Expanded Access Use of Myozyme (Alglucosidase Alfa) in Patients With Late-onset Pompe Disease
Glycogen Storage Disease Type IIGlycogenosis 2Pompe disease (also known as glycogen storage disease Type II) is caused by a deficiency of a critical enzyme in the body called acid alpha-glucosidase (GAA). Normally, GAA is used by the body's cells to break down glycogen (a stored form of sugar) within specialized structures called lysosomes. In patients with Pompe disease, an excessive amount of glycogen accumulates and is stored in various tissues, especially heart and skeletal muscle, which prevents their normal function. The objective of this protocol is to provide enzyme replacement therapy with alglucosidase alfa on an expanded access basis, to severely affected patients with late-onset Pompe disease for whom there is no alternative treatment and who do not meet the clinical characteristics described in the inclusion criteria for participation in other Genzyme Corporation-sponsored studies currently enrolling patients with late-onset Pompe disease.
Neutralizing Antibody Seroprevalence Study With a Retrospective Component in Participants With Late-Onset...
Pompe DiseasePompe Disease (Late-onset)4 moreThe purpose of this study is to obtain information pertaining to the occurrence of antibodies to investigational SPK-3006 capsid and GAA, GAA activity and GAA antigen levels in the usual care setting of Late-Onset Pompe Disease (LOPD) participants on an enzyme replacement regimen. Additionally, a careful evaluation of laboratory and functional testing in patients with LOPD may provide information to better understand the disease features and better drive the design of a future interventional investigational gene therapy trial. An understanding of the underlying status of liver and muscle health in individuals with LOPD may also inform best surveillance during the conduct of gene therapy trials.
Phase II Clinical Trial of Clenbuterol in Adult Patients With Pompe Disease
Pompe Disease (Late-onset)The goals of this study are to determine safety and efficacy with regard to motor function of oral clenbuterol in combination with ERT in subjects with LOPD
Long-Term Development of Muscular Dystrophy Outcome Assessments
LGMD1ALGMD1B32 moreThis is a 24-month, observational study of up to 1000 participants with Limb Girdle Muscular Dystrophy (LGMD), Myotonic Dystrophy Type 2 (DM2), and late onset Pompe disease (LOPD).
High Protein and Exercise Therapy Plus Nocturnal Enteral Feeding in Juvenile-onset Pompe Disease...
Glycogen Storage Disease Type IIThe research protocol will be submitted for approval to the institutional review board of Columbia University Medical Center. An attempt will be made to recruit at least 6 juvenile patients between the ages of 8 and 17, preferably who are still ambulatory. Subjects meeting all eligibility criteria will undergo a full history and physical examination, including details of age of onset of symptoms, distribution and severity of muscle weakness, muscle function, pulmonary function, and nutritional status. Subjects will undergo an electrocardiogram (ECG), spirometry, muscule strength evaluation, exercise capacity, functional muscle tests, laboratory tests, and muscle biopsy. Quality of life will be assessed via SF 36 questionnaire. Functional ability and level of handicap will be assessed by Rotterdam handicap scale. Written informed consent will be obtained from all subjects. All patients, who will have received enzyme replacement therapy (ERT) for at least 2 years, will be evaluated prior to institution of high protein nutrition and exercise therapy plus nocturnal enteral feeding (HPET + NEF)(baseline), then again at 3 months, 6 months and 12 months into treatment. The following parameters will be evaluated- Skeletal Muscle Function Biochemical parameters from collected blood sample Muscle Biopsy will be obtained at baseline and at 12 months. Biopsy specimens, obtained from thigh muscle at baseline and a repeat biopsy of the corresponding area of the other leg at 12 months, will be analyzed as follows:. Histology and electron microscopy Autophagic and lysosomal function evaluation Body composition Body mass index (BMI), body composition, lean body mass, and fat mass will be measured at each visit by bioelectric impedance analysis using BI-101Q RJL Systems, software 3.1b
Respiratory Muscle Training in L-Onset Pompe Disease (LOPD)
Glycogen Storage Disease Type IIThis study is being done to test the effects of respiratory muscle training (RMT) in patients with late-onset Pompe Disease (LOPD) who have weakness of their breathing muscles. The results of this study will help design future research studies about RMT in LOPD. The goals of this study are to decide if sham-RMT is a useful control condition for RMT and to choose the best ways to measure the health benefits of RMT in LOPD.
3D Echocardiography Managing Infantile Pompe's Disease
Congenital DisordersPompe's disease, also known as glycogen storage disease type II, is a genetic disorder due to deficiency of acid glucosidase (GAA), which results in lysosomal glycogen storage in various tissues. Very low levels of GAA usually present in infancy, lead to a progressive cardiac and skeletal muscle disorder and death before age 1 year. Most infants develop massive hypertrophic cardiomyopathy which progresses to dilated cardiomyopathy and cardiorespiratory arrest. 3D echocardiography can be a simple, non-invasive method of following cardiac disease progression in infantile Pompe's disease.
CPAP for Infantile Pompe Disease
Pompe DiseasePatients with infantile onset Pompe disease will be trained with continuous positive airway pressure to see if hypernasality can be improved.
Newborn Screening Assay of Pompe's Disease
Pompe DiseaseThe purpose of this study is to test the feasibility of a newborn screen assay for Pompe disease
Frequency of Pompe's Disease and Neuromuscular Etiologies in Patients With Restrictive Respiratory...
Pompe DiseaseA breach of respiratory function may be one of the elements more or less early or predominant clinical picture of neuromuscular diseases. It is considered that the obstructive syndromes represent 64% and restrictive or mixed syndromes 36% of chronic respiratory insufficiency, approximately 7% due to a neuromuscular disease. The frequency and type of impairment are dependent on the underlying pathology. The neuromuscular restrictive respiratory failure (IRR) remains partially unknown pulmonologists, especially because the signs of muscle weakness are sometimes difficult to detect. However, respiratory diseases are a major concern in neuromuscular diseases because they can have an impact both on sleep (not sleep, ...) on the daily activities (breathlessness on exertion, dyspnea) and thereby alter the quality of life of patients. Moreover, they represent a significant morbidity and mortality factor. Chest tightness may in some cases reveal the disease and thus constitute the chief complaint of a patient with a neuromuscular disease. In late-onset Pompe disease, lung disease is the predominant clinical symptoms in about 30% of patients. An algorithm was developed to guide practitioners and help them in their diagnostic approach to the cause of the IRR (diagnostic algorithm ATS / ERS 2005). However, this algorithm does not allow precise identification of the neuromuscular causes. At the patient level, this can have an impact by extending the time before placing a diagnosis. In Pompe disease, the average time to diagnosis reached 7.9 years. However, there are for this disease a simple and rapid diagnostic test. Therefore, a greater awareness of practitioners with regard to the particular Pompe disease and neuromuscular diseases in general may be beneficial to patients. This study aims to: i) awareness pulmonologists to the possibility of neuromuscular an IRR. ii) characterize the frequency of neuromuscular origin of IRR in a broad population of patients with concomitant signs muscle weakness. iii) reduce the time to diagnosis by directing patients to neuromuscular reference center early.