HCV field, it is likely that this reference will need to be updated soon to incorporate new information (eg. IL28b) as well as emerging therapies.

Highlights:

Epidemiology: 0.2% of children & 0.4% of adolescents are HCV-infected; primary mode is mother to child (vertical) transmission which occurs in 5-7% if mother not coinfected with HIV

Testing: For infants of HCV-infected mothers, check HCV antibody after 18 months or HCV RNA at younger ages.  Need two negative HCV RNAs to exclude infection (guidelines suggest checking 6 months apart).  Most individuals should be screened with antibody testing and confirmed with RNA test.

Screening for HCC (U/S, AFP): suggested only “for those with significant liver disease (ie. cirrhosis)” due to rarity of HCC in pediatric HCC.

Treatment:

  • Not if patient younger than 3 years
  • Probably Pegylated-interferon with ribavirin –references for pediatric studies indicate response rates of about 50% for genotype 1 and about 80% for types 2 & 3.
  • Who should be treated? Not always clear.  Probably those with elevated aminotransferases or progressive disease based on liver biopsy.  Possibly those with mild disease to eradicate virus.
  • Dosing: ribavirin  15/kg/day divided twice daily; weekly PEG-IFN-α-2a 180 microgram/1.73 m2 or weekly PEG-IFN-α-2b 60 microgram*m2

Treatment monitoring (Table 8):

  • CBC/diff, Hepatic panel, glucose 0, 1, 2, 4, 8, 12 weeks, then every  4-8 weeks
  • T4/TSH 0, 12, 24, 36, 48 weeks
  • Urine HCG 0, 24 weeks (if female >12 years)
  • Prothrombin, Urinalysis at week 0
  • HCV RNA 0, 24, 48, 72 weeks

Anticipatory Guidance: “no legal requirement” to disclose HCV infection in U.S.; however, CDC suggests revealing this information to sexual partners (http://www.cdc.gov/hepatitis/hcv/)

  • Avoid sharing toothbrush, shaving equipment with household contacts, unprotected sexual activity with multiple partners, tattooing/piercing
  • Do not need to screen household or casual contacts

Special issues:

  • Vaccines: HCV patients should receive all standard vaccines
  • Obesity and alcohol both can worsen the outcome
  • Fetal scalp probes and prolonged rupture of membranes but not route of delivery may increase risk of HCV transmission
  • Breastfeeding is not contraindicated but should be avoided during mastitis/bleeding

Additional related blog links:

HCV now more deadly than HIV

The cost of progress in treating Hepatitis C

Increased ferritin predicts poor response in Hepatitis C

Curing Hepatitis C without interferon

Looking for trouble

Additional references:

  • Hepatology 2011; 54: 1433. AASLD guidelines.  See teleprevir & boceprevir as well.-http://www.aasld.org/eweb/docs/hepatitisc
  • -Hepatology 2011; 53: 1468. PEG/RBV have minimal effect on QOL/cognitive/emotional outcomes, n=114.
  • -Gastroenterology 2011; 140: 389, 450-58. HEP-C STUDY. Comb RBV (15mg/kg div BID) & PEG-2a (180mcg/1.73m2 body surface q week) is better than PEG monotherapy. 53% SVR in combo group. Neutropenia in 40% –needed to reduce dose see below). “The Combination of Ribavirin and Peginterferon Is Superior to Peginterferon and Placebo for Children and Adolescents With Chronic Hepatitis C.”
  • -Hepatology 2009; 49: 1335. Comprehensive review and guidelines
  • -J Hepatology 2010; 52: 501-07. n=107. Pediatric study. Wirth et al. Efficacy of PEG alfa-2b (1.5/g/d) & RBV (15/kg/day): Genotypes 2/3 96% SVR, genotype 1 55%.
  • -JPGN 2006; 43: 499.  Study of PEG-IFN-α-2a in children.  dose BSA m2/1.73 x 180microgm weekly x 48 weeks.  6/14 (43%) had sustained response.  all genotype 1.  Article states that IFN (3/week) + RBV has now been approved by FDA for those over 3 years

PEG-Interferon Dosing:

Dosing adjustment from hep C study in children –needed in ~40%

PEG -2a
original: 180mcg/1.73m2
1. level 1: 135 mcg, level 2: 90mcg, level 3: 45 mcg

If ANC 750-999 week 1-2: level 1 adjustment, weeks >3: no adjustment
If ANC 500-749: week 1-2: hold dose ’til >750, then level 1; weeks >3, level 1 adjustment
If ANC 250-499: week 1-2, hold until >750, then level 2 adjustment, weeks >3, then hold ’til 750, then level 1 adjustment
If ANC <250, stop drug

If PLTs 35-49K, hold til >50, then level 1
If PLTs 25-34, hold til >50, then level 2
If PLTs <25, stop drug

If Hgb <10, reduce RIBA dose by 1/2 & increase dose when hgb>10
If hgb <8.5, stop RIBA

If indirect bili >5, stop drug.  If <2.5, restart dose at one-half and if remains less than 2.5, can resume full dose after 4 weeks.

IF ALT 5-10 ULN, recheck in 1 week.  If stays high, level 1 adjustment.
IF ALT10 ULN for more than 1 week, then if drops to 5-10, level 1 but if remains >10 ULN, then stop drug.

Side effect frequency:
flu symptoms: 91%, h/a, 62%, GI symptoms 56%, injection pain 45%, muscle aches 36%, irritable 31%, fatigue 27%, rash 20%, itching 15%, anorexia 13%, trouble sleeping 11%, depression 4-12%

HAV vaccination: how long will it take?

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Despite the availability of a safe and effective vaccine, immunization rates in the U.S. remain poor (Pediatrics 2012; 129: 213-221).

In this study which included data from the 2009 National Immunization Survey-Teen, hepatitis A virus (HAV) vaccination  coverage was examined in adolescents 13-17 years of age.  The national coverage for at least 1 dose was 42%; 70% of these vaccinees completed the 2-dose series.  For Georgia, the rates were similar to national data: the 1-dose receipt % was 42.5% and the 2-dose receipt % was 26.3%; 62% completion of 2 doses.

More specific breakdown of coverage rates:

  • 74.3% from 11 states that recommended universal HAV vaccination since 1999
  • 54% from 6 states that recommended consideration of HAV vaccination since 1999 & universal coverage since 2006
  • 27.8% for 33 states that recommended universal vaccination since 2006

While acute HAV rates have been declining, in 2009 there were 1987 reported cases; the CDC estimates that the total number of cases was 21,000 (due to underreporting and asymptomatic cases).  The highest rates of disease were in young adults between 20-29 years of age.

This data is disappointing. Yet, extrapolation from this data indicates that national coverage in seven years, when all states will have had 10 years to implement universal vaccination to young children, could be markedly better.

Additional references:

  • -NEJM 2007; 357: 1685. HAV vaccine effective in preventing cases of HAV after exposure (as good as IVIG). Low rates of HAV c postexposure prophylaxis c HAV vaccine (4.4%) or immune globulin (3.3%). n=1090.
  • -MMWR 2007; 56: 1080-84. Updated recs for IVIG -use only for exposures in infants <12months, immunocompromised persons, persons with chronic liver disease, or persons w contraindications to HAV vaccine.
  • -Pediatrics 2007; 120: 189. Recs from AAP. Recs for vaccine — all children at 1 year of age in US w 2-dose regimen; w/in 1 mo of 1st dose 97% of children & 95% of adults develop protective antibody. VAERS (adverse rxns) 800-822-7967 for forms.
  • -Pediatrics 2007; 119; e12, e22. HAV vaccine is cost-effective.
  • -MMWR 2007; 56: No. SS-3. drop in new infections by 80% compared to previous nadir; HAV 1.5/100,000 & HBV 1.8/100,000
  • -Hepatology 2006; 44: 1589. Decreasing incidence of fulminant HAV ; between 1988-2005, decrease of HAV in UNOS database from 0.7% to 0.1%. Risk factors for severe disease: creatinine >2, ALT <2600, intubation, pressors.
  • -J Pediatr 2004; 144: 327. Maternal antibody decrease HAV vaccine response when administered at 2, 4 & 6 months.
  • -Am J Gastroent 2002; 97: 721-8. ? cost-effective to vaccinate HCV pts; however, ~35% FHF risk if secondarily infected.

Colonic disease and PSC

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While primary sclerosing cholangitis (PSC) has been associated with inflammatory bowel disease, and ulcerative colitis (UC) in particular, the pathogenesis of this relationship has not been established.  A fascinating observation on this relationship is that an inflamed colon is important in PSC development (Clin Gastroenterol Hepatol 2012; 10: 439-41).

In this study which reviewed 2754 Irish patients with IBD, 59 (2.2%) had PSC.  PSC incidence correlated with increasing colonic involvement.  Among the 13 patients with Crohn’s disease, none had isolated small bowel disease.  The second part of the study involved a review of 82 separate PSC patients attending the Irish National liver transplant unit.  The majority of ulcerative colitis patients had a pancolitis; all 10 PSC patients with Crohn’s disease had colonic involvement.

Since PSC occurs without IBD, colonic inflammation is not necessary for PSC development.  However, in patients with IBD, colonic inflammation is very important.  In fact, in a previous study of 53 PSC-IBD patients, no UC patient status post a colectomy had recurrent liver disease following liver transplantation whereas seven patients with intact colons had recurrent disease following liver transplantation.

The authors speculate that bacterial translocation along with subsequent portal bacteremia may be an important step in pathogenesis among these patients.

Additional references/previous posts:

More on perinatal HBV

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In addition to a recent blog entry (How to stop HBV vertical transmission), several other recent articles add information about HBV vertical transmission:

  • Gastroenterology 2012; 142: 773-81.  Data from 2386 Taiwanese children born to HBsAg-positive mothers were examined.  HBeAg-positivity increased the likelihood of having an HBV-infected infant (9.26%) despite appropriate immunization & HBIG.  Since HBeAg-posiitivity is associated with higher HBV DNA levels, this is logical based on previous studies. Fulminant HBV developed in 1 of 1050 children who did not receive HBIG; in this study, the majority of mothers with HBeAg-negative HBV did not receive HBIG.
  • Pediatrics 2012; 129: 609-16.  This study examined HBV prevention in the U.S. from 1994-2008.  The CDC created the US Perinatal Hepatitis B Prevention Program (PHBPP) to accelerate progress at eliminating perinatal HBV transmission.  While the number of infants born to HBsAg-positive women with HBV increased from 19,208 to 25,600, the incidence of infants with chronic hepatitis B virus infection among tested infants decreased from 2.1% in 1999 to 0.8% in 2008.  This is due to the fact that 94.4% of PHBPP-managed infants received HBV vaccine and HBIG within 1 day of birth.  Yet, gaps remain.  The number of infants who completed the vaccine series by 12 months actually declined from 86% (1994) to 77.7% (2008). And, in 2008 only one-quarter of CDC’s 25,6000 infants born to HBsAg-positive women had known serologic outcomes.

Related previous post: Looking for trouble

Alive and well? 10 years after liver transplantation

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As survival has improved with liver transplantation (LT), long-term health outcomes have become more important.  Reported 5-year survival rate after pediatric LT in North America is >85%.  More data on long-term health consequences are provided in a review of 167 10-year survivors from a North American Database (Studies of Pediatric Liver Transplantation –SPLIT) (J Pediatr 2012; 160: 820-6).

Ng VL et al report on frequency of comorbidities as well as quality of life.  Of the 10-year survivors who were included in this study: 85 (50.9%) were transplanted in the first year of life; 69 (41.3%) received transplants between 1-7.9 years.  Biliary atresia accounted for 55.1% of the transplanted cohort; the remainder were due to the following: metabolic liver disease 23 (13.8%), acute liver failure 18 (10.8%), other cholestatic conditions 17 (10.2%), tumor 6 (3.6%), and other 11 (6.6%).

First allograft survival rates were 94% at 1 year and 88% at 10 years.   Health-related quality of life (HRQOL) as assessed by the PedsQL 4.0 Generic Core Scales revealed lower patient self-reported total scale scores for LT survivors compared with healthy children (77.2 vs 84.9, P<.001).  14% had HRQOL >2 SDs below that of a matched healthy population.  Other specific post-LT morbidities included the following:

  • Impaired linear growth (23% <10th percentile); ongoing steroid therapy was associated with increased risk of poor linear growth.
  • Renal dysfunction (9%) –defined as calculated glomerular filtration rate <90 mL/min/1.73 m2.
  • Hyperlipidemia: 20% with hypercholesterolemia, and 26% with hypertriglyciridemia
  • Lymphoproliferative disease (5%).  EBV seroconversion occurred in 46 (47%) of 97 who had been EBV-negative prior to LT.  25 (15%) developed symptomatic EBV infection.
  • School performance: 32 (23%) had repeated a grade or were held back at least 1 school year.
  • Liver fibrosis: at 10 years, elevated aminotransferases were noted in 11% and increased gamma gluatmyl transpeptidase in 15%.  Previous studies from SPLIT indicate fibrosis is common in long-term survivors even with good clinical outcomes.

Alive and well?  While survival has improved remarkably, better outcomes are still needed.

Related posts:

Picking winners and losers with liver transplantation allocation

Good care 24/7

Big gift, how much risk

Additional references:


  • -Pediatrics 2008; 122: 1128-35.  Outcomes of 461 pediatric LT.
  • -Am J Transplant 2008; 8: 2506-13.  Improving long-term outcomes of LT.
  • -Hepatolog 2009; 49: 880-6.  LT-Liver fibrosis at 10 year followup.
  • -JPGN 2008; 47: 165. ~50% below 1.3 SD of adult height. Many show partial catch up growth.
  • -Liver Transplant 2006; 12: 1310. Review article on nutrition for OLTx patient.

A new GALD phenotype

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A previous post discusses gestational alloimmune liver disease (GALD) (The more you know the more you see) and provides a number of references.  Additional insight into GALD comes from a recent case report (Pediatrics 2012; 129: e1076-79).

In this report, ascites is recognized in utero at 29 weeks.  This ascites was determined to be due to compression of the vena cava by hypertrophy of the hepatic caudate lobe.  When the patient was delivered at 34 weeks gestation, additional testing revealed normal coagulation parameters, peak ferritin level of 750 ng/ml at day 19, and a nodular liver on ultrasonography.  The patient underwent a liver biopsy via minilaparotomy which confirmed cirrhosis but did not show evidence of iron overload.  Tests for a multitude of other liver diseases were negative.  Liver biopsy stains demonstrated C5b-9 complex in >95% of hepatocytes after treatment with monoclonal antibody.  The detection of a high level of C5b-9 neoantigen is highly specific for  GALD.  Clinically, the patient had spontaneous recovery.

Take home points:

1. While iron overload is a hallmark of GALD, it is likely a consequence and not a cause of this severe liver disease.

2. Identifying atypical GALD cases allows the institution of immunotherapy during future pregnancies which reduces the recurrence risk.

3. The phenotypic spectrum of GALD includes the following:

  • Neonatal liver failure with iron overload
  • Fetal liver failure and/or death with or without iron overload
  • Liver cirrhosis and mild neonatal liver disease without iron overload.  These patients likely require special stains (call Peter Whittington for these patients)

How to stop HBV vertical transmission

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A review and a study this month help delineate a strategy to lower the rate of HBV transmission (Clin Gastro Hepatol 2012; 10: 452-59 & 520-526).  Overall, using HBIG and HBV vaccine within 12 hours of birth (followed by two additional doses of vaccines within 6-12 months) prevents about 95% of HBV transmission from HBsAg-positive mothers to their infants.  This has made a huge difference.  Yet, among mothers with high levels of viremia, HBV is still transmitted in 8-30%.  As such, this review proposes an algorithm to reduce mother to child transmission (MTCT).

The key risk factor is HBV DNA levels >200,000 IU/mL; the most effective way to reduce transmission from highly-viremic mother to infancts is the use of antiviral therapy.  The authors recommend that in addition to the usual preventive measures (HBIG/HBV vaccine within 12 hours of birth), that efforts to lower MTCT include use of either lamivudine (pregnancy category C), telbivudine (pregnancy category B), or tenofovir (pregnancy category B) at the 3rd trimester in the following:

  • Infected women with high HBV DNA levels
  • Infected women who have had children who have failed previous prophylaxis
  • Infected women with threatened pre-term labor

In addition, elective C-section should be considered if HBV DNA >20 million IU/mL at full term.

The second citation refers to an open-label prospective study of 88 HBe-Ag positive women.  All women had HBV DNA >6 log10 copies/mL and increased ALT.  Telbivudine (600 mg/day) was administered to 53 women starting between 12 and 30 weeks gestation; there were 35 control patients who all received HBIG/HBV vaccine.  In the treatment group, none of the infants developed HBV infection.  In the control group, the transmission rate was 8.6%.  No significant adverse effects were noted; specifically, no congenital malformations were noted.

Related blog entry/additional references:

Diagnosing biliary atresia earlier

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Biliary atresia (BA) is often suspected among infants with prolonged jaundice. In fact, efforts have been underway for a long time to encourage fractionation of the bilirubin values to look for conjugated hyperbilirubinemia, especially in infants that remain jaundiced at three weeks of life.  While this is still good advice, given the lack of success in implementation, there is good evidence that obtaining a fractionated bilirubin at any time point can help identify cholestasis associated with BA.

A recent article by Karpen et al (Pediatrics 2011; 128:. e1428 -e1433) indicates that direct bilirubin values are elevated beginning within the first one to two days in patients with BA.  In their cohort of 61 BA subjects, 56% had newborn fractionated bilirubin values.  Every BA patient had elevated direct bilirubin, on average 1.4 ± 0.43 mg/dL (normal <0.5) (compared with control patients:  0.19 ± 0.075 mg/dL, P < .0001).  Also, another important finding was that early on the ratio of direct bilirubin to total bilirubin was normal in 79%; normally this ratios is ≤0.2.  As such, all patients with increased direct bilirubin need to be followed closely.

Related blog entries:

Outcomes of Biliary Atresia

MicroRNAs and biliary atresia

Bleeding due to vitamin K deficiency

Bleeding due to vitamin K deficiency

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With cholestasis in infancy, Bill Balistreri taught me that there were four potential emergencies:

  • Bleeding due to vitamin K deficiency or coagulopathy
  • Hypoglycemia
  • Sepsis
  • Metabolic poisoning with formula (in patients with galactosemia)

Once these issues have been considered, then it is appropriate to start investigating the etiology of the cholestasis.

One of the more dramatic complications is intracranial hemorrhage (ICH). While ICH is a well-recognized complication of cholestasis in infancy, the long-term outcomes are not well-characterized. A report from Japan adds some insight (JPGN 2012; 54: 552-57).

Among a retrospective review of 83 infants with biliary atresia (BA) between 1979 to 2009, ICH occurred in 8% despite oral vitamin K prophylaxis (2 mg).  The onset of ICH was between 47-76 days after birth and was prior to surgery.  Coagulopathy was noted in all cases, which improved with vitamin K intravenously.  Two infants required craniotomy.  In 5 of 7 cases, neurologic sequelae were noted including developmental delay in three, epilepsy in one, and mild hemiparesis in two.

Additional references:

  • Blood Rev 2009; 23: 49-59.  Review of vitamin K deficiency.
  • Pediatrics 2008; 121:e857.  Vitamin K deficiency common in cholestatic breastfed babies.  Can be prevented with 1mg po each week or single IM dose of 2mg.
  • Eur J Pediatr Surg 2005; 15: 295-9.  Bleeding disorder as 1st symptom of BA.
  • Pediatr Neurosurg 2006; 42: 362-7.  ICH due to vitamin K deficiency.
  • Pediatrics 2006; 118: e1657.  dose of 0.2mg effective for median of 25days (w/o toxicity/accumulation of K1O) in infants <32weeks gestation.