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Enzyme
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Target Concepts:
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Query: UMLS:C0019209 (
hepatomegaly
)
5,798
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Each of 12 types of glycogen storage disease (GSD O-XI) is delineated by clinical, biochemical and histologic features that allow its identification in future patients.
GSD II
occurs in 2 forms that are not both encountered in the same family. GSD IIa is the infantile fatal form with cardiomegaly, increased cardiac glycogen concentration and cardiac failure; GSD IIb is the adult form with clinically normal heart and normal cardiac glycogen concentration. Nonetheless, the heart muscle of both forms is equally deficient in
acid alpha-glucosidase
activity, and this raises questions as to the latter's role in the pathophysiology of
GSD II
. The appearance of hepatocytes in GSD IIa becomes normal after the administration of alpha-glucosidase. Using electron microscopy of uncultured amniotic fluid cells, the prenatal diagnosis of GSD IIa is feasible within one day after the amniocentesis. GSD VI and IX are instances of benign
hepatomegaly
except when GSD IX and III occur in the same child; one such patient died suddenly at home. There are 2 modes of inheritance in GSD IX: one (GSD IXa) is autosomal recessive, the other one (GSD IXb) is X-linked recessive. In either form the Km of the remaining liver phosphorylase kinase is normal. Both forms of GSD IX have the normal blood sugar response to glucagon, whereas GSD VI does not. Equally, the glucagon tolerance curve is flat in GSD XI although in vitro activity of glycolytic enzymes is normal. The in vivo administration of glucagon in GSD XI is followed by the normal increase of both urinary 3'5'-AMP and hepatic phosphorylase activity. GSD V may have increased activity of muscle phosphorylase kinase. Deficiencies of debrancher, liver phosphorylase and liver phosphorylase kinase can occur singly or in combination. Before any novel treatment of GSD is initiated, one should obtain tissue for the biochemical determination of the exact type of GSD. This is so because the clinical signs may not indicate the type with the necessary precision, and because some types are compatible with normal life and thus may not require therapy, especially if the latter is unproved and potentially dangerous.
...
PMID:Glycogen storage diseases. 78 7
Pathological and biochemical data are reported on a 4(4)/12-year-old male patient with a severe myopathic disorder,
hepatomegaly
, recurrent pulmonary infections ending fatally. Combined morphological and enzymatic studies on muscle biopsy led to the diagnosis of acid maltase deficiency (Type II glycogenosis). On post mortem examination, lysosomal glycogen storage is found in skeletal muscles and liver, while heart and central nervous sytem are spared. Both hydrolytic and transferase activities of
acid maltase
are absent in cultured fibroblasts, heart, liver and postmortem skeletal muscles. That in the biopsied skeletal muscle only, the transferase activity alone is deficient while the hydrolytic function is maintained at low normal levels correlates well with the abnormal structure of the glycogen stored in that muscle. However, these findings on biopsied muscle cannot be reconciled with the absence of both functions and the presence of normal glycogen in other biopsied tissues or in postmortem specimens from the same patient.
...
PMID:Acid maltase deficiency (type II glycogenosis). Morphological and biochemical study of a childhood phenotype. 106 22
Two unrelated 16-year-old boys had mental retardation, cardiomegaly, and proximal myopathy. One also had
hepatomegaly
. Histochemistry and electronmicroscopy of muscle biopsies showed lysosomal glycogen storage resembling acid maltase deficiency. Biochemical studies of skeletal muscle showed increased content of glycogen of normal structure;
acid alpha-glucosidase
activity in both urine and muscle was normal. Other enzymes of glycogen metabolism were also normal. The cause of this apparently generalized glycogenosis with no demonstrable enzyme defect is unknown.
...
PMID:Lysosomal glycogen storage disease with normal acid maltase. 645 Mar 34
The infantile form of
GSD II
(an inherited deficiency of the lysosomal enzyme,
acid alpha-glucosidase
, Pompe disease) is a severe and invariably fatal disease characterized by a rapidly progressive generalized hypotonia,
hepatomegaly
, and cardiomegaly. We have recently demonstrated that African American patients share a common nonsense R854X mutation in exon 18 (Becker et al., 1998). Two other mutations, D645E and M519V, have been identified in individual African American patients (Hermans et al., 1993a; Huie et al., 1994a). We describe here three novel mutations in this population group: a missense W481R in exon 10, a deletion of a T1441 in exon 10, and a splicing defect at the 5' donor site of intron 8 (IVS g+la) . The splicing defect is shared by two unrelated patients and it is linked to intragenic polymorphic sites identical to those found in patients bearing the common R854X mutation.
...
PMID:Novel mutations in African American patients with glycogen storage disease Type II. Mutations in brief no. 209. Online. 1018 20
The authors report on a Thai boy who first presented at age 7 months and an unrelated Thai girl in her neonatal period with hypotonia, cardiomegaly and
hepatomegaly
. Their chest roentgenograms showed markedly enlarged hearts, EKGs showed abnormally shortened PR intervals with gigantic QRS complexes, and electron microscopic studies of their skin samples showed glycogen accumulations surrounded by membranes. The boy died at age 22 months and the girl at age 9 months due mainly to cardiorespiratory failure. Autopsy of the girl showed marked accumulation of glycogen in the liver, heart and numerous additional tissues including her brain. The clinical, pathological, and electron microscopic findings of these two children are consistent with the diagnosis of Pompe disease. Pompe disease is an autosomal recessive disorder of glycogen metabolism resulting from deficiencies in activity of the lysosomal
acid alpha-glucosidase
. Definite diagnosis of the disease can be made from a biochemical test or a mutation analysis. To the authors' knowledge, no service laboratories in Thailand offer the tests. Because Thai children have occasionally been reported to be affected by Pompe disease, an attempt to establish a definite diagnostic test for Pompe disease in Thailand should be encouraged. With a definite diagnosis, the proper genetic counseling and prenatal diagnosis could be offered to the families.
...
PMID:Clinical, pathological, and electron microscopic findings in two Thai children with Pompe disease. 1218 23
Pompe disease is a rare autosomal recessive disease caused by the deficiency of
acid alpha-glucosidase
(GAA), which is required for the degradation of lysosomal glycogen. Glycogen accumulation in heart, muscle and liver eventually leads to muscle weakness,
hepatomegaly
and cardiomegaly. Although an approved therapy does not exist, the efficacy of enzyme replacement therapy (ERT) has recently been reported in multinational trials in Europe and the US. Here, we present data on the efficacy of recombinant human
acid alpha-glucosidase
(rhGAA) (provided by Genzyme Corporation) in a patient with Pompe disease. At 5 months of age, motor delay (could not raise his head) and cardiomegaly were observed. A definite diagnosis of Pompe disease was made at 8 months of age after the accumulation of glycogen in a muscle biopsy specimen was observed. This was confirmed by low GAA activity. Since then, motor delay predominated and he was unable to sit independently by age 2.5 years. Every 2 weeks, 20 mg/kg of rhGAA was infused intravenously. To assess the effectiveness, chest X-ray, echocardiography and auditory brain response were recorded. The patient was administered rhGAA for 26 months from 2 years and 8 months of age. Following the initiation of ERT,
hepatomegaly
and cardiac function (ejection fraction) were rapidly improved and motor function was gradually improved. At 4 years and 10 months, the patient could walk with support. No adverse event has been observed. It can be concluded that ERT with rhGAA is an effective and safe regimen for this case.
...
PMID:[Enzyme replacement therapy in a patient with Pompe disease]. 1787 14
Pompe disease (acid maltase deficiency, glycogen storage disease type II) is a rare progressive autosomal recessive disorder caused by a deficiency of lysosomal hydrolase
acid alpha-glucosidase
. Historically, infantile-onset Pompe disease presents with cardiomegaly,
hepatomegaly
, weakness and hypotonia leading to death caused by cardiorespiratory failure in the first year of life. Enzyme replacement therapy has recently become available and has been shown to be effective in prolonging survival and improving respiratory performance. In this article, we report a case of infantile-onset Pompe disease successfully managed with enzyme replacement therapy during the critical period. We would like to highlight the occurrence of sudden cardiac arrest in our patient during the early course of enzyme replacement therapy, which has not been reported before. A novel mutation was also identified in the family.
...
PMID:Enzyme replacement therapy for infantile Pompe disease during the critical period and identification of a novel mutation. 1996 54
Pompe disease (PD) is a rare, inherited autosomal recessive metabolic disorder caused by the deficiency of the lysosomal
acid alpha-glucosidase
(GAA) enzyme described in 1932 by the Dutch pathologist Joannes Cassianus Pompe. The prevalence of PD ranges from 1:40,000 to 1:300,000 births and depends on geographic and ethnic factors. Clinical manifestations may vary from a rapidly progressive disabling disease with cardiomegaly,
hepatomegaly
, weakness, generalized hypotonia, and death within the first year of life, to a mild presentation characterized by slowly progressive myopathy predominantly involving the skeletal muscles. The laboratory diagnostic gold standard is represented by the determination of the alpha-glucosidase activity. However, the muscle histology may also yield the diagnosis by evaluating the tissular glycogen accumulation. Until recently, supportive measures constituted the unique available therapy. Currently, the administration of the recombinant GAA is being used with promising results. The authors present the case of a 5-month-old boy, previously diagnosed with hypertrophic cardiomyopathy since the age of 2 months, who presented acute heart failure accompanied by biventricular dilation followed by refractory shock and death. The autopsy findings confirmed the glycogen-accumulation disease.
...
PMID:The infantile-onset form of Pompe disease: an autopsy diagnosis. 2689 45
