UMLS:C0019209 - FACTA Search

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Query: UMLS:C0019209 (hepatomegaly)
5,798 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Storage diseases of the liver are reviewed, classified according to the clinical symptoms. Glycogen storage diseases go along with enlargement of the liver, - the size of the spleen being normal in the beginning; presenting symptoms in many cases are metabolic disturbances as for instance hypoglycemia. Acute symptoms due to derangement of liver function occur in galactosemia and in hereditary fructose intolerance when uptake of the hexoses is not tolerated. Splenomegaly and hepatomegaly are typical in certain lipid storage diseases; these diseases may as well exhibit hematologic symptoms. Bone dysplasias are discussed finally, which use to go along with enlargement of the liver due to storage of compounds not metabolized.
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PMID:[Hereditary storage diseases of the liver (author's transl)]. 39 11

Twenty infants and young children with hereditary fructose intolerance (HFI) were admitted to hospital. None was diagnosed at admission. Referals were for vomiting of unknown aetiology (16X), pyloric stenosis or hiatus hernia (5X), toxic condition (3X), and hepatomegaly of unknown origin (5X). Feeding difficulties (20X), vomiting (18X), and failure to thrive (16X) were leading symptoms. The most frequent clinical findings were hepatomegaly (18X), pallor (14X), haemorrhages (13X). Ascites, oliguria, tachypnoea, fever, splenomegaly and rickets were less frequent. Laboratory findings were indicative of disturbed hepatic and renal tubular function and also of disturbed intermediary metabolism (hypokaliaemia, hypophosphataemia). However, hypoglycaemia was found in only 4 out of 15 patients tested. Differential diagnosis after hospital admission centered on metabolic disorders such as glycogenoses, galactosaemia, tyrosinosis, or Wilson's disease. Hepatitis, toxic hepatosis, liver tumour, intrauterine infection and sepsis were also considered. Eleven children had first ingested fructose within the first 6 weeks of life. The diagnosis was usually established only many weeks or months after first fructose intake and appearance of symptoms. This documents how difficult the diagnosis of this disease can be both in practice and in hospital. The course was severe in 11 children and lethal in 4. In only 5 patients was the course mild. The 16 survivors are doing well under fructose-exclusion diet. Irreversible visual impairment after intraocular haemorrhage occurred once. In each case HFI could have been suspected immediately, had a detailed nutritional history been taken. Practising paediatricians should know the composition of commonly used infant formulae. They should never prescribe sugared condensed milk for intractable vomiting prior to excluding HFI. Solution for intravenous infusion containing fructose and sorbitol are life-threatening for undiagnosed HFI patients.
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PMID:Hereditary fructose intolerance in early childhood: a major diagnostic challenge. Survey of 20 symptomatic cases. 73

Some clinical clues should alert paediatricians to the possibility of metabolic liver diseases. They can be classified into three categories: (i) Manifestations due to hepatocellular necrosis, acute or subacute, which can reveal galactosaemia, hereditary fructose intolerance, tyrosinaemia type I, Wilson disease and alpha 1-antitrypsin deficiency. Symptoms and signs suggestive of Reye syndrome should lead to a study of fatty acid oxidation and urea cycle enzymes. All these manifestations may necessitate a rapid diagnosis and treatment when liver dysfunction is severe. (ii) Cholestatic jaundice can reveal alpha 1-antitrypsin deficiency, Byler's disease, cystic fibrosis, Niemann-Pick disease and some disorders of peroxisome biogenesis. (iii) Hepatomegaly can reveal disorders with liver damage but also storage diseases such as glycogen storage diseases, cholesteryl ester storage disease and, when associated with splenomegaly, lysosomal storage diseases. Appropriate investigations for recognizing all these entities are proposed.
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PMID:Clinical presentation of metabolic liver disease. 174 17

When the etiology of an hypoglycemia is not easily recognizable, the diagnosis can be guided by 2 signs: hepatomegaly and ketosis. If an hepatomegaly is present, an abnormality of glycogen metabolism or neoglucogenesis or an hereditary fructose intolerance may be suspected. A hypoketotic hypoglycemia suggests a hyperinsulinism or an impaired fatty acid oxydation. If the liver is normal and ketosis is normal or increased, an abnormality of branched amino acid metabolism or a ketotic hypoglycemia may be evoked.
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PMID:[Etiologic diagnosis of hypoglycemia in children]. 216 Jun 40

A case of hereditary fructose intolerance is reported in a girl aged 2 years at the time of her death. She had apparently progressed normally until the age of 14 months. At 19 months she was admitted to hospital with failure to thrive, hepatomegaly, and superficial infections. Investigations revealed hypoglycaemia, persistent acidosis, aminoaciduria, and a high liver glycogen level which suggested that she had glycogen storage disease. There was also some evidence of malabsorption. At necropsy the liver enzyme estimations showed that fructose 1-phosphate aldolase activity was absent and that fructose 1,6-diphosphate aldolase activity was reduced. Hereditary fructose intolerance and glycogen storage disease have been confused in the past on clinical grounds, but a high liver glycogen level has not previously been reported in hereditary fructose intolerance.
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PMID:High liver glycogen in hereditary fructose intolerance. 528 93

We observed eight infants with hereditary fructose intolerance which had been diagnosed by the fructose tolerance test and an aldolase assay on biopsied liver. None of these had been diagnosed before their admission to our department. The most frequent symptoms were vomiting and failure to thrive. All the patients had hepatomegaly. Laboratory findings were indicative of disturbed hepatic function. Hypoglycemia was found in only 3 out of 8 patients. The course was lethal in 2 patients; the 6 survivors are doing well following a fructose-free diet. The importance of practising paediatricians having the detailed nutritional history of the patient and precise knowledge of infant food formulae is stressed. The danger of using fructose continuing solutions for infusion therapy is pointed out. We also report a case of F-1,6-diphosphatase deficiency.
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PMID:[Clinical heterogeneity in fructose intolerance]. 717 Jan 90

We describe the case of 13 year old boy who was admitted to the hospital in order to find the reason of hepatomegaly and increased echogenicity observed in sonography. The thorough anamnesis revealed aversion to products containing fructose and thus hereditary fructose intolerance appeared the most probable in this case. The preliminary diagnosis was confirmed by oral fructose tolerance test.
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PMID:[Congenital fructose intolerance diagnosed in a 13-year-old boy]. 757 25

Hereditary fructose intolerance (HFI) is an autosomal recessive disease caused by catalytic deficiency of aldolase B (fructose-1, 6-bisphosphate aldolase). Herein we report on a case of hereditary fructose intolerance with initial presentation of episodic unconsciousness, seizure, hypoglycemia, hepatomegaly, and abnormal liver function since the patient was 11 months old. She was diagnosed as Reye's-like syndrome according to a liver biopsy done at 20 months of age. As she grew up, cold sweating, abdominal pain or gastrointestinal discomfort shortly after the intake of fruits was noted and she developed an aversion to fruits, vegetables and sweet-tasting foods. At 9 years of age, a fructose tolerance test signified a positive result that induced hypoglycemia, transient hypophosphatemia, hyperuricaemia, elevation of serum magnesium, and accumulation of lactic acid. Appropriate dietary management and precautions were recommended. The patient has been symptom-free and exhibited normal growth and development when followed up to 12 years of age.
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PMID:Hereditary fructose intolerance presenting as Reye's-like syndrome: report of one case. 1102 Oct 9

We present the case of a 17-year-old male who was diagnosed at birth with hereditary fructose intolerance (HFI). The patient complained of morning-time asthenia and post-prandial drowsiness despite a correct sleep pattern. The physical examination and biological check-up only showed severe vitamin C deficiency (<10 mol/l; normal range: 26-84). The patient's tiredness was attributed to this vitamin C deficiency, which is a frequent side-affect of the fructose-free diet. A change in diet associated with a supplementation in vitamin C was advised, with an increase in vegetable intake, principally avoiding carrots, onions, leaks and tinned sweet-corn. This case offers the opportunity for a review of this rare disease. Two kinds of fructose metabolism disorders (both autosomal recessive) are recognized: 1) essential fructosuria caused by a deficiency of fructokinase, which has no clinical consequence and requires no dietary treatment; 2) HFI, linked to three main mutations identified in aldolase B gene that may be confirmed by fructose breath test, intravenous fructose tolerance test, and genetic testing. In HFI, fructose ingestion generally induces gastro-intestinal (nausea and vomiting, abdominal pain, meteorism) and hypoglycemic symptoms. Fasting is well tolerated. If the condition remains undiagnosed, it leads to liver disease with hepatomegaly, proximal tubular dysfunction, and slow growth and weight gain. In conclusion, endocrinologists should be aware of this rare metabolic disease in order to provide careful follow-up, particularly important when the patient reaches adulthood. Moreover, hypoglycemia induced by fructose absorption, unexplained liver disease, irritable bowel syndrome or familial gout in an adult is suggestive of the diagnosis.
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PMID:Doctor, my son is so tired... about a case of hereditary fructose intolerance. 1803 30

Adamowicz and colleagues raised the alert in 2007 about patients with atypical hereditary fructose intolerance (HFI) primarily misdiagnosed as CDG Ix. We describe a girl with neonatal hypertonia, facial trismus, absent swallowing and coughing reflexes, gastro-oesophageal reflux and sporadically elevated Krebs cycle metabolites and lactate. At 14 months microcephaly and hepatomegaly were noted, with hypertransaminasaemia but normal blood coagulation, glucose, phosphate, and absent urinary reducing substances. Neurological impairment persisted. Because of hepatic and neurological abnormalities with developmental delay, Tf IEF was performed and showed a severe type 1 pattern, resulting in a wrong diagnosis of CDG. Subsequently, an aversion to fruits suggested HFI, confirmed by the finding of ALDOB mutations (p.A150P/p.N335K). The girl improved with fructose-free diet, but liver cirrhosis led to hepatic transplantation. She is now 7 years old with good evolution; facial trismus and hypertonia reversed, but microcephaly persists. Transferrin MALDI-TOF MS characterization revealed underoccupation of glycosylation sites and glycan abnormalities, which reversed with dietary treatment. High maternal fructose concentrations might have caused neonatal abnormalities. Although in our patient's mother there is no fructose accumulation at present, it is possible that increased ingestion of fruits and vegetables during pregnancy, together with her heterozygosity, caused an accumulation of fructose that finally affected the fetus. We also describe slightly abnormal transferrin isoelectric focusing and MALDI-TOF MS patterns of intact transferrin and N-glycans in a fructose-1,6-bisphosphatase (FBP1)-deficient patient. While HFI is a well-known cause of secondary CDG, we found no reports of abnormal transferrin isoelectric focusing patterns in FBP1 deficiency and we introduce this condition as a possible secondary cause for altered transferrin isoelectric focusing.
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PMID:Secondary disorders of glycosylation in inborn errors of fructose metabolism. 1976 53

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