Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019214 (hepatosplenomegaly)
 4,408 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alglucerase is a mannose-terminated form of human placental glucocerebrosidase, developed to treat patients with Gaucher's disease. Functional glucocerebrosidase is deficient in Gaucher's disease, an autosomal recessive lipid storage disorder that affects people of all ethnic backgrounds, but has a higher incidence among East European Jews (Ashkenazim). Gaucher's disease manifests with hepatosplenomegaly, bleeding disorders and bone disease, with the more rare subtypes (types 2 and 3) featuring neurological dysfunction. Prior to the development of enzyme replacement therapy, treatment for Gaucher's disease was mainly symptomatic relief. Primary treatment with glucocerebrosidase focuses on removal of the lipid metabolite that causes the pathology. Because of the rarity of Gaucher's disease clinical trials are small, and much of the data investigating alglucerase therapy have been obtained from studies of patients with type 1 disease, the prevalent subtype. Nonetheless, after intravenous administration of alglucerase, improvements are evident within 6 months of therapy. Patients have increased haemoglobin levels and platelet counts, and decreased incidences of epistaxis and bruising. Spleen and liver size are reduced, and skeletal parameters improve. Children gain height and most patients receiving alglucerase therapy are able to resume work and daily activities. Alglucerase is well tolerated, with few mild adverse reactions reported. Although the pharmacokinetic and pharmacodynamic information for alglucerase is limited, its unequivocal efficacy justifies enzyme replacement therapy with this compound as first-line treatment for patients with Gaucher's disease, for whom treatment options are limited.
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PMID:Alglucerase. A review of its therapeutic use in Gaucher's disease. 137 12

We describe a patient who presented shortly after birth with hyperkinetic behaviour, myoclonia, respiratory insufficiency and hepatosplenomegaly. Gaucher-like storage cells were found in bone marrow. A liver biopsy showed massive lysosomal storage morphologically different to that in known lipid storage disorders. Biochemically, the patient had partial deficiencies of beta-galactocerebrosidase, beta-glucocerebrosidase and ceramidase in skin fibroblast extracts, but the sphingomyelinase activity was normal. Glucosyl ceramide and ceramide were elevated in liver tissue. Loading of cultured fibroblasts with radioactive sphingolipid precursors indicated a profound defect in ceramide catabolism. Immunological studies in fibroblasts showed a total absence of cross-reacting material to sphingolipid activator protein 2 (SAP-2). The patient died at 16 weeks of age. The fetus from his mother's next pregnancy was similarly affected. The possibility that the disorder results from a primary defect at the level of SAP-2 is discussed. We have named this unique disorder SAP deficiency.
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PMID:Sphingolipid activator protein deficiency in a 16-week-old atypical Gaucher disease patient and his fetal sibling: biochemical signs of combined sphingolipidoses. 251 2

Gaucher disease is the most prevalent hereditary metabolic storage disorder. The metabolic defect in Gaucher disease is a deficiency of the lysosomal enzyme glucocerebrosidase. Patients with Gaucher disease may present with the following symptoms: hepatosplenomegaly, anemia, thrombocytopenia, bone involvement (pathologic fractures and bone pain), and, more rarely pulmonary, renal, cardiac, and central nervous system involvement. Since 1991, Ceredase (Genzyme Corporation, Cambridge, MA) (alglucerase) and since 1994, Cerezyme (Genzyme Corporation, Cambridge, MA) (imiglucerase for injection), have provided long-term successful treatment for more than 1400 patients with Gaucher disease.
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PMID:Gaucher disease: an overview of clinical characteristics and therapy. 885 67

Gaucher's disease is an autosomal recessive lysosomal storage disease, resulting from a deficiency of the enzyme glucocerebrosidase, important for the physiologic recycling of cell membrane lipids. The clinical symptoms and disease presentations of Gaucher's disease are heterogeneous, including hepatosplenomegaly, bone "crisis" and fracture, anemia, thrombocytopenia and in some forms, rapid neurological decompensation. Similarly, the genetic variability of Gaucher's disease is diverse, and in some aspects affects phenotypic expression. Type 1 Gaucher's disease, however, usually present with less severe symptoms, at more advanced age, and is particularly amenable to enzyme replacement therapy with alglucerase. In type 1 patients with Gaucher's disease reproductive age is commonly reached and childbearing frequently desired with need for appropriate prenatal diagnosis, counseling and careful obstetrical surveillance. Although pregnancy concurrent with Gaucher's disease has been reported in the medical literature, only one small series of alglucerase treated Gaucher's disease during pregnancy exists. Without treatment, pregnancy concurrent with Gaucher's disease has several risks including an increased severity of anemia and thrombocytopenia that can potentiate postpartum bleeding, significant increases in organomegaly and possibly an increased spontaneous abortion rate. It is yet to be shown whether alglucerase reduces the risk of these complications during pregnancy and whether its use has any adverse effect on fetal development.
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PMID:Gaucher's disease in pregnancy. 887 55

Gaucher disease type 1, a non-neuronopathic lysosomal storage disease, is caused by mutations at the acid beta-glucosidase locus. Periodic infusions of macrophage-targeted acid beta-glucosidase reverse hepatosplenomegaly, hematologic, and bony findings in many patients. Two patients receiving enzyme therapy developed neutralizing antibodies to acid beta-glucosidase that were associated with a lack of improvement or progressive disease. After initial improvement, case 1 had no additional response to 2 years of high-dose (50 U/kg every 2 weeks) enzyme therapy. Similarly, case 2 initially showed a favorable response to enzyme therapy that plateaued after 1 year of treatment. Both patients developed minor allergic reactions and antibodies to acid beta-glucosidase within the first 6 months of treatment. Enzyme therapy was discontinued in case 1, with resultant disease progression and need for splenectomy. An immunosuppression/tolerization protocol was initiated in case 2 because of disease progression and stable neutralizing antibody titers. The IgG neutralizing antibodies rapidly and completely inactivated the wild-type, but not the N370S, acid beta-glucosidase in vitro. Antibodies to human serum albumin and chorionic gonadotropin also developed. The finding of neutralizing antibodies to acid beta-glucosidase during enzyme therapy for Gaucher disease has significant implications for monitoring the therapeutic responses and for potential alternative future therapies for Gaucher disease.
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PMID:Enzyme therapy in Gaucher disease type 1: effect of neutralizing antibodies to acid beta-glucosidase. 920 36

In type 1 Gaucher disease, decreased activity of glucocerebrosidase results in accumulation of glucosylceramide in macrophages. Infiltration of liver, spleen and bone marrow by lipid-laden macrophages leads to hepatosplenomegaly, bone lesions and cytopenia. These abnormal macrophages may produce and release macrophage derived factors and cytokines, which could contribute to the pathophysiology of the disease. Whether these cytokines and factors are elevated in Gaucher disease is currently unknown. In 29 type 1 Gaucher disease patients we measured serum levels of the macrophage derived cytokines IL8, IL6, TNFalpha, M-CSF and the monocyte/macrophage activation marker sCD14. These factors were studied in relation to disease severity and during treatment with enzyme supplementation therapy. Most patients showed remarkably elevated levels of M-CSF (2-8 fold) and sCD14 (2-5 fold) as compared to normal controls. Levels of IL8 were elevated in all patients (2-20 fold), whereas levels of IL6 and TNFalpha were normal. There was a significant correlation between severity of the disease as determined by the severity score index (SSI), and M-CSF, sCD14 and IL8 levels. M-CSF and sCD14 levels also correlated with the excess liver and spleen volumes. During treatment with alglucerase, levels of M-CSF and sCD14 declined, but IL8 remained unchanged. The relative reduction in excess liver and spleen volume did not correlate with the relative reduction in M-CSF or sCD14 levels. We conclude that serum levels of M-CSF, sCD14 and IL8 are increased in type 1 Gaucher disease. The biological activities of M-CSF and IL8 may add to the pathophysiology of the disease.
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PMID:Elevated levels of M-CSF, sCD14 and IL8 in type 1 Gaucher disease. 923 58

Modified placental human glucocerebrosidase (alglucerase) and recombinant glucocerebrosidase (imiglucerase) are effective means of treating Type 1 Gaucher's disease. Amelioration of hepatosplenomegaly and of haematological manifestations is usually apparent within 6 months. Bone disease responds more slowly but within several years improvement is evident in most patients. Analysis of a large body of data demonstrates that the rate of response of all manifestations of Gaucher's disease is independent of dose over the range of 30 to 260 U/kg body weight per month. Even the response to 15 U/kg per month appears to be equivalent under most circumstances; treatment failures are the same in patients treated with 15, 30 and 130 U/kg per month. Patients with severe manifestations respond more rapidly than those with mild disease, and this, too, is true at all but the 15 U/kg per month dosage level. All available data thus support the administration of no more than 15 to 30 U of alglucerase or imiglucerase per kg/month. Frequent dosing, i.e. three times weekly, appears to be the most effective means of administration.
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PMID:Enzyme replacement therapy for Gaucher's disease. 949 62

Gaucher's disease is an autosomal recessive lysosomal storage disease, resulting from a deficiency of the enzyme glucocerebrosidase, which is required for the lysosomal degradation of glycolipids. The clinical manifestations of the disease show a large heterogeneity, including hepatosplenomegaly, "bone crisis" and fracture, anemia, thrombocytopenia and, in the rarest types II and III, neurological decompensation. Type I, the most common form, usually presents with less severe symptoms and at a more advanced age. More than 30 mutations within the glucocerebrosidase gene have been recognized, and certain mutations seem to be related with a particular phenotype expression of the disease. Modern diagnosis of Gaucher's disease is performed by either determining the enzyme activity in peripheral blood leukocytes or through DNA-based analysis. Pregnancy concurrent with Gaucher's disease has several risks, including an increased severity of anemia and thrombocytopenia that can potentiate postpartum bleeding, and increased risk of infection and possibly an increased spontaneous abortion rate. Nevertheless, the majority of these pregnancies seem to proceed to term without significant complications. The effects that pregnancy might have on the course of the disease are still unresolved. Enzyme replacement therapy with alglucerase is the treatment of choice for patients with Gaucher's disease, but it is yet to be shown whether alglucerase reduces the risk of these complications during pregnancy and whether its use has any adverse effect on fetal development. We present an extensive review of the current literature regarding Gaucher's disease with special emphasis on pregnancies coexistent with this disease and, an analysis of the genetics, relevant prenatal diagnostic issues, and current treatment modalities.
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PMID:Gaucher's disease and pregnancy. 964 38

We report the case of a 46-year-old female with coexisting type I Gaucher's disease and chronic myeloid leukemia (CML). The diagnosis of Gaucher's disease was made in early childhood by bone marrow biopsy and was recently confirmed by biochemical demonstration of reduced leukocyte beta-glucocerebrosidase activity and the presence of Gaucher cells in a bone marrow aspirate. We analyzed the patient's genomic DNA for the underlying glucocerebrosidase mutations and have found homozygosity for a C-->T transition in cDNA nucleotide 593 (159 Pro-->Leu), presently an undescribed mutation. After initiation of replacement therapy with alglucerase we observed a significant increase of the platelet count in our patient. The diagnosis of CML was based on standard hematological parameters and the detection of the Philadelphia chromosome (Ph). With intermittent treatment with busulfan the patient has remained in chronic phase for nine years. The patient suffered from hepatosplenomegaly and thrombocytopenia, both of which can be caused by Gaucher's disease and CML. The aggravation of skeletal manifestations of Gaucher's disease, which occurred at the time of diagnosis of CML, could be due to increased production of leukocyte-derived glucocerebrosides that were not appropriately degraded because of the genetic beta-glucocerebrosidase deficiency.
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PMID:Coincidence of Gaucher's disease due to a private mutation and Ph' positive chronic myeloid leukemia. 972 84

Alglucerase is a modified form of human placental glucocerebrosidase used as enzyme replacement therapy for patients with Gaucher's disease, in whom functional glucocerebrosidase is deficient. Alglucerase has provided a breakthrough in treatment for patients with this relatively rare disease. With alglucerase infusions typical disease manifestations are ameliorated or normalised: hepatosplenomegaly is reduced, haematological parameters improve, and patients experience an increased quality of life usually within 4 to 6 months of treatment. Parameters of bone disease also respond, but generally over a longer period of treatment. Alglucerase is well tolerated by children and adults, with few adverse effects reported. Seroconversion occurs in approximately 15% of patients on high-dose therapy, but does not appear to affect the efficacy of treatment. Several dosage regimens have been used to deliver alglucerase, and the comparative benefits of these remain controversial. High-dose regimens of 60 IU/kg bodyweight administered every 2 weeks are clearly effective; however, smaller dosages given more frequently are also effective and incur a greatly reduced acquisition cost. Patient responses are variable, and the dosage regimen should be tailored to individual needs. Dosage regimens may be considerably reduced for the maintenance phase of treatment, but clinical experience is as yet insufficient to establish the minimum dosages required in the long term. Acquisition cost of alglucerase is $US3.70 per unit (1994 US dollars); thus, a dosage regimen of 60 IU/kg bodyweight administered every 2 weeks for a patient weighing 70kg costs $US404,040 per year. The minimal costs per quality-adjusted life year saved (QALY) have been estimated for 3 dosage regimens over a 10-year period. Cost per QALY was $US147,000 for 60 IU/kg bodyweight administered every 2 weeks, $US75,000 for 30 IU/kg every 2 weeks, and $US49,000 for 2.3 IU/kg administered 3 times per week. These costs were calculated assuming immediate death with no treatment, which suggests that the actual costs per QALY for most patients with type 1 or 3 disease are likely to be much higher. Drug administration costs may become a significant part of the cost during maintenance therapy; in addition, possible cost savings due to increased patient productivity and reduced palliative treatments remain unresolved. Although some patients may obtain increased benefit from high-dosage regimens, the very high cost may preclude general use of these regimens. Healthcare resources consumed by alglucerase therapy represent a large opportunity cost for other therapeutic areas.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Alglucerase. A pharmacoeconomic appraisal of its use in the treatment of Gaucher's disease. 1015 4


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