Stopped: funding stopped
Shwachman-Diamond syndrome(SDS) is a rare autosomal recessive disorder involving primarily the Shwachman-Bodian-Diamond syndrome gene located on chromosome 7q11. The gene effects function of the 60S ribosome by interfering with the function of the Guanasine triphosphatase elongation factor 1 in the release of eukaryotic initiation factor 6 from the 60 S ribosomal subunit for translation initiation. Seventy five percent of the individual affected by the syndrome have a biallelic mutation (258+2T\>C and 183-184T \> CT). The syndrome results in defects primarily in the pancreas and bone marrow resulting in pancreatic insufficiency, leukopenia with an increased risk of infection and an increased risk for acute myelocytic leukemia. Animal models that have knocked out the function of the SBDS gene in the pancreas reveals at the pancreas at birth as well as the insulin producing cells in the pancreas are normal but subsequently developed fatty infiltration and apoptosis without inflammation resulting in pancreatic exocrine insufficiency with initially normal endocrine pancreatic function. The endocrine pancreatic function declines over time such that by 12 months of age these mice show a phenotype of impaired glucose tolerance. The finding of early onset diabetes is not yet considered a manifestation of this genetic defect but likely is occurring. This study is designed to assist in understanding the prevalence of glucose abnormalities in this syndrome. Exocrine pancreatic insufficiency leading to diabetes is a common hallmark of cystic fibrosis and cystic fibrosis related diabetes. Prevalence of glucose abnormalities in diabetes is a approaching 50% by the 2nd and 3rd decade of life in this disorder. The cystic fibrosis Foundation recommend screening for diabetes utilizing an oral glucose tolerance by the age of 10. Early diagnosis of diabetes in the syndrome as resulted in improved outcomes for patients with cystic fibrosis. It is my expectation that the prevalence of diabetes will be similar in SBDS patients. A small study performed I had the University of Cincinnati showed glucose abnormalities to occur in 5/20 individuals with the classic mutation. Investigators propose to screen patients with the classic mutation for diabetes and endocrine disease utilizing continuous glucose monitoring over a 14 day period in addition to baseline fasting blood tests for insulin, GAD 65 antibody, Fructosamine, A1c and C peptide.
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Systematically assess the prevalence of diabetes or glucose intolerance in participants with the classic biallelic mutation
Timeframe: 1 Year
Longitudinal screening of the enrolled population to assess the prevalence of diabetes or glucose intolerance
Timeframe: Through study completion, an average of 3 years
Assess individuals who have previously been diagnosed with diabetes in regard to age of onset, complications and the treatments utilized.
Timeframe: 1 year
Assist families and patients in understanding their diet and fine tuning their approach to carbohydrates and fat in the diet
Timeframe: 1 year
Share data with the current SBDS Registry
Timeframe: Through study completion, and average of 3 years