Cardiovascular system damage in the late-onset Pompe disease
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Abstract:
The article presents a clinical case of metabolic hypertrophic cardiomyopathy against the background of a late-onset form of Pompe disease, illustrating the difficulties of differential diagnostic search for the cause of the disease. The clinical, laboratory and genetic aspects of the diagnosis of Pompe disease are highlighted. The features of laboratory diagnostics, the difficult path to the correct diagnosis and the appointment of enzyme replacement therapy are discussed. Much attention is paid to the clinical symptoms of the disease — the most significant damage to the cardiovascular system, there is no damage to the musculoskeletal sphere. Clinical picture of late Pompe disease is presented: cardiac rhythm and conduction disorders (ventricular preexcitation syndrome — multiple additional atrioventricular fenestrations), unstable ventricular tachycardia, supraventricular tachycardia, sinus node weakness syndrome. Considered approaches to the prevention of sudden cardiac death the patient underwent surgical treatment: radiofrequency ablation, endocardial implantation of a cardioverter defibrillator. Pathogenetic therapy for Pompe disease has been started.Keywords:
Supraventricular Tachycardia
Atrioventricular node
Sudden Death
Alpha-galactosidase
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Globotriaosylceramide
Alpha-galactosidase
Lysosomal storage disease
Fabry's disease
Urinary sediment
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Globotriaosylceramide
Alpha-galactosidase
Lysosomal storage disease
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Fabry disease is an X-linked lysosomal storage disorder caused by a deficiency of the enzyme alpha-galactosidase A. The lack of enzyme activity results in an intracellular accumulation of glycosphingolipids, mainly globotriaosylceramide, in various tissues. Significant morbidity is caused by progressive effects on the vascular endothelium, heart, brain and kidney leading to end-stage renal disease. In this review we would like to give a current overview on recent advances in therapy and an outlook on future aspects in the management of Fabry disease.Besides symptomatic management, enzyme replacement therapy with recombinant alpha-galactosidase A is the only specific treatment currently available. Clinical trials using recombinant alpha-galactosidase A showed safety and efficacy in reversing substrate storage in different tissues. Short-term response on clinical manifestations such as impaired kidney function demonstrates a clear potential to improve and stabilize symptoms of the disease. In patients with residual enzyme activity enzyme enhancement therapy with pharmacological chaperones seems to be an attractive approach. Enzyme replacement therapy mediated by gene transfer may become a promising alternative treatment strategy in the future.Remarkable advances in the treatment of patients with Fabry disease have been made with the introduction of enzyme replacement therapy in clinical use. Although lysosomal globotriaosylceramide deposits are cleared very effectively, longer term experience on clinical outcome in patients with severe vital organ involvement is still limited.
Globotriaosylceramide
Alpha-galactosidase
Substrate reduction therapy
Lysosomal storage disease
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Female patients affected by Fabry disease, an X-linked lysosomal storage disorder, exhibit a wide spectrum of symptoms, which renders diagnosis, and treatment decisions challenging. No diagnostic test, other than sequencing of the alpha-galactosidase A gene, is available and no biomarker has been proven useful to screen for the disease, predict disease course and monitor response to enzyme replacement therapy. Here, we used urine proteomic analysis based on capillary electrophoresis coupled to mass spectrometry and identified a biomarker profile in adult female Fabry patients. Urine samples were taken from 35 treatment-naïve female Fabry patients and were compared to 89 age-matched healthy controls. We found a diagnostic biomarker pattern that exhibited 88.2% sensitivity and 97.8% specificity when tested in an independent validation cohort consisting of 17 treatment-naïve Fabry patients and 45 controls. The model remained highly specific when applied to additional control patients with a variety of other renal, metabolic and cardiovascular diseases. Several of the 64 identified diagnostic biomarkers showed correlations with measures of disease severity. Notably, most biomarkers responded to enzyme replacement therapy, and 8 of 11 treated patients scored negative for Fabry disease in the diagnostic model. In conclusion, we defined a urinary biomarker model that seems to be of diagnostic use for Fabry disease in female patients and may be used to monitor response to enzyme replacement therapy.
Alpha-galactosidase
Diagnostic biomarker
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Fabry disease is a progressive devastating disease caused by absent or deficient activity of lysosomal enzyme alphagalactosidase A, with progressive accumulation of globotriaosylceramide (GL-3) within lysosomes in a different cell types. Accumulation of GL-3 and related glycosphingolipids in different cell types may create diverse clinical picture depending on the organ which is dominantly affected. Renal pathology progresses in severity with aging. Globotryaosil ceramide deposits may be found in different cell types within the kidney. Deposition within the glomeruli may be found in endothelial cells, mesangial cells, interstitial cells, with the highest level found within the podocytes. Although Fabry disease is not curable at the moment, availability of enzyme replacement therapy made it possible to treat this group of patients. Two formulations of recombinant human alpha-galactosidase A are present on the market: agalsidase alfa and agalsidase beta. Longer follow-up period is necessary to estimate the impact of ERT on mortality. Patients with end-stage renal disease caused by Fabry disease could be safely treated with enzyme replacement therapy regardless of the method of renal replacement therapy. Keywords: Fabry disease, kidney, end-stage renal disease, dialysis, transplantation, enzyme replacement therapy.
Globotriaosylceramide
Alpha-galactosidase
Lysosomal storage disease
Renal replacement therapy
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Globotriaosylceramide
Alpha-galactosidase
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Citations (111)
Multisystem disease
Alpha-galactosidase
Lysosomal storage disease
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Citations (35)
Fabry's disease, a disorder affecting the gene for the lysosomal enzyme α-galactosidase A (α-GAL A), can cause accumulation of globotriaosylceramide (GL-3) in the vascular endothelial cells. Symptoms include pain, angiokeratoma, corneal clouding, and damage to the heart and kidneys. Human recombinant α-GAL A for use as an enzyme replacement therapy was launched in Japan in April 2004. Eleven ambulatory patients with Fabry's disease were given replacement α-GAL A therapy. Three patients died due to factors associated with Fabry's disease. The enzyme replacement therapies in the remaining eight patients continued safely without any notable adverse events. The following were observed: a lowering of the plasma levels of GL-3 in seven cases, an improvement in the daily activities in six cases, and a reduction in corneal clouding in three cases. Although careful observation is necessary, these results suggest that replacement α-GAL A therapy may be a safe and effective treatment of Fabry's disease.
Globotriaosylceramide
Alpha-galactosidase
Angiokeratoma
Fabry's disease
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Fabry disease (alpha-galactosidase A deficiency) is an X-linked recessive lysosomal storage disorder. Although the disease presents in childhood and culminates in cardiac, cerebrovascular, and end-stage renal disease, diagnosis is often delayed or missed. This paper reviews the key signs and symptoms of Fabry disease and provides expert recommendations for diagnosis, follow-up, medical management, and the use of enzyme replacement therapy. Recommendations are based on reviews of the literature on Fabry disease, results of recent clinical trials, and expertise of the authors, all of whom have extensive clinical experience with Fabry disease and lysosomal storage disorders and represent subspecialties involved in treatment. All males and female carriers affected with Fabry disease should be followed closely, regardless of symptoms or treatment status. Clinical trials have shown that recombinant human alpha-galactosidase A replacement therapy--the only disease-specific therapy currently available for Fabry disease--is safe and can reverse substrate storage in the lysosome, the pathophysiologic basis of the disease. Enzyme replacement therapy in all males with Fabry disease (including those with end-stage renal disease) and female carriers with substantial disease manifestations should be initiated as early as possible. Additional experience is needed before more specific recommendations can be made on optimal dosing regimens for reversal; maintenance; and prevention of disease manifestations in affected males, symptomatic carrier females, children, and patients with compromised renal function.
Disease management
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