View clinical trials related to Trisomy 21.
Filter by:Each year, 450,000 Canadian women become pregnant and, as a result of their participation in prenatal screening for Down syndrome, approximately 10,000 of them will have an amniocentesis (i.e. sampling of liquid surrounding the fetus) and of those, 315 will be found to carry a baby with Down syndrome and 70 normal pregnancies will be lost from complications of the procedure. It has been discovered recently that, during pregnancy, there is fetal DNA in maternal blood in sufficient quantities to be analysed and methods have been proposed to detect the presence or not of a fetus with Down syndrome using maternal blood. The introduction of genomic blood testing as proposed in the context of this project could lead to increased detection of Down syndrome, less invasive screening with 9700 amniocentesis avoided each year in Canada, improving the peace of mind of pregnant women, and preventing the accidental loss of 70 normal fetuses, at a lower overall cost than current practice. However, these methods still need to be validated before being appropriately introduced in routine care. The study hypothesis is that new genomics-based non-invasive methods using fetal-DNA in maternal blood during pregnancy can be more effective than current prenatal screening methods for fetal aneuploidy. This project will carry out an independent study that will validate the performance and utility of different new genomic technologies for screening in pregnant women using maternal blood. The team of researchers will compare the real-life performance of different non-invasive assays and strategies to screen for fetal aneuploidy, and identify an evidence-based cost-effective approach for implementation of this new technology in the Canadian health care system. The deliverables of this project will enable decision makers, pregnant women and their partner to make informed choices pertaining to prenatal genetic screening and diagnosis, such as screening for Down syndrome, and reduce the risk to pregnancies associated with amniocentesis.
The purpose of this study is to collect maternal blood samples from pregnant women carrying a fetus with a confirmed diagnosis of chromosomal abnormality or genetic disorder including microdeletions in order to further develop a non-invasive prenatal screening test based on fetal DNA isolated from maternal blood.
There are 26,600 Down Syndrome newborns every year in China. The economic burden of this disease is 65,000 USD for lifetime of every patient. The common prenatal screening and diagnosis procedure for fetal chromosomal abnormalities in China is maternal serum prenatal screening in second trimester followed by amniocentesis. The detection rate of MSS is 70%-75% with 5% false positive rate. There are only 13.9% of pregnant women can receive prenatal screening testing in China. It is very urgent that we build a training system and convenient, efficient, cost-effective procedure suitable to rural China. The use of dried blood spots (DBS) technology in conjunction with the second trimester prenatal screening protocol has been proved to be as efficient as serum screening by our previous study. Noninvasive prenatal testing that uses cell free fetal DNA (cff DNA) from the plasma of pregnant women offers a tremendous potential for fetal chromosomal abnormalities. A positive test should be followed by invasive prenatal diagnosis to confirm the test results. Cff DNA is a good supplement to the DBS technology in rural China. A combination of the two methods can increase the screening rate and accuracy without increasing the demand of amniocentesis and cytogenetic test. This procedure with adequate training system should be suitable to rural China. Our study will build a training system for DBS and cffDNA prenatal screening procedure in Pinggu, Beijing. Two thousand pregnant women will receive prenatal screening. DBS sample will be collected in the second trimester, Cff DNA is offered to confirm the positive screening test results, and lastly amniocentesis is offered for confirmation of the test results. All of the pregnancy and neonatal outcomes will be followed. We can estimate the efficiency and cost-effectiveness of DBS followed with cff DNA screening procedure.
The purpose of this research study is to determine which measures best capture cardiovascular disease (CVD) risk and type 2 diabetes (T2DM) risk in children and adolescents with Down syndrome (DS). We hypothesize that DS is associated with worse cardiometabolic risk factors for a given body mass index compared to controls. This difference arises at least in part, from increased fat tissue.
The objective of this project is to develop a non-invasive prenatal diagnostic test for trisomy 21 which is reliable, sensitive and cost-effective, and thus, offers an alternative to the currently employed invasive diagnostic tests amniocentesis and chorionic villus sampling. Current prenatal screening methods (blood markers and ultrasound) for trisomy 21 (Down syndrome) detect about 90 % of cases and have a false positive rate of > 90 %. The results of these tests are expressed in risks for trisomy 21, the threshold being in France at 1/250. Women exhibiting a higher risk are offered to undergo invasive diagnostic testing, either by amniocentesis or chorionic villus sampling. However, these invasive diagnostic methods are associated with a considerable risk of miscarriage (1-3 %), and thus underline the importance to develop a safe and non-invasive prenatal diagnostic test for trisomy 21. The investigators have planned to assess the clinical impact of a non-invasive prenatal method to detect Trisomy 21 through genetic analysis of circulating trophoblastic cells.
This prospective blinded study will assess the diagnostic capability of an informatics enhanced SNP based technology (Parental Support) to identify pregnant women who are carrying a fetus with an aneuploidy from fee floating DNA in the maternal blood.
The purpose of this blinded, multi-center, prospective, case-controlled study is to compare the Ariosa Harmony™ Prenatal Test for trisomy 21 detection with a standard first-trimester prenatal screening test consisting of serum screening (PAPP-A,free beta-hCG [β-hCG] or total hCG) and a nuchal translucency (NT) measurement (i.e. combined first trimester screening) in a general screened population. The performance characteristics of these two test modalities will be assessed relative to the clinical reference standard of genetic analysis of the fetus or phenotypic characterization and genetic analysis of the newborn.
The purpose of this study is to develop and evaluate a blood test for pregnant women for detection of fetal aneuploidy.
The study will examine the sensitivity and specificity of a circulating cell-free nucleic acid test (DNA/RNA) to identify Down syndrome between about 10 weeks and 21 weeks 6 days gestation. In addition, the new test may be used to identify trisomy 13 and 18 as part of a more complete laboratory developed test. We hypothesize that the new circulating cell-free fetal NA-based test will accurately and precisely measure specific fetal markers in maternal circulation and that measurement will lead to the ability to noninvasively identify with high sensitivity and specificity, fetal chromosome abnormalities, such as Down syndrome.