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Query: UMLS:C0023890 (
cirrhosis
)
42,195
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hereditary tyrosinemia type I
presents with either acute hepatic failure in the neonatal period or later in infancy with progressive liver dysfunction secondary to
cirrhosis
. The inevitably fatal outcome in those children with the chronic form has been transformed with the advent of liver transplantation. Native livers from five children who received allografts were studied pathologically and compared with earlier hepatic biopsies in two of these patients that had been performed several years before transplantation. Our findings support the conclusion that a sequence of morphologic changes from the initial micronodular
cirrhosis
through an intermediate mixed cirrhotic pattern to macronodular
cirrhosis
occurs. The micronodular phase is transitory, over a period of only a few months, since mixed micronodular macronodular
cirrhosis
was already present in the livers of children who received transplants by 11 months of age. Focal hepatocellular dysplasia was present in one of the livers with mixed
cirrhosis
but was not identified in the other two cases. Macronodular cirrhosis accompanied two cases of hepatocellular carcinoma in this study. In order to preclude the latter complication, liver replacement is necessary before the age of 2 years.
...
PMID:Hereditary tyrosinemia type I (chronic form): pathologic findings in the liver. 253 31
Hereditary tyrosinemia type I
(HTI, McKusick 276700) is an autosomal recessive disease caused by deficient fumarylacetoacetate hydrolase (FAH, EC 3.7.1.2) activity. HTI is characterized by progressive liver dysfunction with nodular
cirrhosis
often leading to hepatocellular carcinoma. Two extremes of the clinical phenotype have been described: the "acute" (severe, early onset and death) and "chronic" (delayed onset and slow course) phenotype. Allelic heterogeneity and/or mutation reversion in hepatic cells have been proposed earlier to explain the clinical heterogeneity. Two probands (one "acute," one "chronic") from the French-Canadian isolate where HTI is prevalent were studied. Both were homozygous (germ line) for the severe splice mutation IVS12 + 5g --> a; both showed liver mosaicism for FAH immunoreactivity with evidence for mutation reversion to heterozygosity (IVS12 + 5g --> a/+) in FAH-stained nodules as shown by amplification of DNA extracted from microdissected nodules. Western blot analysis of proteins from a reverted FAH-expressing nodule showed 29 +/- 3% FAH immunoreactive material as compared to an average normal liver. This was consistent with the measured FAA hydrolytic activity (25%) in this large regenerating nodule. These findings show that genotypic heterogeneity is not a sufficient explanation for clinical heterogeneity and implicate epigenetic and other factors modifying the phenotype in HTI.
...
PMID:Different clinical forms of hereditary tyrosinemia (type I) in patients with identical genotypes. 970 36
Tyrosinemia type I
is an autosomal recessively inherited metabolic disease of tyrosine metabolism due to the deficiency of fumarylacetoacetate hydrolase. Clinical manifestations include hepatic failure,
cirrhosis
, hepatocellular carcinoma, renal fanconi syndrome, and neurologic crisis. With the introduction of 2-(2-nitro-4-trifluoro-methylbenzyol)-1,3 cyclohexanedione treatment the prognosis improved with reduced rate of complications. "Neurologic crisis" of tyrosinemia type I is a rare complication seen after discontinuation of treatment characterized with anorexia, vomiting, and hyponatremia in the initial phase continuing with paresthesia and paralysis of the extremities and the diaphragm. Here, we report a tyrosinemia type I patient who admitted to the hospital with nonspecific symptoms such as vomiting, anorexia, weakness, and restlessness only after one month discontinuation of nitisone and diagnosed as neurological crisis.
...
PMID:Tyrosinemia type 1 and irreversible neurologic crisis after one month discontinuation of nitisone. 2718 89
Tyrosinemia type I
(TYRSN1, TYR I) is caused by fumarylacetoacetate hydrolase (FAH) deficiency and affects approximately one in 100,000 individuals worldwide. Pathogenic variants in FAH cause TYRSN1, which induces
cirrhosis
and can progress to hepatocellular carcinoma (HCC). TYRSN1 is characterized by the production of a pathognomonic metabolite, succinylacetone (SUAC) and is included in the Recommended Uniform Screening Panel for newborns. Treatment intervention is effective if initiated within the first month of life. Here, we describe a family with three affected children who developed HCC secondary to idiopathic hepatosplenomegaly and
cirrhosis
during infancy. Whole exome sequencing revealed a novel homozygous missense variant in FAH (Chr15(GRCh38):g.80162305A>G; NM_000137.2:c.424A > G; NP_000128.1:p.R142G). This novel variant involves the catalytic pocket of the enzyme, but does not result in increased SUAC or tyrosine, making the diagnosis of TYRSN1 problematic. Testing this novel variant using a rapid, in vivo somatic mouse model showed that this variant could not rescue FAH deficiency. In this case of atypical TYRSN1, we show how reliance on SUAC as a primary diagnostic test can be misleading in some patients with this disease. Augmentation of current screening for TYRSN1 with targeted sequencing of FAH is warranted in cases suggestive of the disorder.
...
PMID:Silent Tyrosinemia Type I Without Elevated Tyrosine or Succinylacetone Associated with Liver Cirrhosis and Hepatocellular Carcinoma. 2739 3
Hereditary tyrosinemia type I
(HT1) is caused by a deficiency in the enzyme fumarylacetoacetate hydrolase (Fah). Fah-deficient mice and pigs are phenotypically analogous to human HT1, but do not recapitulate all the chronic features of the human disorder, especially liver fibrosis and
cirrhosis
. Rats as an important model organism for biomedical research have many advantages over other animal models. Genome engineering in rats is limited till the availability of new gene editing technologies. Using the recently developed CRISPR/Cas9 technique, we generated Fah(-/-) rats. The Fah(-/-) rats faithfully represented major phenotypic and biochemical manifestations of human HT1, including hypertyrosinemia, liver failure, and renal tubular damage. More importantly, the Fah(-/-) rats developed remarkable liver fibrosis and
cirrhosis
, which have not been observed in Fah mutant mice or pigs. Transplantation of wild-type hepatocytes rescued the Fah(-/-) rats from impending death. Moreover, the highly efficient repopulation of hepatocytes in Fah(-/-) livers prevented the progression of liver fibrosis to
cirrhosis
and in turn restored liver architecture. These results indicate that Fah(-/-) rats may be used as an animal model of HT1 with
liver cirrhosis
. Furthermore, Fah(-/-) rats may be used as a tool in studying hepatocyte transplantation and a bioreactor for the expansion of hepatocytes.
...
PMID:Efficient liver repopulation of transplanted hepatocyte prevents cirrhosis in a rat model of hereditary tyrosinemia type I. 2751 Feb 66
Hereditary tyrosinemia type I
(HTI) is a metabolic genetic disorder caused by mutation of fumarylacetoacetate hydrolase (FAH). Because of the accumulation of toxic metabolites, HTI causes severe
liver cirrhosis
, liver failure, and even hepatocellular carcinoma. HTI is an ideal model for gene therapy, and several strategies have been shown to ameliorate HTI symptoms in animal models. Although CRISPR/Cas9-mediated genome editing is able to correct the
Fah
mutation in mouse models, WT Cas9 induces numerous undesired mutations that have raised safety concerns for clinical applications. To develop a new method for gene correction with high fidelity, we generated a
Fah
mutant rat model to investigate whether Cas9 nickase (Cas9n)-mediated genome editing can efficiently correct the
Fah
First, we confirmed that Cas9n rarely induces indels in both on-target and off-target sites in cell lines. Using WT Cas9 as a positive control, we delivered Cas9n and the repair donor template/single guide (sg)RNA through adenoviral vectors into HTI rats. Analyses of the initial genome editing efficiency indicated that only WT Cas9 but not Cas9n causes indels at the on-target site in the liver tissue. After receiving either Cas9n or WT Cas9-mediated gene correction therapy, HTI rats gained weight steadily and survived. Fah-expressing hepatocytes occupied over 95% of the liver tissue 9 months after the treatment. Moreover, CRISPR/Cas9-mediated gene therapy prevented the progression of
liver cirrhosis
, a phenotype that could not be recapitulated in the HTI mouse model. These results strongly suggest that Cas9n-mediated genome editing is a valuable and safe gene therapy strategy for this genetic disease.
...
PMID:Cas9-nickase-mediated genome editing corrects hereditary tyrosinemia in rats. 3112 60
