Severe Acute Hepatitis of Unknown Etiology Presenting as Pediatric Acute Liver Failure: Analysis of Likely Etiology, Clinical Course and Outcome.

Adenovirus, adeno-associated virus, and severe acute respiratory syndrome-coronavirus-2 (SARS-COV2) have been recently implicated as probable causative agents of severe acute hepatitis of unknown etiology reported from most of Europe. High mortality and liver transplantation (LT) rates have been observed in those presenting with acute liver failure (ALF). Such cases have not been reported from the Indian subcontinent. We analyzed the etiologies, clinical course, and in-hospital outcomes of cases of severe acute hepatitis with ALF presenting to us between May and October 2022. A total of 178 children presented with severe acute hepatitis of known/unknown etiology including 28 presenting as ALF. Eight of them fulfilled the definition of severe acute hepatitis of unknown etiology presenting as ALF. Adenovirus was not associated with cases of ALF in these children. SARS-COV2 antibodies were detected in 6 (75%) of them. Children with severe acute hepatitis of unknown etiology presenting as ALF were young (median age 4 years), had hyper-acute presentation with a predominance of gastrointestinal symptoms, and a fulminant course with worse outcomes (native liver survival 25%). Expedited evaluation of these children for LT would be the key to management.

Supplement Gone Wrong: Drug-Induced Liver Injury Caused by Artemisinin

Introduction: Drug-induced liver injury (DILI) is defined as hepatic dysfunction caused by prescription medications, supplements, or xenobiotics after alternative causes have been excluded. As one of the leading causes of acute liver failure, DILI should be considered when patients present with hepatic dysfunction. We present a case of symptomatic DILI secondary to artemisinin use. Case Description/Methods: A 78-year-old Chinese man with no medical history presented to the hepatology clinic with 10 weeks of jaundice, weakness, and pruritis. He started taking Artemisinin/ Bioperine 12 weeks ago to prevent COVID-19 but stopped 3 weeks ago. He denied abdominal pain, a family history of liver disease, substance/alcohol use, and taking other concomitant drugs. Physical examination revealed scleral icterus and no other signs of chronic liver disease. Laboratory studies showed total bilirubin 11 mg/dL, alkaline phosphatase 293 U/L, aspartate transaminase 170 U/L, and alanine transaminase 196 U/L with negative workup for hepatitis A, B, and C. CT abdomen and MRCP were unremarkable for liver or biliary pathology. Further serological workup was negative and follow-up labs revealed normalization of liver enzymes and bilirubin. Given the patient's improvement, liver biopsy was not pursued. The patient was instructed to avoid supplements unless prescribed by a physician. Discussion(s): DILI is a global issue with an estimated annual incidence rate of 13.9 to 24.0 per 100,000 persons. Diagnosing DILI is important as it can cause acute liver injury and liver failure in certain cases. Since COVID-19 emerged, supplement use has increased given claims of boosting the immune system. Artemisinin is an herb used in traditional Chinese medicine with antimalarial activity investigated to be a possible COVID-19 treatment, but no current evidence exists to support it being effective against COVID-193. Our patient's supplement also contained Bioperine, a black pepper extract, which is likely benign. Contrarily, artemisinin is a well-described cause of idiosyncratic acute liver injury and hepatotoxicity, causing self-limited mild to moderate transaminitis but also severe cases requiring emergent livertransplantation. Our patient's unrevealing workup, his spontaneous improvement correlating with supplement discontinuation, and RUCAM score of 7 led to high suspicion of DILI secondary to artemisinin. Providers should always ask patients about supplement use and consider DILI when patients present with liver injury. (Table Presented).

A Case Report of Ivermectin-Induced Liver Failure

Introduction: Ivermectin is an antiparasitic medication that is primarily metabolized by the liver. During the COVID-19 pandemic, researchers demonstrated that Ivermectin successfully inhibited the replication of SARS-COV-2 in vivo, but current research has failed to demonstrate clinical benefit for treatment of COVID-19. Despite this, misinformation campaigns have misled patients to ingest Ivermectin at concentrations meant for domestic animals. Here, we present a case of acute liver failure secondary to the use of Ivermectin. Case Description/Methods: A 61-year-old man with medical history of ischemic cardiomyopathy with last echocardiogram showing ejection fraction at 21%, atrial fibrillation on warfarin for oral anticoagulation, and previously treated Hepatitis C presented with generalized weakness and yellowish discoloration of the skin worsening over the last two weeks. The patient denied significant alcohol use, acetaminophen use, or illicit drugs. He admitted to injecting himself with two doses of weight-based horse ivermectin, for COVID prophylaxis, two weeks prior to his presentation. Physical exam was pertinent for scleral icterus and hepatomegaly with no abdominal tenderness. Initial labs revealed elevated liver chemistries in a mixed pattern (Figure 1). Acute hepatitis panel, HSV, and CMV were negative. Hepatitis C antibodies were positive, but the patient was in sustained virologic response. Full workup for chronic liver disease was unremarkable. Ultrasound revealed hepatosplenomegaly with patent portal and hepatic vasculature. Subsequently, the patient developed hepatic encephalopathy along with his coagulopathy, raising concern for acute hepatic failure. The patient was transferred to the ICU and started on NAcetylcysteine, rifaximin, and supportive care. The patient recovered well and fortunately did not require liver transplant. Discussion(s): While the FDA recommends against the use of Ivermectin for COVID-19, many continue to inappropriately consume it. Ivermectin-induced liver failure is a rare but deadly side effect. Given our patient's rapid onset of symptoms post-self injection of Ivermectin, his liver injury was presumed to be related to Ivermectin. The drug interaction between Ivermectin and warfarin had worsened the patients coagulopathy. Physicians should be aware of the ways Ivermectin overdose may clinically present to avoid delayed treatment. This case demonstrates the detriments of perpetuation of medical misinformation to care.

Acute Liver Failure in a Healthy Young Female With COVID-19.

Several well-described manifestations of infection with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have been reported. Among them, a transient elevation of liver enzymes is the typical presentation of coronavirus disease 2019 (COVID-19) liver-related injury. The mechanism of liver involvement is likely a combination of viral injury and immune-mediated inflammation. In contrast, acute liver failure in the setting of COVID-19 has rarely been reported. Herein, we report a case of pediatric acute liver failure in a previously healthy female adolescent infected with SARS-CoV-2 with biopsy evidence of replicating virus in hepatocytes, which has not been previously reported.

Severe Acute Hepatitis: An Emerging Grave Illness in Children

Acute hepatitis of unknown origin in children has been recently described in the literature, and a case definition has also been proposed for this condition. The exact etiology is unknown and exclusion of infectious, metabolic, autoimmune and toxin mediated injuries is essential. Management for this condition is supportive, but some may require liver transplantation. Infection prevention and control practices are important as the etiology remains unidentified.Copyright © 2023, Indian Academy of Pediatrics.

Autoimmune hepatitis after vaccination against COVID-19.

In this case report, we present a 61-year-old patient admitted to the hospital because of tiredness and jaundice less than three weeks after vaccination against SARS-CoV-2 with the first dose of the Comirnaty vaccine (Pfizer/ BioNTech). Based on the patient s medical history, laboratory data, imaging methods and liver biopsy, we diagnosed autoimmune hepatitis. The patient developed acute liver failure, and his liver function did not improve after corticosteroid administration. Therefore, the patient was enrolled in the waiting list and underwent a successful orthotopic liver transplantation.Copyright © 2023 Galen s.r.o.. All rights reserved.

Activated CD8 T-cell hepatitis in children: a single institution experience

Background: Pediatric acute liver failure is a rare and serious life-threatening situation, principally for the 30 to 50% of children in whom the etiology of their liver failure is unclear or indeterminate. Treating these patients is challenging, requiring constant assessment over time with regular evaluation for possible liver transplantation. Children with pediatric acute liver failure of undetermined etiology have lower spontaneous survival and higher rates of transplantation and death than other diagnostic groups. Emerging evidence suggests that a subgroup of patients with indeterminate pediatric acute liver failure have clinical, laboratory, and liver biopsy features of immune dysregulation with a dense infiltration of CD8 T cells. Method(s): In 2022, we received percutaneous liver biopsies from three children with acute hepatic dysfunction that showed an increased number of lymphocytes including CD8 T cells. For each case, routine H&E stains with levels, special stains and immunostains were performed. The first biopsy was from an 18-month-old male who presented with COVID infection, pancytopenia, elevated transaminases, and synthetic liver dysfunction (elevated INR). The second was from a 9-year-old female with a history of elevated liver enzymes with no clear cause. The third case was from a 2-year-old male with elevated liver enzymes, coagulopathy, and cholestasis. Result(s): The three cases showed similar histopathologic findings;an acute liver injury pattern with lobular architectural disarray, giant cell formation, reactive changes, single cell necrosis, cholestasis and marked mixed lymphocytic infiltrates. The infiltrates were predominantly composed of CD8-positive T-lymphocytes with scattered neutrophils, eosinophils and rare plasma cells. Portal areas were mildly expanded with mild bile ductular proliferation and mild to moderate lymphocytic infiltrates. Immunostains for CD8 demonstrated that the infiltrates were predominantly composed of CD8-positive T-lymphocytes. All three patients received steroids and responded to treatment evidenced by normalization of liver enzymes and function. Conclusion(s): Dense hepatic CD8 T-cell infiltration is a major finding inactivated CD8 T-cell hepatitis. However, the percentage distribution of lymphocyte subtypes in the setting of hepatitis is not well established, and CD8 T-cell infiltration has also been described in cases of drug-induced hypersensitivity reactions, viral hepatitis, hemophagocytic lymphohistiocytosis, and macrophage activation syndrome, as well as autoimmune hepatitis. Further investigation is needed to better understand the diagnostic criteria in this disease.

Case report: Acute liver failure in children and the human herpes virus 6-? A factor in the recent epidemic.

The 2022 worldwide epidemic of acute hepatitis and liver failure in young children has led to a focus on unusual causes for childhood acute hepatitis. In the UK epidemic, human herpes virus subtype 6B (HHV-6B) was detected along with adenovirus subtype-41F in severely affected children, especially in those requiring liver transplantation (LT). The lifting of COVID lock-down measures has coincided with the rise in these common childhood infections with a higher than expected rate of systemic complications. The sudden exposure of young children to common childhood infections from which they were protected during the pandemic may have induced an abnormal immune mediated response potentiated by multiple pathogen exposure. Primary HHV-6 infection is one such common childhood infection. Classically known as Roseola infantum due to the appearance of a widespread erythematous rash on fever subsidence (exanthema subitem), it has a peak incidence of 6-12 months of age and almost all children will have been infected by age 2. It is the virus most frequently associated with febrile convulsions but the more serious complications of hepatitis and liver failure are rare. We report on the historic cases of three female infants who had suspected primary HHV-6B infection, acute hepatitis and rapid progression to acute liver failure (ALF) requiring LT. Appearances of their native liver were identical to those described in children in the recent hepatitis epidemic. Deteriorating clinical trajectories of recurrent graft hepatitis and rejection-like episodes followed and all three succumbed to graft failure with HHV-6B detected posthumously in their liver allografts. Our case series and the serious complications observed with the recent rise in common childhood infections is a reminder that these routinely encountered pathogens can be deadly especially in the young immunologically untrained. We advocate for HHV-6 to be screened for routinely in children with acute hepatitis and the use of effective HHV-6 anti-viral prophylaxis to prevent recurrence post-transplant.

Recent Increase in Incidence of Severe Acute Hepatitis of Unknown Etiology in Children is Associated with Infection with Adenovirus and Other Nonhepatotropic Viruses.

OBJECTIVE: To evaluate whether the nature and severity of non-A-E severe acute hepatitis in children noted by the World Health Organization from late 2021 through early 2022 was indeed increased in 2021-2022 compared with prior years. STUDY DESIGN: We performed a single-center, retrospective study to track the etiology and outcomes of children with non-A-E severe acute hepatitis in 2021-2022 compared with the prior 3-year periods (2018-2019, 2019-2020, and 2020-2021). We queried electronic medical records of children ≤16 years of age with alanine or aspartate aminotransferase levels of >500 IU. Data were analyzed for the periods of October 1, 2021, to May 1, 2022, and compared with the same time periods in 2018-2021. RESULTS: Of 107 children meeting entry criteria, 82 cases occurred from October to May of 2018-2022. The average annual case number was 16.3 in 2018-2021 compared with a 2-fold increase (to 33) in 2021-2022 (P = .0054). Analyses of etiologies showed that this increase was associated with a higher number of children who tested positive for viruses (n = 16) when compared with the average of 3.7 for 2018-2021 (P = .018). Adenovirus (26.1%) and severe acute respiratory syndrome coronavirus-2 (10.3%) were the most frequently detected viruses in 2021-2022. Despite evidence of acute liver failure in 37.8% of children in the entire cohort and in 47% of those with viral infection, the overall survival rate was high at 91.4% and 88.9%, respectively. CONCLUSIONS: The number of children with severe acute hepatitis in our center increased from 2021 to May 2022, with a greater frequency of cases associated with adenovirus, yet transplant-free survival remains high.

Death Predictors in Patients with COVID-19 on Venovenous ECMO

Background: Patients with coronavirus disease 2019 (COVID-19) and severe acute respiratory distress syndrome (ARDS) need in 10.5 to 15% veno-venous ECMO (V-V ECMO) therapy. The worldwide mortality in COVID-19 patients on ECMO has been described as extremely high with a mortality rate of 40 to 70%. Method(s): We collected data from 56 patients with severe ARDS who received V-V ECMO in 2020 to January 2022 at the University Hospital Magdeburg due to COVID-19 infection. We recorded demographic, pre-, intra-, and posttreatment data retrospectively. We divided the patients into two groups (survivors and nonsurvivors) to build the final prediction model based on our statistic and to detect relevant mortality risk factors. Result(s): Only 39.3% of patients survived the intensive care unit. Compared groups didn't differ in associated diseases. Most of the non-survivors were male (14 [63.6%] vs. 28 [82.4%], p = 0.114). Nonsurvivors showed a higher incidence of bleeding complications (10 [45.5%] vs. 23 [67.6%], p = 0,099), especially hemothorax (1 [4.5%] vs. 7 [20.6%], p = 0.094) and endobronchial bleeding (0 vs. 5 [14.7%], p = 0.059) as well as a higher incidence of bacterial superinfection (9 [40.1%] vs. 22 [64.7%], p = 0.080). Moreover, groups differed concerning the incidence of acute kidney injury without dialysis (1 [4.5% vs. 9 [26.5%], p = 0.036), and acute liver failure (1 [4.5%] vs. 7 [20.6%], p = 0.094). According to the results of bivariate regression analysis, male sex (odd ratio [OR]: 2.66;95% confidence interval [CI]: 0.773-9.194;p = 0.120), major bleeding events (OR: 2.50;95% CI: 0.831-7.574;p = 0.103), bacterial superinfection (OR: 2.65;95% CI: 0.879-7.981;p = 0.084), acute kidney injury without dialysis (OR: 7.56;95% CI: 0.884-64.636;p = 0.065), and acute liver failure (OR: 5.44;95% CI: 0.621-47.756, p = 0.126) were tendentious significant predictors of death. Subsequently, according to the results of multivariate analysis, the most significant factors of mortality were major bleeding events (OR: 3.27;95% CI: 0.888-12.047, p = 0.075) and the bacterial superinfection (OR: 2.81;95% CI: 0.800-9.888, p = 0.107). The mortality prediction model explained 31.8% (Nagelkerke R2) of the variance in-hospital mortality and correctly classified 71.4% of the cases. Conclusion(s): Major bleeding events and bacterial superinfection might be relevant mortality factors in COVID-19 patients on V-V ECMO therapy. Especially prevention of superinfection and strictly anticoagulation management might result in lower mortality rates.

Multisystem Inflammatory Syndrome in Children (MIS-C) Associated With Covid-19 - Single-Center Experience

OBJECTIVES: To describe the clinical presentation, phenotype and outcome of multisystem inflammatory syndrome in children (MIS-C) associated with coronavirus disease 2019 (Covid-19) from a tertiary care center in southern India. METHOD(S): 257 children fulfilling the inclusion criteria of MIS-C were prospectively enrolled from June, 2020 to March, 2022. RESULT(S): Median (range) age at presentation was 6 year (35 day to 12 years). Presenting features were fever (98%), vomiting (75.8%), red eyes (63%), rashes (49%), pain abdomen (49%), shock (45.9%), lymphopenia (73%, thrombocytopenia (58.3%) and anemia (45%). 103 (39.7%) children required intensive care admission. Shock phenotype, Kawasaki-like phenotype and no specific phenotype were diagnosed in 45.9%, 44.4%, and 36.6% children, respectively. Left ventricular dysfunction (30.3%), acute kidney injury (13%), acute liver failure (17.4%), and hemophagolymphohistiocytosis (HLH) (13.6%) were the major system involvement in MIS-C. Mitral regurgitation (P=0.029), hyperechogenic coronaries (P=0.006), Left ventricular dysfunction (P=0.001) and low ejection fraction (P=0.007) were significantly associated with shock. Overall mortality was 11.7%. CONCLUSION(S): Kawasaki-like and shock-like presentation were common in MIS-C. Coronary abnormalities were seen in 118 (45.9%) children. Children with acute kidney injury, HLH, need for mechanical ventilation, and echocardiogram evidence of mitral regurgitation in MIS-C have a poor outcome.

The Evolving Profile of Idiosyncratic Drug-Induced Liver Injury.

Idiosyncratic drug-induced liver injury (DILI) is an infrequent but important cause of liver disease. Newly identified causes of DILI include the COVID vaccines, turmeric, green tea extract, and immune checkpoint inhibitors. DILI is largely a clinical diagnosis of exclusion that requires evaluation for more common causes of liver injury and a compatible temporal association with the suspect drug. Recent progress in DILI causality assessment includes the development of the semi-automated revised electronic causality assessment method (RECAM) instrument. In addition, several drug-specific HLA associations have been identified that can help with the confirmation or exclusion of DILI in individual patients. Various prognostic models can help identify the 5%-10% of patients at highest risk of death. Following suspect drug cessation, 80% of patients with DILI fully recover, whereas 10%-15% have persistently abnormal laboratory studies at 6 months of follow-up. Hospitalized patients with DILI with an elevated international normalized ratio or mental status changes should be considered for N-acetylcysteine therapy and urgent liver transplant evaluation. Selected patients with moderate to severe drug reaction with eosinophilia and systemic symptoms or autoimmune features on liver biopsy may benefit from short-term corticosteroids. However, prospective studies are needed to determine the optimal patients and dose and duration of steroids to use. LiverTox is a comprehensive, freely accessible Web site with important information regarding the hepatotoxicity profile of more than 1000 approved medications and 60 herbal and dietary supplement products. It is hoped that ongoing "omics" studies will lead to additional insight into DILI pathogenesis, improved diagnostic and prognostic biomarkers, and mechanism-based treatments.

Acute severe non-A-E-hepatitis of unknown origin in children - A 30-year retrospective observational study from north-west Germany.

BACKGROUND & AIMS: The etiology of the current acute severe non-A-E hepatitis epidemic in children remains unclear. We aimed to describe the occurrence and outcomes of acute severe hepatitis in pediatric patients in North-West Germany over a period of more than 30 years and in the context of the current epidemic. METHODS: We analyzed all cases of acute severe hepatitis in childhood, as defined by the World Health Organization, at Hannover Medical School from 1990 and at the University Hospital of Essen from 2009 to 16 May 2022. We separated cases into a historic cohort (1990-2018) and a COVID-19 era cohort (2019-2022). RESULTS: After application of exclusion criteria, 107 patients with acute severe hepatitis were identified (2.32 cases/center/year). Annual incidence per center rose significantly from 2.2 (historic cohort until 2018) to 4.25/center/year (from 2019, p = 0.002). Of all cases, 75.7% presented with jaundice, while 53.3% had clinical signs of infection. Two cases of adenovirus were proven (2004/2016), other pathogens detected were HHV-6 (4), CMV, HSV, EBV(3). Sixty-nine patients (64.5%) met the criteria of pediatric acute liver failure, with 44 requiring liver transplantation. In the current cohort, patients with infection, gastrointestinal symptoms and higher alanine aminotransferase had a better chance of transplant-free survival, whereas hepatic encephalopathy, higher international normalized ratio and bilirubin predicted a poor outcome. Twenty-five patients developed hepatitis-associated aplastic anemia and 19 patients (17.8%) died. CONCLUSIONS: Acute non-A-E-hepatitis in children is a rare but severe entity, often leading to acute liver failure. Clinical presentation in our current cohort resembles 2022 NAEH cases, with improved outcomes compared to historic controls. The rising incidence of NAEH in our centers since 2019, in the absence of adenoviral infection, indicates other potential triggers of similar NAEH cases. IMPACT AND IMPLICATIONS: As the current epidemic of severe acute non-A-E-hepatitis cases in children highlights our limited understanding in the field, we aim to describe current cases, characterizing the presentation over time, and defining similarities and discrepancies before and during the COVID-19 pandemic. Our data show a rising incidence of non-A-E-hepatitis cases since the beginning of the COVID-19 pandemic. These cases were not associated with adenoviral infections, suggesting that the recently described accumulation of adenovirus infections in relationship to hepatitis is a new trigger for a known phenomenon, rather than a new disease entity. Therefore, the role of protective isolation and subsequent lack of contact with trivial infections in children during the pandemic should be the subject of further examinations. We expect our data to contribute to a better understanding of severe acute hepatitis in childhood, increased vigilance for this potentially lethal disease beyond the current epidemic, and ultimately improved clinical diagnosis and care.

SARS-CoV-2-mediated liver injury: pathophysiology and mechanisms of disease.

BACKGROUND: SARS-CoV-2-induced severe inflammatory response can be associated with severe medical consequences leading to multi-organ failure, including the liver. The main mechanism behind this assault is the aggressive cytokine storm that induces cytotoxicity in various organs. Of interest, hepatic stellate cells (HSC) respond acutely to liver injury through several molecular mechanisms, hence furthering the perpetuation of the cytokine storm and its resultant tissue damage. In addition, hepatocytes undergo apoptosis or necrosis resulting in the release of pro-inflammatory and pro-fibrogenic mediators that lead to chronic liver inflammation. AIMS: The aim of this review is to summarize available data on SARS-CoV-2-induced liver inflammation in addition to evaluate the potential effect of anti-inflammatory drugs in attenuating SARS-CoV-2-induced liver inflammation. METHODS: Thorough PubMed search was done to gather and summarize published data on SARS-CoV-2-induced liver inflammation. Additionally, various anti-inflammatory potential treatments were also documented. RESULTS: Published data documented SARS-CoV-2 infection of liver tissues and is prominent in most liver cells. Also, histological analysis showed various features of tissues damage, e.g., hepatocellular necrosis, mitosis, cellular infiltration, and fatty degeneration in addition to microvesicular steatosis and inflammation. Finally, the efficacy of the different drugs used to treat SARS-CoV-2-induced liver injury, in particular the anti-inflammatory remedies, are likely to have some beneficial effect to treat liver injury in COVID-19. CONCLUSION: SARS-CoV-2-induced liver inflammation is a serious condition, and drugs with potent anti-inflammatory effect can play a major role in preventing irreversible liver damage in COVID-19.

Heat Stroke Leading to a Fatal Outcome.

Heat stroke (HS) can cause several physiological changes in the body. In its most severe form, it can cause multi-organ failure including encephalopathy, circulatory shock, liver failure, renal failure, disseminated intravascular coagulation, and rhabdomyolysis among others. HS is a preventable condition; however, it can be life-threatening in severe forms. We present a case of HS in a 54-year-old male, with rapidly progressive multi-organ failure and a fatal outcome along with a brief literature review.

Severe Liver Injury Secondary to COVID-19-Induced Rhabdomyolysis in McArdle Disease.

Severe liver injury is an uncommon condition caused by non-traumatic rhabdomyolysis. This rare correlation is more commonly seen in the aspartate aminotransferase (AST) than in the alanine transaminase (ALT) level elevation. We report a case of a 27-year-old male with a history of McArdle disease who presented with generalized muscle aches associated with dark urine. His workup showed SARS-CoV-2 positive, severe rhabdomyolysis (creatinine kinase [CK] > 40000 U/L) and acute kidney injury (AKI) followed by severe liver injury (AST/ALT: 2122/383 U/L). He was started on aggressive intravenous hydration. After multiple boluses, he became overloaded, fluids were re-adjusted and continued, his renal function, CK, and liver enzymes improved, and the patient was discharged; during his visit at the post-discharge, the patient was asymptomatic and no clinical or laboratory abnormalities were found. The glycogen storage diseases are challenging, but prompt and accurate assessment is determinant in recognizing potential life-threatening complications of SARS-CoV-2. The failure to identify complicated rhabdomyolysis could lead to the patient's rapid deterioration, ending in multiorgan failure.