UMLS:C0015695 - FACTA Search

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Query: UMLS:C0015695 (fatty liver)
13,941 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During pregnancy, the future mother can develop several different diseases. Most of them have a benign prognosis. Cyanotic heart disease, at least when it is accompanied by significant pulmonary hypertension or induces a functional class IV represents a contra-indication to pregnancy. Pregnancy cardiomyopathy generally carries a poor prognosis and may be responsible for the mother's death. Herpes virus pneumopathy can also be extremely dangerous. Lupus erythematosus represents a factor of guarded prognosis for the outcome of pregnancy; discontinuation of the latter should be seriously considered. Hepatic steatosis which is a rare diagnosis must be distinguished from Hellp syndrome in which the maternal prognosis is much better. In this review, we shall briefly discuss various medical diseases which may have a deleterious influence on the evolution of pregnancy or on the foetus. These deleterious influences can be direct, i.e. due to the disease, or indirect, i.e. due to the therapy. We shall successively consider several neurological, cardiological, pulmonary, dermatological and digestive diseases. We shall not take into account viral infections or infections in general, diabetes mellitus or the various vasculo-renal syndromes.
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PMID:[Medical disorders which interfere with pregnancy]. 955 75

Long-chain 3-hydroxyacyl-CoA dehydrogenase (LCHAD) deficiency is one of the recently discovered defects of mitochondrial fatty acid beta-oxidation. As a group, the beta-oxidation defects are among the most common inherited metabolic disorders, and LCHAD deficiency appears to be the most frequently diagnosed beta-oxidation defect in Finland. In the vast majority of patients, LCHAD deficiency is caused by a common autosomal recessive mutation G1528C. Like several beta-oxidation defects, it presents during infancy with hypoglycemic coma, hepatic steatosis, and hypocarnitinemia. Other manifestations are cardiomyopathy and rhabdomyolysis, which are frequent in defects of long-chain fatty acid oxidation. In addition, LCHAD deficiency has specific features, namely peripheral neuropathy and chorioretinopathy. Female carriers of LCHAD deficiency are prone to have preeclampsia-related pregnancy complications. Diagnosis is suggested by 3-hydroxylated acylcarnitine species in blood and the definitive diagnosis can be made by measuring intermediates of fatty acid beta-oxidation in fibroblasts or by detecting disease causing mutations. Analysis of the frequency of the G1528C mutation in Finland revealed carrier frequency of 1:240. Because of therapeutic and prenatal diagnostic opportunities in LCHAD deficiency, it is important to recognize this severe disorder early in its course.
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PMID:Long-chain 3-hydroxyacyl-CoA dehydrogenase deficiency. 1022 30

Patients with long-chain 3-hydroxyacyl-CoA dehydrogenase (LCHAD) deficiency present with a Reye-like syndrome, cardiomyopathy, or sudden unexpected death. We describe an unusual presentation in a patient with unsuspected LCHAD deficiency. The proband presented at 2 months of age with an acute infantile hypocalcaemia and vitamin D deficiency associated with occult, unexplained cholestatic liver disease. Sudden, unexpected death occurred at 8 months. Molecular analysis revealed homozygosity for the prevalent LCHAD (1528G > C, E474Q) mutation. The mother had pre-eclampsia during the third trimester of her pregnancy. In a subsequent pregnancy, she developed severe acute fatty liver of pregnancy (AFLP) and intrauterine fetal death at 33 weeks of gestation. In conclusion, infantile hypocalcaemia is an unusual phenotype associated with LCHAD deficiency. The maternal pregnancy history documents that fetal LCHAD deficiency is associated with a spectrum of maternal illnesses ranging from pre-eclampsia to life-threatening AFLP.
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PMID:Long-chain 3-hydroxyacyl-CoA dehydrogenase deficiency: variable expressivity of maternal illness during pregnancy and unusual presentation with infantile cholestasis and hypocalcaemia. 1051 81

An increasing number of women with inborn errors of metabolism are now reaching child-bearing age. For certain disorders there are maternal risks associated with pregnancy. These may be related to an increased likelihood of metabolic decompensation (e.g. disorders of the urea cycle) or to increased stress to systems already compromised by disease (e.g. cardiomyopathy in GSD III). Detrimental effects upon the fetus may also be caused by maternal disease, as occurs with phenylketonuria, or from medication used to treat the mother's condition. Less commonly, fetal inborn errors may adversely effect the mother's health--e.g. fetal long-chain acyl-CoA dehydrogenase deficiency and the maternal HELLP syndrome (haemolysis, elevated liver enzymes and low platelets) and AFLP (acute fatty liver of pregnancy). Because of the rarity of individual disorders, our knowledge of risks associated with pregnancy is limited. Even for more common inborn errors such as phenylketonuria, there remain a number of questions that have not been fully answered.
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PMID:Inborn errors of metabolism and pregnancy. 1086 39

Coronary arteritis is rare but can be fatal either by itself or in conjunction with other diseases. The authors report cases of three men in whom coronary arteritis was an interesting finding that may have caused or contributed to death. One 45-year-old man collapsed at work, another 56-year-old man was found dead in his parked car, and one 80-year-old man had a recent cerebrovascular accident. All three men had coronary arteritis, arteriosclerotic cardiovascular disease, some form of myocardial disease, and fatty liver change. Two had different lung diseases. The findings suggest that coronary arteritis may be an independent cause of death, part of a systemic disease, or, as these three cases illustrate, part of a constellation of cardiac and cardiovascular pathologies with a possible relation to other medical conditions. Coronary arteritis is an important finding in forensic pathology and merits consideration in a case of unexplained death.
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PMID:Coronary arteritis diagnosed at autopsy: three case reports and review of the literature. 1111 95

Mitochondrial trifunctional protein (MTP) is a hetero-octamer of four alpha and four beta subunits that catalyzes the final three steps of mitochondrial long chain fatty acid beta-oxidation. Human MTP deficiency causes Reye-like syndrome, cardiomyopathy, or sudden unexpected death. We used gene targeting to generate an MTP alpha subunit null allele and to produce mice that lack MTP alpha and beta subunits. The Mtpa(-/-) fetuses accumulate long chain fatty acid metabolites and have low birth weight compared with the Mtpa(+/-) and Mtpa(+/+) littermates. Mtpa(-/-) mice suffer neonatal hypoglycemia and sudden death 6-36 hours after birth. Analysis of the histopathological changes in the Mtpa(-/-) pups revealed rapid development of hepatic steatosis after birth and, later, significant necrosis and acute degeneration of the cardiac and diaphragmatic myocytes. This mouse model documents that intact mitochondrial long chain fatty acid oxidation is essential for fetal development and for survival after birth. Deficiency of MTP causes fetal growth retardation, neonatal hypoglycemia, and sudden death.
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PMID:Lack of mitochondrial trifunctional protein in mice causes neonatal hypoglycemia and sudden death. 1139 Apr 22

Very long chain fatty acid dehydrogenase (VLCAD) deficiency is a rare but treatable cause of cardiomyopathy, fatty liver, skeletal myopathy, pericardial effusions, ventricular arrhythmias, and sudden death. Unrecognized, VLCAD deficiency may be rapidly progressive and fatal, secondary to its cardiac involvement. Because early diagnosis improves outcome, we present a neonate with VLCAD deficiency in whom retrospective analysis of the newborn screening card revealed that a correct diagnosis could have been made by newborn screening using tandem mass spectrometry. Our patient demonstrated a classic neonatal course with transient hypoglycemia at birth, interpreted as culture-negative sepsis, followed by a quiescent period notable only for hypotonia and poor feeding. At 3 months, he presented with cardiorespiratory failure and pericardial effusions, requiring pericardiocentesis, tracheostomy, and prolonged mechanical ventilation. Plasma free-fatty acid and acylcarnitine profiles demonstrated small but significant elevations of C14:2, C14:1, C16, and C18:1 acylcarnitine species, findings consistent with a biochemical diagnosis of VLCAD deficiency. Enteral feeds were changed to Portagen formula with marked improvement in cardiac symptoms over several weeks. To confirm the biochemical diagnosis, molecular analysis was performed by analysis of genomic DNA on a blood sample of the patient. Sequencing analysis and delineation of VLCAD mutations were performed using polymerase chain reaction and genomic sequencing. The patient was heterozygous for 2 different disease-causing mutations at the VLCAD locus. The maternal mutation was a deletion of bp 842-3 in exon 8, causing a shift in the reading frame. The paternal mutation was G+1A in the consensus donor splice site after exon 1; this splice-site mutation would likely result in decreased mRNA. The likely consequence of these mutations is essentially a null phenotype. To determine whether this case could have been picked up by tandem mass spectrometry analysis at birth when the patient was asymptomatic, acylcarnitine analysis was performed on the patient's original newborn card (after obtaining parental consent, the original specimen was provided courtesy of Dr Kenneth Pass, Director, New York State Newborn Screening Program). The blood sample had been obtained at 1 week of age and stored at room temperature for 6 months and at 70 degrees C thereafter for 18 months. Electrospray tandem mass spectrometry used a LC-MS/MS API 2000 operated in ion evaporation mode with the TurboIonSpray ionization probe source. The acylcarnitine profile obtained from the patient's original newborn card was analyzed 2 years after it was obtained. In comparison with a normal control, there was a significant accumulation of long chain acylcarnitine species, with a prominent peak of tetradecenoylcarnitine (C14:1), the most characteristic metabolic marker of VLCAD deficiency. This profile would have likely been even more significant if it had been analyzed at the time of collection, yet 2 years later is sufficient to provide strong biochemical evidence of the underlying disorder. Discussion. VLCAD was first discovered in 1992, and clinical experience with VLCAD deficiency has been accumulating rapidly. Indeed, the patients originally diagnosed with long chain acyl-CoA deficiency suffer instead from VLCAD deficiency. The phenotype of VLCAD deficiency is heterogeneous, ranging from catastrophic metabolic and cardiac failure in infancy to mild hypoketotic, hypoglycemia, and exertional rhabdomyolysis in adults. This case demonstrates that VLCAD deficiency could have been detected from the patient's own neonatal heel-stick sample. Most likely, a presymptomatic diagnosis would have avoided at least part of a lengthy and intensive prediagnosis hospitalization that had an estimated cost of $400 000. Although VLCAD is relatively rare, timely and correct diagnosis leads to dramatic recovery, so that detection by newborn screening could prevent the onset of arrhythmias, heart failure, metabolic insufficiency, and death. Fatty acid oxidation defects, including VLCAD deficiency, may account for as many as 5% of sudden infant death patients. Recent instrumentation advances have made automated tandem mass spectrometry of routine neonatal heel-stick samples technically feasible. Pilot studies have demonstrated an incidence of fatty acid oxidation defects, including short chain, medium chain, and very long chain acyl-CoA dehydrogenase deficiencies, of approximately 1/12 000. As a result, cost-benefit ratios for this approach should be systematically examined.
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PMID:Diagnosis of very long chain acyl-dehydrogenase deficiency from an infant's newborn screening card. 1143 98

Mitochondrial beta-oxidation of fatty acids is vital for energy production in periods of fasting and other metabolic stress. Human patients have been identified with inherited disorders of mitochondrial beta-oxidation of fatty acids with enzyme deficiencies identified at many of the steps in this pathway. Although these patients exhibit a range of disease processes, Reye-like illness (hypoketotic-hypoglycemia, hyperammonemia and fatty liver) and cardiomyopathy are common findings. There have been several mouse models developed to aid in the study of these disease conditions. The characterized mouse models include inherited deficiencies of very long-chain acyl-CoA dehydrogenase, long-chain acyl-CoA dehydrogenase, short-chain acyl-CoA dehydrogenase, mitochondrial trifunctional protein-alpha, and medium-/short-chain hydroxyacyl-CoA dehydrogenase. Mouse mutants developed, but presently incompletely characterized as models, include carnitine palmitoyltransferase-1a and medium-chain acyl-CoA dehydrogenase deficiencies. In general, the mouse models of disorders of mitochondrial fatty acid beta-oxidation have shown clinical signs that include Reye-like syndrome and cardiomyopathy, and many are cold intolerant. It is expected that these mouse models will provide vital contributions in understanding the mechanisms of disease pathogenesis of fatty acid oxidation disorders and the development of appropriate treatments and supportive care.
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PMID:Mouse models for disorders of mitochondrial fatty acid beta-oxidation. 1191 57

The prevalence of individual hereditary metabolic diseases is low, but together they constitute an important group in which pregnancy is of growing interest because patients more often reach adulthood and consider progeny. Hereditary metabolic diseases of the woman, such as hyperhomocystinemia or urea cycle defect, can present during or directly after pregnancy for the first time with thrombosis or coma, respectively. Other hereditary metabolic diseases of the woman, such as glycogen storage disease type I or III, can progress during pregnancy and may result in renal insufficiency or cardiomyopathy. Maternal hereditary metabolic diseases, such as poorly controlled hyperhomocystinemia or phenylketonuria, can deleteriously affect the foetus. Hereditary metabolic diseases of the foetus may have implications for the foetus itself, e.g., lysosomal storage diseases of the foetus may cause hydrops foetalis, cardiomyopathy, or foetal demise. In addition, hereditary defects of long chain fatty acid oxidation of the foetus may result in severe haemolysis and elevated liver enzymes and low platelets, or acute fatty liver of pregnancy in the mother.
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PMID:[Inherited metabolic diseases and pregnancy: consequences for mother and child]. 1262 77

Mitochondrial toxicity has been implicated in the development of a variety of nucleoside reverse transcriptase inhibitor-associated syndromes. Mitochondrial damage and decreases in mitochondrial DNA levels have been demonstrated in various tissues of patients treated with NRTIs, especially in conjunction with exposure to stavudine. Clinical syndromes that may be mediated by mitochondrial toxicity include hyperlactatemia and lactic acidosis, hepatic steatosis, lipoatrophy, peripheral neuropathy, HIV-associated neuromuscular weakness syndrome, pancreatitis, skeletal myopathies, and cardiomyopathy. Early recognition of these syndromes in their mild forms involves close monitoring and a high index of suspicion. This may allow prompt discontinuation of the causative agent(s) and initiation of appropriate therapeutic measures, thereby increasing the chances of reversibility of the syndrome.
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PMID:Mitochondrial dysfunction: patient monitoring and toxicity management. 1531 67

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