The incidence of type II glycogen-storage disease (Pompe disease) varies depending on ethnicity and geographic region. As of 2010, nine studies have been published documenting the incidence of Pompe disease. It is most common within the African American population, with an incidence of 1 in 14,000. In the U.S. more broadly speaking, the combined incidence of all three variants of the disease is 1 in 40,000. These estimates relied on the frequencies of three mutations in the gene acid alpha-glucosidase (GAA), leading to variants of the disease. Criteria for inclusion in the studies were often non-selective; in many cases, molecular genetic screening was done at birth. With such a high prevalence of Pompe disease reported, it is expected that large university medical centers specializing in neuromuscular diseases would see a higher incidence of Pompe disease among their patients. From a comparable Italian multicenter study, it appears that Pompe disease accounts for 3% of all patients presenting with proximal weakness with or without CK elevation.
Spinal Muscular Atrophy (SMA) is the leading genetic cause of death in infancy. It is a devastating disease that leads to progressive loss of those nerve cells that control our muscle bulk and movement. Patients develop increasing weakness in all muscles, eventually including those needed for breathing. In more than half of patients, SMA starts in infancy and typically leads to death within the first 2 years of life. In others, the disease begins in childhood and leads to significant disability.
SMA is caused by a defect in the “Survival of Motor Neurons” (SMN1) gene. Researchers are hopeful to find a cure, because nature has provided humans with a second gene, almost an identical copy of the SMN1 gene. Normally, the second gene does not contribute much, but researchers think that its function can be increased by medications.
To find out whether these medications help patients with SMA, we have to conduct clinical trials. Here, we propose to prepare for clinical trials. We will invite SMApatients to join our research effort. We will examine them regularly to better understand their disease. The visits will include questions, physical exam, blood drawing, and sometimes X-rays and a skin biopsy. We will use modern computer methods to process the information. While we are doing this, we will plan a clinical trial. Once the clinical trial begins, we will offer SMA patients participation if they meet the criteria for that trial.
We will make sure that the participants’ privacy is maintained and that the study risks are as low as possible.
Identifying an effective SMA treatment is very important because there is currently none. Clinical trials are the only way to decide whether a new treatment works in SMA patients or not.
Sponsor: Columbia University
The Finding the Optimum Regimen for Duchenne Muscular Dystrophy (FOR DMD) study will compare three ways of giving corticosteroids to boys with Duchenne muscular dystrophy (DMD) to determine which of the three ways increases muscle strength the most, and which causes the fewest side effects. Using the results of this study, the investigators aim to provide patients and families with clearer information about the best way to take these drugs.
Contact: Kimberly Hart
Sponsor: University of Rochester