Long term longitudinal study of muscle function in patients with glycogen storage disease type IIIa (original) (raw)
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Glycogen Storage Disease Type IV: A Rare Cause for Neuromuscular Disorders or Often Missed?
JIMD Reports
Advancements in genetic testing now allow early identification of previously unresolved neuromuscular phenotypes. To illustrate this, we here present diagnoses of glycogen storage disease IV (GSD IV) in two patients with hypotonia and delayed development of gross motor skills. Patient 1 was diagnosed with congenital myopathy based on a muscle biopsy at the age of 6 years. The genetic cause of his disorder (two compound heterozygous mis-sense mutations in GBE1 (c.[760A>G] p.[Thr254Ala] and c.[1063C>T] p.[Arg355Cys])), however, was only identified at the age of 17, after panel sequencing of 314 genes associated with neuromuscular disorders. Thanks to the availability of next-generation sequencing, patient 2 was diagnosed before the age of 2 with two compound heterozygous mutations in GBE1 (c.[691+2T>C] (splice donor variant) and the same c.[760A>G] p.[Thr254Ala] mutation as patient 1). GSD IV is an autosomal recessive metabolic disorder with a broad and expanding clinical spectrum, which hampers targeted diagnostics. The current cases illustrate the value of novel genetic testing for rare genetic disorders with neuromuscular phenotypes, especially in case of clinical heterogeneity. We argue that genetic testing by gene panels or whole exome sequencing should be considered early in the diagnostic procedure of unresolved neuromuscular disorders.
Neuromuscular Disorders, 2012
Enzyme replacement therapy (ERT) has recently became available for patients with glycogen storage disease type II. Previous studies have demonstrated clinical efficacy of enzyme replacement therapy, however, data on physiological variables related to exercise tolerance are scarce. Four glycogen storage disease type II late-onset patients (45 ± 6 years) performed an incremental exercise on a cycle ergometer, up to voluntary exhaustion, before (BEFORE) and after 12 months of ERT (AFTER). Peak workload, oxygen uptake, heart rate, cardiac output (by impedance cardiography) and vastus lateralis oxygenation indices (by continuous-wave near-infrared spectroscopy, NIRS) were determined. Peak workload and oxygen uptake values significantly increased during ERT (54 ± 30 vs. 63 ± 31 watt, and 17.2 ± 4.4 vs. 19.7 ± 3.5 ml/kg/min, respectively, in BEFORE vs. AFTER). On the other hand, for both peak cardiac output (12.3 ± 5.3 vs. 14.8 ± 4.5 L/min) and the NIRS-determined peak skeletal muscle fractional O 2 extraction, expressed as a percentage of the maximal values during a transient limb ischemia (30 ± 39% vs. 38 ± 28%), the observed increases were not statistically significant. Our findings suggest that in glycogen storage disease type II patients enzyme replacement therapy is associated with a mild improvement of exercise tolerance. The findings need to be validated during a longer follow-up on a larger group of patients.
Molecular Genetics and Metabolism, 2012
The purpose of this study is to analyze the role of genes known to influence muscle performances on the outcome after enzyme replacement treatment (ERT) in type II Glycogenosis (GSDII). We analyzed 16 patients receiving ERT for ≥ two years. We assessed the changes in muscle strength by handheld dynamometry, muscle mass by quantitative MRI, and resistance to exercise by the 6-minute walking test. Exercise gene assessment included angiotensin converting enzyme insertion/deletion polymorphism (ACE), alpha-actinin3 R577X polymorphism (ACTN3), and peroxisome proliferator activated receptor alpha G/C polymorphism (PPARα). Independent of disease severity, one third of patients had a poor response to ERT, which was found to be associated with ACE DD genotype. The ACTN3 null polymorphism appeared to exert a positive effect on treatment efficacy, while PPARα did not seem to exert any influence at all. We conclude that poor treatment outcome in ACE DD genotypes is in line with previous observation of a worse disease course in this subpopulation, and suggests the need for a more careful follow-up and individualized treatment approaches for these patients. Exercise genes may provide a new opportunity for studying the outcome after treatment and the muscle regeneration abilities in other models of genetic myopathies.
Progress in enzyme replacement therapy in glycogen storage disease type II
Glycogen storage disease type II (GSDII) is an autosomal recessive lysosomal disorder caused by mutations in the gene encoding alpha-glucosidase (GAA). The disease can be clinically classified into three types: a severe infantile form, a juvenile and an adult-onset form. Cases with juvenile or adult onset GSDII mimic limb-girdle muscular dystrophy or polymyositis and are often characterized by respiratory involvement. GSDII patients are diagnosed by biochemical assay and by molecular characterization of the GAA gene. Ascertaining a natural history of patients with heterogeneous late-onset GSDII is useful for evaluating their progressive functional disability. A significant decline is observed over the years in skeletal and respiratory muscle function. Enzyme replacement therapy (ERT) has provided encouraging results in the infantile form. It is not yet known if ERT is effective in late-onset GSDII. We examined a series of 11 patients before and after ERT evaluating muscle strength by MRC, timed and graded functional tests, 6-minute walk test (6MWT), respiratory function by spirometric parameters and quality of life. We observed a partial improvement during a prolonged follow-up from 3 to 18 months. The use of different clinical parameters in the proposed protocol seems crucial to determine the efficacy of ERT, since not all late-onset patients respond similarly to ERT.
Enzyme replacement therapy in severe adult-onset glycogen storage disease type II
Advances in Therapy, 2008
Glycogen storage disease type II (GSDII) is an autosomal recessive myopathy caused by a deficiency of the lysosomal enzyme acid alpha-glucosidase (GAA). Enzyme replacement therapy (ERT) with recombinant GAA (rh-GAA) has become available for GSDII, although its effectiveness in adults remains unknown. We present a case of ERT with rhGAA in a 49-year-old male with GSDII in a severe stage of the disease. Quantitative magnetic resonance imaging showed an increase in muscle mass of the inferior limb, especially evident on the quadriceps femoris and the patient's body weight increased up to 30%, although his reported dietary habits were the same as before ERT. Beyond improvement in muscle strength and respiratory function, we observed a dramatic increase in body mass index from 12.7 to 16.6 kg/m 2 . This may reflect a change from a catabolic state to a more balanced metabolic state during ERT.
Impact of glycogen storage disease type I on adult daily life: a survey
Orphanet Journal of Rare Diseases, 2021
Background Glycogen storage disease type I (GSD I) is a rare autosomal recessive disorder of carbohydate metabolism characterized by recurrent hypoglycaemia and hepatomegaly. Management of GSD I is demanding and comprises a diet with defined carbohydrate intake and the use of complex carbohydrates, nocturnal tube feeding or night-time uncooked cornstarch intake, regular blood glucose monitoring and the handling of emergency situations. With improved treatment, most patients nowadays survive into adulthood. Little research has been performed on the impact of GSD I on daily life, especially in adult patients. Results In this multi-centre study we assessed the impact of GSD I on adult daily life in 34 GSD I patients (27 GSD Ia, 7 GSD Ib) between 17 and 54 years (median 26 years) using a self-designed questionnaire that specifically focused on different aspects of daily life, such as job situation, social life, sports, travelling, composition of the household, night-time and day-time di...
Journal of Inherited Metabolic Disease, 2012
We examined the efficacy of 2-year enzyme replacement therapy (ERT) using recombinant human αglucosidase (GAA; Myozyme®) in five long-term ventilatordependent adults and aged patients with advanced, late-onset glycogen storage disease type II (GSDII, also known as Pompe disease). Although all patients had advanced respiratory failure and were ventilator-dependent for more than 6 years, four showed obvious improvements in muscle strength, pulmonary function, and activities of daily living after ERT. Improvement in each parameter was more prominent in the first year than in the second year. Values in the second year were still significantly better than those at study entry and indicate stabilization in the clinical status of all patients. These results suggest that ERT continues to be effective in the second year of treatment even in patients suffering from advanced late-onset GSDII disease with severe respiratory failure.
Neuromuscular Disorders, 2000
The intrafamilial variability of late-onset glycogen storage disease type II was studied in siblings of 18 patients and in reports in the literature. Siblings of seven of the 18 index cases opted for DNA testing or enzyme studies after being informed by the index case of the availability of testing, and after genetic counselling. Of the 12 siblings tested, ®ve asymptomatic individuals were diagnosed (mean age, 32.8 years; range, 17±53). Intrafamilial variability in the age at onset (more than 10 years difference) or in the clinical symptoms was found in one of seven sibships tested in this study, and also in seven sibships reported in the literature. We advocate that testing should not be offered to healthy siblings of late-onset glycogen storage disease type II patients as a routine, because it is impossible to give a precise prognosis to an individual who is symptom-free, but has been identi®ed with a glycogen storage disease type II genotype, nor is there any therapeutic intervention available.
Journal of Inherited Metabolic Disease, 2010
Objectives Type II glycogenosis (GSDII) is a lysosomal storage disorder due to acid alpha-glucosidase (GAA) deficiency. Enzyme replacement therapy (ERT) with human recombinant alpha-glucosidase (rhGAA) has been demonstrated to be effective in the treatment of infantile forms of GSDII, but little information is available concerning late-onset phenotypes. Long-term follow-up studies are not available at present. The aim of this study was to evaluate the ERT long-term effects in late-onset GSDII.
Enzyme replacement therapy in juvenile glycogenosis type II: a longitudinal study
European Journal of Pediatrics, 2014
Glycogenosis type II, a genetic muscle-wasting disorder, results in a spectrum of clinical phenotypes. Enzyme replacement therapy is effective in the infantile form of the disease, while little is known about its effectiveness in lateonset disease, especially in juvenile patients. The purpose of this retrospective cohort study was to assess the long-term effects of enzyme replacement therapy (ERT) in juvenile glycogenosis type II (GSDII). Eight Italian juvenile GSDII patients, receiving biweekly infusions of 20 mg/kg recombinant human α-glucosidase for at least 72 months, were enrolled (median age at therapy start was 11.8 years). Six-minute walk test (6MWT) and forced vital capacity (FVC), measured in upright position, were chosen as the principal outcome measures. Global motor disability (modified Walton scale (WS)), muscle enzymes levels [creatine phosphokinase (CK), lactate dehydrogenase (LDH), aspartate transaminase (AST), alanine transaminase (ALT)] and body mass index (BMI) were also analysed both at baseline (therapy start) and annually afterwards. At baseline, most patients (six out of eight) did not show muscle function impairment (WS≤2). The performance at 6MWT showed a slight improvement during follow-up as well as FVC. Muscle enzymes levels showed a clear decrease after the 1st year of treatment while remained stable afterwards. An overall decrease in BMI was also observed during follow-up, although at the individual level, trends were variable. Conclusion: ERT is effective in stabilising both motor and lung functions in juvenile patients with GSDII, possibly slowing down the rate of disease progression. Randomised controlled trials are needed to understand whether early treatment allows juvenile patients to reach adulthood with a more beneficial residual muscular function than untreated patients.