Liver Failure in Early Infancy: Aetiology, Presentation, and Outcome

Etiology, Characteristics, and Outcomes of Neonatal Liver Failure: Lessons Learned Over the Last 3 Decades

OBJECTIVE

To evaluate trends in etiology and outcomes of neonatal liver failure (NLF) over 30 years retrospectively at a single institution.

STUDY DESIGN

Inclusion criteria for this retrospective cohort study were babies presenting at a chronological age of ≤28 days between 1991 and 2020 with prothrombin time ≥20 seconds and biochemical liver injury. Demographics, etiology, laboratory investigations, need for extrahepatic organ support, acute kidney injury, and intervention with liver transplant (LT) were recorded. Survival outcomes were measured as discharge from the hospital alive with native liver or LT. The study period was stratified into 3 10-year blocks. Trends were analyzed for hospital admissions, etiology, and survival outcomes.

RESULTS

One hundred twenty-six babies met the NLF criteria. Admissions to the hospital increased from 21 in 1991-2000 to 65 in 2011-2020. An increasing trend in infectious and metabolic causes, while a decreasing trend in indeterminate etiology, was noted. Survival with native liver improved from 23.8% in 1991-2000 to 55.4% in 2011-20 (P = .021), and mortality reduced from 52.4% to 35.4% during the same periods (P = .213). Twenty-three (18.2%) neonates received LT. Post-LT survival outcomes were 100% for gestational alloimmune liver disease, 66.6% in the indeterminate group, and 25% for herpes simplex virus. Specific etiologies (gestational alloimmune liver disease, OR = 0.07 [0-0.77, P = .048]), presence of acute kidney injury (OR = 6.22 [1.45, 29.38, P = .015]) and need for inotropes (OR = 6.22 [1.45, 29.38, P = .028]) influenced mortality in multivariable logistic regression analysis.

CONCLUSIONS

In the last 30 years, advances in diagnosis, treatment, and increasing experience with LT have improved survival in NLF.

Neonatal Liver Imaging: Techniques, Role of Imaging, and Indications

The neonatal liver may be affected by a variety of congenital and acquired diseases. Imaging has an important role in the workup and management of many neonatal hepatic abnormalities. Some aspects of imaging the liver and imaging findings are specific to neonatal patients when compared with those in older children. Therefore, selecting and tailoring the imaging technique for each indication in the neonate is important for optimal care, with minimal invasiveness. Common indications for imaging include incidental focal lesions, neonatal liver failure, cholestasis, and sepsis. US is the primary imaging modality, and for most conditions it is the only imaging modality required. MRI is the next modality after US for neonatal liver assessment and is especially required for complete assessment and staging of neoplasms, vascular abnormalities, and diagnosis of neonatal hemochromatosis. CT can be used when MRI is not available and should be used sparingly and in patients with acute conditions such as intra-abdominal bleeding. The authors emphasize imaging modalities that can be used for assessment of neonatal liver abnormalities, the imaging appearances of normal and changing structures in the neonatal liver, and indications for imaging. Abnormalities that are described include neonatal liver failure, infections, hepatic calcifications, umbilical venous catheter-related complications, and vascular abnormalities. ©RSNA, 2024 Supplemental material is available for this article.

Diagnosis and management of pediatric acute liver failure: consensus recommendations of the Indian Society of Pediatric Gastroenterology, Hepatology, and Nutrition (ISPGHAN)

Timely diagnosis and management of pediatric acute liver failure (PALF) is of paramount importance to improve survival. The Indian Society of Pediatric Gastroenterology, Hepatology, and Nutrition invited national and international experts to identify and review important management and research questions. These covered the definition, age appropriate stepwise workup for the etiology, non-invasive diagnosis and management of cerebral edema, prognostic scores, criteria for listing for liver transplantation (LT) and bridging therapies in PALF. Statements and recommendations based on evidences assessed using the modified Grading of Recommendations Assessment, Development and Evaluation (GRADE) system were developed, deliberated and critically reappraised by circulation. The final consensus recommendations along with relevant published background information are presented here. We expect that these recommendations would be followed by the pediatric and adult medical fraternity to improve the outcomes of PALF patients.

Genetic aetiologies of acute liver failure

Acute liver failure (ALF) is a rare, rapidly evolving, clinical syndrome with devastating consequences where definitive treatment is by emergency liver transplantation. Establishing a diagnosis can be challenging and, historically, the cause of ALF was unidentified in up to half of children. However, recent technological and clinical advances in genomic medicine have led to an increasing proportion being diagnosed with monogenic aetiologies of ALF. The conditions encountered include a diverse group of inherited metabolic disorders each with prognostic and treatment implications. Often these disorders are clinically indistinguishable and may even mimic disorders of immune regulation or red cell disorders. Rapid genomic sequencing for children with ALF is, therefore, a key component in the diagnostic work up today. This review focuses on the monogenic aetiologies of ALF.

Rare liver diseases in Egypt: Clinical and epidemiological characterization

Illnesses that afflict a tiny number of individuals are referred to as rare diseases (RDs), sometimes called orphan diseases. The local healthcare systems are constantly under financial, psychological, and medical strain due to low incidence rates, unusual presentations, flawed diagnostic standards, and a lack of treatment alternatives for these RDs. The effective management of the once widely spread viral hepatitis B and C has altered the spectrum of liver diseases in Egypt during the last several years. The detection of uncommon disorders such as autoimmune, cholestatic, and hereditary liver diseases has also been made easier by the increasing knowledge and greater accessibility of specific laboratory testing. Finally, despite Egypt's large population, there are more uncommon liver disorders than previously thought. This review article discusses the clinical and epidemiological characteristics of a few uncommon liver disorders and the information currently accessible concerning these illnesses in Egypt.

Decoding hepatorenal tyrosinemia type 1: Unraveling the impact of early detection, NTBC, and the role of liver transplantation

Hepatorenal tyrosinemia type 1 (HT-1) is a rare autosomal recessive disease that results from a deficiency of fumaryl acetoacetate hydrolase (FAH), a critical enzyme in the catabolic pathway for tyrosine. This leads to the accumulation of toxic metabolites such as fumaryl and maleylacetoacetate, which can damage the liver, kidneys, and nervous system. The discovery of 2-[2-nitro-4-trifluoromethylbenzoyl]-1,3-cyclohexanedione (NTBC or nitisinone) has significantly improved the management of HT-1, particularly when initiated before the onset of symptoms. Therefore, newborn screening for HT-1 is essential for timely diagnosis and prompt treatment. The analysis of succinyl acetone (SA) in dried blood spots of newborns followed by quantification of SA in blood or urine for high-risk neonates has excellent sensitivity and specificity for the diagnosis of HT-1. NTBC combined with dietary therapy, if initiated early, can provide liver transplant (LT) free survival and reduce the risk of hepatocellular carcinoma (HCC). Patients failing medical treatment (eg, due to non-adherence), and who develop acute liver failure (ALF), have HCC or evidence of histologically proven dysplastic liver nodule(s), or experience poor quality of life secondary to severe dietary restrictions are currently indicated for LT. Children with HT-1 require frequent monitoring of liver and renal function to assess disease progression and treatment compliance. They are also at risk of long-term neurocognitive impairment, which highlights the need for neurocognitive assessment and therapy.

Clinical Profile and Outcomes of Children with Acute Liver Failure in a Tertiary Care Center in South India: A Retrospective Study

Purpose

In this study, we investigated the clinical profile, survival at discharge, and proportion of children with acute liver failure (ALF) meeting the criteria for, yet surviving without, liver transplantation (LT).

Methods

Medical case records of children aged >28 days to ≤15 years over a period of 7 years, identified from pediatric admission and discharge registers, were screened. Children satisfying the criteria for ALF were included in this study.

Results

A total of 71 records meeting the pediatric ALF (PALF) criteria were included. The survival rate at discharge was 61% (n=44). A considerable proportion of children satisfied the King's College Criteria (KCC) (56.3%) and the European Association for the Study of the Liver (EASL) criteria (7%) for LT at admission. Nonetheless, the survival rate in the absence of LT was 42.5% in children who satisfied the KCC and 20% in those who met the EASL criteria. Infection (29.5%) and paracetamol overdose (19.7%) were the major identifiable causes of PALF. Hepatitis A was the most common infection identified. No significant predictors of poor outcomes were identified in multivariable analysis.

Conclusion

Our study highlights the changing survival rates and the clinical and etiological profiles of patients with PALF. In areas with poor access to LT services, survival in these children could be improved through early referral to centers with adequate intensive care facilities. Preventing ALF and referring patients to LT services are paramount to reducing mortality.

Poor Access to Liver Transplantation and Survival of Children With Acute Liver Failure, Acute-on-chronic Liver Failure or Chronic Liver Disease

We describe the survival of children with acute liver failure (ALF), chronic liver disease (CLD), or acute-on-chronic liver failure (ACLF) with poor access to liver transplantation (LT). A retrospective cohort study of 42 patients <18 years of age was conducted in the Hospital Civil de Guadalajara "Dr. Juan I. Menchaca". The median age was 76 months; 57.1% were female, 40.5% presented with ALF, 35.7% with CLD, and 23.8% with ACLF. Also, 38.1% (16/42) presented liver disease of unknown etiology. Death occurred in 45.2%; 14.3% were transferred to another hospital, and none received LT. Mortality in ALF, CLD, and ACLF was 76%, 0%, and 60%, respectively. In the survival analysis, within the first 20 months after diagnosis, the mortality rate was greater than 50% with ALF. The importance of having referral programs that perform liver transplantation is highlighted by the poor prognosis of the patients, despite conservative treatment.

Case report of fetal liver cirrhosis due to gestational alloimmune liver disease in a primigravida female, in the northeast region of India

Introduction

Fetal liver failure is a major cause of neonatal morbidity and mortality, presenting as acute liver failure and/or congenital cirrhosis. Gestational alloimmune liver disease associated with neonatal haemochromatosis is a rare cause of fetal liver failure.

Case report

24-year-old primigravida on Level II ultrasound scan showed intrauterine live fetus, with the fetal liver showing nodular architecture and coarse echotexture. Moderate fetal ascites were present. Scalp oedema was present with minimal bilateral pleural effusion. Suspicious fetal liver cirrhosis was raised, and the patient was counseled for a poor prognosis of pregnancy. Surgical termination of pregnancy was performed at 19 weeks through Cesarean section, and postmortem histopathological examination revealed haemochromatosis, hence gestational alloimmune liver disease was confirmed.

Discussion

The presence of a nodular echotexture of the liver, with ascites, pleural effusion, and scalp oedema suggested chronic liver injury. Gestational alloimmune liver disease-neonatal haemochromatosis is often diagnosed late and patients are therefore referred late to specialized centers, delaying treatment.

Conclusion

This case highlights the consequences of late diagnosis and treatment of gestational alloimmune liver disease-neonatal haemochromatosis and emphasizes the importance of a high grade of suspicion of this disease. Level II ultrasound scan should include scanning of the liver, as a part of the protocol. A high grade of suspicion is key for the diagnosis of gestational alloimmune liver disease-neonatal haemochromatosis, and early use of intravenous immunoglobulin should not be postponed to allow longer survival of the native liver.

Stenting of ductus venosus as a palliation for portal hypertension because of neonatal cirrhosis

Portal hypertension because of liver cirrhosis is a significant cause of morbidity and mortality. Treatment options in these patients include liver transplant, symptomatic treatment of oesophageal varices via endoscopic treatment and symptomatic management of ascites. Portosystemic shunt creation can be challenging in newborns and infants. We present a newborn with Trisomy 21, severe portal hypertension secondary to neonatal cirrhosis, oesophageal varices and upper GI bleeding, severe ascites refractory to medical management who underwent ductus venosus stenting as a palliative procedure. He demonstrated remarkable clinical improvement with no subsequent upper GI bleed and resolution of ascites till his last follow-up at 12 months of age. To the best of our knowledge, stenting of the patent ductus venosus to create a portosystemic shunt to relieve portal hypertension has not been reported in English literature.

Newborn with Lethargy, Jaundice, and Coagulopathy

Laboratory results include the following: white blood cell count, 21,600/μL (21.6 × 109/L; reference range, 9,000-30,000/μL [9-30 × 109/L]); hemoglobin, 18.2 g/dL (182 g/L; reference range, 14.0-24.0 g/dL [140-240 g/L]); platelet count, 111 × 103/μL (111 × 109/L; reference range, 150-450 × 103/μL [150-450 × 109/L]); blood type, B+; direct antiglobulin test, negative; and reticulocyte count, 4% (reference range, 3%-7%). Comprehensive metabolic panel is significant for hyponatremia, with a sodium level of 132 mEq/L (132 mmol/L; reference range, 135-145 mEq/L [135-145 mmol/L]). Liver enzyme levels are normal (alanine aminotransferase, 41 U/L [0.68 μkat/L]; aspartate aminotransferase, 86 U/L [1.44 μkat/L]), as are total protein (5.4 g/dL [54 g/L]) and albumin (3.0 g/dL [30 g/L]) levels. Repeated bilirubin level is 12.4 mg/dL (212 µmol/L) at 14 hours after birth, with an elevated direct bilirubin level of 2.9 mg/dL (49.6 µmol/L). Direct or conjugated hyperbilirubinemia is defined as a direct bilirubin level greater than 2 mg/dL (34.2 mmol/L) or more than 20% of total bilirubin. γ-Glutamyl transferase level is normal. Coagulation studies show an elevated prothrombin time of 23.4 seconds (reference range, 11-17 seconds), with an international normalized ratio of 2.1 (reference range, 0.9-1.3); activated partial thromboplastin level is 49.5 seconds (reference range, 30-60 seconds). Fibrinogen level is decreased at 70 mg/dL (0.70 g/L) (reference range, 230-450 mg/dL [230-450 g/L]). Lactate level is 24.3 mg/dL (2.7 mmol/L; reference range, 2.0-26.9 mg/dL [0.22-2.98 mmol/L]). Ammonia level is 96.6 µg/dL (69 μmol/L; reference range, 89.6-149.9 µg/dL [64-107 μmol/L]). Cerebrospinal fluid studies are unremarkable. Magnetic resonance imaging (MRI) of the brain and echocardiography are normal. Ultrasonography of the abdomen shows diffuse hepatic echogenicity. Blood and cerebrospinal fluid cultures are negative. Further testing reveals the diagnosis.

Magnetic resonance imaging of neonatal hemochromatosis

Neonatal hemochromatosis is a rare condition that causes neonatal liver failure, frequently resulting in fetal loss or neonatal death. It is thought that most cases of neonatal hemochromatosis are caused by gestational alloimmune liver disease (GALD), with neonatal hemochromatosis being a phenotype of GALD rather than a disease process. Extrahepatic siderosis in the pancreas, myocardium, thyroid and minor salivary gland is a characteristic feature of neonatal hemochromatosis. There is also sparing of the reticuloendothelial system with no iron deposition in the spleen. Hepatic and extrahepatic siderosis seen in neonatal hemochromatosis is from iron dysregulation secondary to liver damage rather than iron deposition causing the liver damage. The presence of extrahepatic siderosis in the pancreas and thyroid is diagnostic of neonatal hemochromatosis and can be detected noninvasively by multi-echo gradient recalled echo (GRE) T2*-weighted sequence of MRI within hours of birth. This helps to expedite the treatment in the form of intravenous immunoglobulin and exchange transfusion, which improves the survival in these babies. The finding of hepatic siderosis is nonspecific and does not help in the diagnosis of neonatal hemochromatosis because it is seen with other causes of advanced liver disease.

North American Society for Pediatric Gastroenterology, Hepatology, and Nutrition Position Paper on the Diagnosis and Management of Pediatric Acute Liver Failure

ABSTRACT

Pediatric acute liver failure (PALF) is a rare, rapidly progressive clinical syndrome with significant morbidity and mortality. The phenotype of PALF manifests as abrupt onset liver dysfunction, which can be brought via disparate etiology. Management is reliant upon intensive clinical care and support, often provided by the collaborative efforts of hepatologists, critical care specialists, and liver transplant surgeons. The construction of an age-based diagnostic approach, the identification of a potential underlying cause, and the prompt implementation of appropriate therapy can be lifesaving; however, the dynamic and rapidly progressive nature of PALF also demands that diagnostic inquiries be paired with monitoring strategies for the recognition and treatment of common complications of PALF. Although liver transplantation can provide a potential life-saving therapeutic option, the ability to confidently determine the certainness that liver transplant is needed for an individual child has been hampered by a lack of adequately tested clinical decision support tools and accurate predictive models. Given the accelerated progress in understanding PALF, we will provide clinical guidance to pediatric gastroenterologists and other pediatric providers caring for children with PALF by presenting the most recent advances in diagnosis, management, pathophysiology, and associated outcomes.

Applying an Age-specific Definition to Better Characterize Etiologies and Outcomes in Neonatal Acute Liver Failure

OBJECTIVE

Neonatal acute liver failure (ALF) is a rare disease with high mortality for which no standard age-specific definition exists. To advance the understanding of neonatal ALF, we characterize the etiology, presenting features, treatment, and outcomes in infants within 1 month of life.

METHODS

We performed a single-center 11-year retrospective chart review of neonates ≤30 days of life with ALF as defined by an INR of ≥2.0. Comparisons were made by etiology and survival with native liver (SNL). Estimated survival was performed using the Kaplan-Meier method.

RESULTS

Forty-three patients met inclusion criteria for neonatal ALF. Etiologies included viral infection (23%), gestational alloimmune liver disease with neonatal hemochromatosis (GALD-NH) (21%), cardiac-associated ischemia (16%), other ischemia (14%), genetic etiologies (9%), Trisomy 21-associated myelodysplasia (TAM) (7%), hemophagocytic lymphohistiocytosis (HLH) (2%), and not identified (7%). Infants with viral etiologies had the highest alanine aminotransferase (ALT) at presentation (1179 IU/L, interquartile range [IQR] 683-1585 IU/L) in contrast to low levels in GALD-NH (23 IU/L, IQR 18-64 IU/L). Across all etiologies, only 33% were alive at 1 year. Overall median survival was 74 days; 17 days for viral infection and 74 days for GALD-NH. Among laboratory values at presentation, alpha-fetoprotein (AFP) was significantly higher in patients that survived with their native liver (P = 0.04).

CONCLUSIONS

Overall, outcome for neonatal ALF is poor. Although initial laboratory values can differentiate viral infection or GALD-NH, further studies are needed to identify laboratory parameters that predict SNL by etiology to ultimately improve patient outcomes.

Diagnostic Approach to Acute Liver Failure in Children: A Position Paper by the SIGENP Liver Disease Working Group

Acute liver failure (ALF) is a clinical condition characterized by the abrupt onset of coagulopathy and biochemical evidence of hepatocellular injury, leading to rapid deterioration of liver cell function. In children, ALF has been characterized by raised transaminases, coagulopathy, and no known evidence of pre-existing chronic liver disease; unlike in adults, the presence of hepatic encephalopathy is not required to establish the diagnosis. Although rare, ALF has a high mortality rate without liver transplantation (LT). Etiology of ALF varies with age and geographical location, although it may remain indeterminate in a significant proportion of cases. However, identifying its etiology is crucial to undertake disease-specific management and evaluate indication to LT. In this position statement, the Liver Disease Working Group of the Italian Society of Gastroenterology, Hepatology and Nutrition (SIGENP) reviewed the most relevant studies on pediatric ALF to provide recommendations on etiology, clinical features and diagnostic work-up of neonates, infants and children presenting with ALF. Recommendations on medical management and transplant candidacy will be discussed in a following consensus conference.

Outcomes following liver transplantation in young infants: Data from the SPLIT registry

Liver transplantation (LT) in young patients is being performed with greater frequency. We hypothesized that objective analysis of pre-, intra-, and postoperative events would help understand contributors to successful outcomes and guide transplant decision processes. We queried SPLIT registry for pediatric transplants between 2011 and 2018. Outcomes were compared for age groups: 0-<3, 3-<6, 6-<12 months, and 1-<3 years (Groups A, B, C, D respectively) and by weight categories: <5, 5-10, >10 kg; 1033 patients were available for analysis. Cholestatic disease and fulminant failure were highest in group A and those <5 kg; and biliary atresia in group C (72.8%). Group A had significantly higher life support dependence (34.6%; P < .001), listing as United Network for Organ Sharing status 1a/1b (70.4%; P < .001), and shortest wait times (P < .001). The median (interquartile range) for international normalized ratio and bilirubin were highest in group A (3.0 [2.1-3.9] and 16.7 [6.8-29.7] mg/dL) and those <5 kg (2.6 [1.8-3.4] and 13.5 [3.0-28.4] mg/dL). A pediatric end -stage liver disease score ≥40, postoperative hospital stays, rejection, and nonanastomotic biliary strictures were highest in group A with lowest survival at 93.1%. Infants 0 to <3 months and those <5 kg need more intensive care with lower survival and higher complications. Importantly, potential LT before reaching status 1a/1b and aggressive postoperative management may positively influence their outcomes.

Etiology and Outcome of Acute Liver Failure in Children-The Experience of a Single Tertiary Care Hospital from Romania

BACKGROUND

Acute liver failure (ALF) is a rare disease, associated with high mortality, despite optimal medical therapy without emergency liver transplantation. Knowing the possible cause of ALF plays a vital role in the management, as the child could benefit from effective specific therapies in emergencies.

METHODS

We have analyzed the etiology and outcome of ALF in children followed-up in a tertiary care hospital between January 2012-December 2018. The patients were grouped into different age categories: neonates (0-1 month), infants (1-12 months), children (1-14 years), and teenagers (14-18 years).

RESULTS

97 children (46 males, 47.42%, the mean age of 7.66 ± 8.18 years) were admitted with ALF. The most important causes of ALF were in neonates and infants, infections (72.72%), and metabolic disorders (43.47%), in children and adolescents were the toxic causes (60% and 79.41%). The mortality rate was 31.95% (31 patients), mainly in ALF due to infections or metabolic disorders.

CONCLUSIONS

In neonates and infants, the main causes of ALF were infections and metabolic diseases, while in older children and teenagers, were toxin-induced liver injuries. The mortality among neonates and infants was significantly higher than in other ages. Early recognition and immediate therapeutic intervention could improve the outcome of these patients.

Early Exchange Transfusion to Treat Neonates With Gestational Alloimmune Liver Disease: An 11-Year Cohort Study

OBJECTIVES

Exchange transfusion (ET) and intravenous immunoglobulin are potentially life-saving treatment options in newborns with gestational alloimmune liver disease (GALD). Since 2008, early ET has been the standard of care for symptomatic neonates with suspected GALD in our unit. The present study's aim was to investigate the outcomes of this approach.

METHODS

From 2008 to 2018, all neonates who received ET for suspected GALD were identified, and their clinical course and outcomes were analyzed in a descriptive cohort study. In survivors, liver function parameters before ET and maximum values after ET and at discharge were compared.

RESULTS

During the 11-year period, 12 infants received ET for suspected GALD at a median (range) chronological age of 11 (1-23) days and gestational age of 38 (32-40) weeks. Signs of impaired liver function, most frequently postnatal hypoglycemia, hyperferritinemia, direct hyperbilirubinemia, and coagulopathy, were present in all infants. Survival without a liver transplant in the overall cohort was 10 of 12 (83.3%) and 7 of 9 (78%) in those fulfilling the criteria of acute liver failure. Two patients died, one of them after liver transplantation. Direct bilirubin typically increased after ET, even in survivors. All survivors recovered and were discharged from the pediatric hepatology outpatient clinic after 8 (3-11) months of follow-up.

CONCLUSIONS

In newborns with suspected GALD, a limited diagnostic work-up followed by early ET may lead to favorable outcomes. More data are required to develop an evidence-based clinical approach to GALD.

Pediatric liver transplant following near catastrophic head bleed: Lessons learned

Evaluation for liver transplant candidacy is a multidisciplinary effort that involves all aspects of clinical care including social work, nutrition, and a multitude of medical specialties. The prognosis of a pretransplant clinical condition is integrated into the decision to list a patient. Herein, we report a successful liver transplant and recovery of a 3-month-old male following a large right hemispheric subdural hematoma related to acute coagulopathy secondary to undiagnosed end-stage liver disease. On presentation with jaundice, lethargy, and unequal pupils, a CT scan was obtained which demonstrated a large right subdural hematoma with herniation. Once his coagulopathy was corrected, he went for decompressive craniectomy. He survived with medically controlled seizures and improving L-sided neglect and extremity weakness. Six weeks later, given his continued neurologic recovery and worsening liver function, the decision was made to list him for liver transplantation. One month later, he underwent orthotopic liver transplant. His post-operative hospital course was complicated by DVTs and heparin-induced thrombocytopenia, but no neurologic decline, and he was eventually discharged from the hospital on post-op day 26. Three years later, he has a well-functioning allograft and no clinically evident neurologic deficits. The prognosis following pediatric neurologic trauma remains somewhat unclear as recovery and neurologic examinations can be influenced by numerous extrinsic factors. This is one of the first reports of near full neurologic recovery of a pediatric liver transplant recipient following a large subdural hematoma with herniation.

Neonatal Acute Liver Failure

Neonatal acute liver failure (NALF) is a rare disease with a few known primary causes: gestational alloimmune liver disease (GALD), viral infections, metabolic diseases, and ischemic injury. Many cases still do not have a known cause. Laboratory evaluation may suggest a diagnosis. Most of the known causes have disease-specific treatments that improve outcomes. Survival is improving with better knowledge about and treatment options for GALD; however, overall mortality for NALF is still 24%. Liver transplant remains an important option for neonates with an indeterminate cause of NALF and those who do not respond to established treatments.

Liver Failure Among Young Saudi Infants: Etiology, Clinical Presentation, and Outcome

OBJECTIVES

The published data on early infantile liver failure (EILF) are scarce and limited to Caucasians. We conducted this study to describe the etiology and outcome of EILF among Arabs and identify prognostic factors.

METHODS

We retrospectively reviewed our database of 524 infants presenting with liver impairment from 2008 to 2018, and identified cases of EILF defined as presence of biochemical pattern of liver disease and INR ≥2 (unresponsive to vitamin K) with onset before 3 months of life. Primary outcomes included death or liver transplantation (LT) (poor outcome group) and survival with native liver (good outcome group).

RESULTS

Forty-two cases of EILF (22 girls) were identified (8%). The etiology was indeterminate in 14 (33.3%) and established in 27 (64.3%): galactosemia (7 cases, 16.6%), tyrosinemia (5, 12%), neonatal hemochromatosis (NH), and hemophagocytic lymphohistiocytosis (HLH) (4 each, 9.5%]) mitochondrial hepatopathy (3, 7%), and miscellaneous (5, 12%). LF resolved in 15 cases (35.7%), either spontaneously or in response to specific therapy, 23 (54.7%) died, and 4 underwent LT (9.5%). ROC analysis for the best cut-off value of serum total bilirubin for prediction of study outcomes was 120 μmol/L (sensitivity 81.5%, specificity 80%). Among the diagnostic groups, galactosemia and tyrosinemia predicted good outcome, whereas the idiopathic diagnosis predicted poor outcome (OR = 13).

CONCLUSIONS

Similar to Western countries, galactosemia, tyrosinemia, NH, HLH, and mitochondrial hepatopathy are the main players in EILF in Saudi Arabia. Galactosemia and tyrosinemia predict good prognosis and idiopathic diagnosis predicts poor prognosis.

Clinical and biochemical footprints of inherited metabolic diseases. II. Metabolic liver diseases

Inherited metabolic diseases account for about one third of pediatric patients with hepatomegaly, acute liver failure, cirrhosis or cholestasis. Specifically for pediatric acute liver failure, they account for 10-15% of cases, with a mortality of 22-65%. The percentage of acute liver failure caused by an inherited metabolic disease in children <2-3 years of age is even higher, ranging from a third to half of all cases. Metabolic liver disease accounts for 8-13% of all pediatric liver transplantations. Despite this high burden of disease, underdiagnosis remains common. We reviewed and updated the list of known metabolic etiologies associated with various types of metabolic liver involvement, and found 142 relevant inborn errors of metabolism. This represents the second of a series of articles attempting to create and maintain a comprehensive list of clinical and metabolic differential diagnoses according to system involvement.

Severe Neonatal Manifestations of Infantile Liver Failure Syndrome Type 1 Caused by Cytosolic Leucine-tRNA Synthetase Deficiency

BACKGROUND

Deleterious mutations in cytosolic leucine-tRNA synthetase (LARS) cause infantile liver failure syndrome, type 1 (ILFS1), a recently recognized, rare autosomal recessive disorder (OMIM151350). Only six families with ILFS1 have been reported in the literature. Patients with ILFS1 are typically diagnosed between 5 and 24 months of age with failure to thrive, developmental delays, encephalopathy, microcytic anemia, and chronic liver dysfunction with recurrent exacerbations following childhood illnesses. Neonatal manifestations of this disorder have not been well documented.

CASE REPORT

We report a premature female newborn with intrauterine growth restriction, failure to thrive, congenital anemia, anasarca, and fulminant liver failure leading to lethal multiple organ failure. Liver failure in this infant was characterized by a disproportionate impairment of liver synthetic function, including severe coagulopathy and hypoalbuminemia without significant defects in liver detoxification or evidence of hepatocellular injury during early phase of the disease. Whole-exome sequencing of child-parent trio identified two inherited missense mutations in LARS in this patient. One, c.1292T>A; p.Val431Asp, has been reported in patients with ILFS1, while the other, c.725C>T; p.Pro242Leu, is novel. Both mutations involve amino acid residues in the highly conserved editing domain of LARS, are predicted to be functionally deleterious, and presumably contribute to the clinical manifestations in this patient.

CONCLUSION

This is the first case documenting neonatal manifestation of ILFS1, highlighting early, severe, and disproportionate defects in liver synthetic function. Timely diagnosis of ILFS1 is crucial to guide critical clinical management and improve outcomes of this rare and potentially life-threatening disorder.

Loss of Leucyl-tRNA synthetase b leads to ILFS1-like symptoms in zebrafish

Leucyl-tRNA synthetase (LARS) is a kind of aminoacyl-tRNA synthetases (aaRSs), which is important for protein synthesis. Following the discovery of three clinical cases which carry LARS mutations, it has been designated as the infantile liver failure syndrome type 1 (ILFS1) gene. ILFS1 is a kind of infantile hepatopathy, which is difficult to diagnose and manage. As the mechanism underlying this disease is poorly understood and LARS is conserved among vertebrates, we obtained zebrafish larsb^cq68 mutant via CRISPR/Cas9 technology to investigate the role of larsb in vivo. In mutant, the proliferation ability of liver was drastically decreased at later stages accompanied with severe DNA damage. Further studies demonstrated that the mTORC1 signaling was hyperactivated in larsb^cq68 mutant. Inhibition of mTORC1 signaling pathway by Rapamycin or mTORC1 morpholino can partially rescue the liver failure of the mutants. These data revealed that larsb mutation caused ILFS1-like phenotype in zebrafish, and indicated this mutant may serve as a potential model for ILFS1. Furthermore, we demonstrated that rapamycin treatment can partially rescue the liver defect in mutants, thus providing a practicable therapeutic plan for ILFS1.

Rescue case of low birth weight infant with acute hepatic failure

We report a case involving a rescued low birth weight infant (LBWI) with acute liver failure. Case: The patient was 1594 g and 32^3/7 gestational wk at birth. At the age of 11 d, she developed acute liver failure due to gestational alloimmune liver disease. Exchange transfusion and high-dose gamma globulin therapy were initiated, and body weight increased with enteral nutrition. Exchange transfusion was performed a total of 33 times prior to living donor liver transplantation (LDLT). Her liver dysfunction could not be treated by medications alone. At 55 d old and a body weight of 2946 g, she underwent LDLT using an S2 monosegment graft from her mother. Three years have passed with no reports of intellectual disability or liver dysfunction. LBWIs with acute liver failure may be rescued by LDLT after body weight has increased to over 2500 g.

Presenting Features and Prognosis of Ischemic and Nonischemic Neonatal Liver Failure

OBJECTIVES

To describe the epidemiological features, clinical characteristics and outcomes of neonates diagnosed with liver failure, as well as determine prognostic factors.

METHODS

Cohort study conducted at a single tertiary referral and university-affiliated pediatric center. Hospital records of all neonates diagnosed with liver failure between January 2003 and December 2015 were retrospectively reviewed, and data on clinical and laboratory findings, treatment, and outcomes were collected. Survival analysis (Kaplan-Meier) and Cox regression were performed to identify prognostic factors at diagnosis. Liver failure diagnosis was established using the pediatric acute liver failure study group's diagnostic criteria for every patient with coagulopathy and biochemical pattern of liver disease.

RESULTS

Forty-five patients were included. In our series, most cases were secondary to ischemia (28.9%). Other causes were neonatal hemochromatosis (17.8%), viral infections (13.3%), and inborn errors of metabolism (13.3%). A total 55.6% (25/45) of the patients died (median age: 16 days; range 1-235 days). Alanine aminotransferase (ALT) at diagnosis was associated with higher mortality or the need for liver transplantation on day 21 after diagnosis (P = .006). For every 500 IU/L increase in ALT serum levels, the mortality/liver transplantation rate increased 1.3 times (hazard ratio 95% confidence interval: 1.1-1.6). Although ischemic neonatal acute liver failure presents with higher ALT levels, these cases appear to have better outcomes. Higher international normalized ratio tended to increase mortality/transplantation (hazard ratio 1.02; 95% confidence interval 0.91-1.2).

CONCLUSIONS

Neonatal liver failure should perhaps be considered in the differential diagnoses of any coagulopathy. ALT and international normalized ratio levels at diagnosis could predict prognosis in the short term. Ischemic liver failure appears to have a better prognosis.

Neonatal Liver Failure and Congenital Cirrhosis due to Gestational Alloimmune Liver Disease: A Case Report and Literature Review

Neonatal liver failure (NLF) is a major cause of neonatal morbidity and mortality, presenting as acute liver failure and/or congenital cirrhosis. Many affected patients show antenatal signs of fetal injury. There are several causes of NLF and early diagnosis is mandatory to elucidate the etiology and determine a specific treatment or the best management strategy. Gestational alloimmune liver disease associated with neonatal hemochromatosis (GALD-NH) is a rare but potentially treatable cause of NLF. It should be considered in any neonate with fetal signs of disease and postnatal signs of liver failure with no other identifiable causes. GALD-NH is often diagnosed late and patients are therefore referred late to specialized centers, delaying treatment. This case highlights the consequences of late diagnosis and treatment of GALD-NH and emphasizes the importance of a high grade of suspicion of this disease in order to refer the patient to a specialized center soon enough to perform the appropriate treatment.