View clinical trials related to Trisomy 13.
Filter by:The purpose of this study is to collect blood samples from women carrying a vanishing twin pregnancy to further develop Natera's non-invasive prenatal screening test to provide information about possible chromosomal conditions for the living twin
This study will assess the feasibility of Vanadis NIPT for screening of T21, T18 and T13. The results obtained from Vanadis NIPT will be compared with the study site's current prenatal screening methods. The primary objectives are: 1) To assess the feasibility of Vanadis NIPT for screening of T21, T18 and T13 in the maternal healthcare setting, 2) To assess preliminary performance of Vanadis NIPT for screening of T21 in comparison to site's routine screening methods i.e. combined and integrated tests, and 3) To evaluate preliminary cost effectiveness of Vanadis NIPT use in different models. The secondary objective is to assess the feasibility of Vanadis NIPT regarding determination of fetal sex.
This study will document the detection rate and false positive rate as well as failure rate of a new prenatal screening approach ('Smart NIPT') as described at www.vanadisdx.com and implemented in an academic laboratory with limited molecular testing experience. Testing will be performed on samples from a general risk pregnancy population, with additional high-risk cases added to improve confidence in the detection rate. Additional characteristics of this non-NGS test such as turn-around time, costs (equipment, training, per test), results reporting, fetal sex, fetal fraction, and quality measures will also be examined.
This multi-center prospective observational study is designed to track birth outcomes and perinatal correlates to the Panorama prenatal screening test in the general population among ten thousand women who present clinically and elect Panorama microdeletion and aneuploidy screening as part of their routine care. The primary objective is to evaluate the performance of Single Nucleotide Polymorphism (SNP)-based Non Invasive Prenatal Testing (NIPT) for 22q11.2 microdeletion (DiGeorge syndrome) in this large cohort of pregnant women. This will be done by performing a review of perinatal medical records and obtaining biospecimens after birth to perform genetic diagnostic testing for 22q11.2 deletion. Results from the follow-up specimens will be compared to those obtained by the Panorama screening test to determine test performance. Specific test performance parameters will include: PPV, specificity, and sensitivity.
The objectives of the clinical study are to demonstrate the accuracy of our proprietary algorithm method to determine the genetic health of the developing fetuses in a multiple gestation pregnancy from a maternal blood sample. The long term goal of this study will be the development of a method of minimally invasive prenatal diagnosis that has a higher sensitivity and lower false positive rate in the intended population (e.g. multiple gestation pregnancies) than other currently available screening tests. This will result in fewer unnecessary amniocenteses and Chorionic Villus Sample (CVS) procedures, which are associated with a risk of miscarriage.
The objectives of the clinical study are to demonstrate the accuracy of our new NATUS diagnostic method to determine the genetic health of the developing fetuses in a multiple gestation pregnancy from a maternal blood sample. The long term goal of this study will be the development of a method of minimally invasive prenatal diagnosis that has a higher sensitivity and lower false positive rate in the intended population (e.g. multiple gestation pregnancies) than any currently available screening tests. This will result in fewer unnecessary amniocenteses and CVS procedures, which are associated with a risk of miscarriage.
This study is being conducted to provide clinically annotated samples to support continued improvements in the Ariosa Test content, methodology, specimen processing and quality control.
The purpose of this study is to collect blood from families with a child who has been diagnosed with a chromosomal disorder including microdeletions in order to further develop a non-invasive prenatal screening test based on fetal DNA isolated from maternal blood.
This study will explore how maternal plasma circulating cell free DNA (ccfDNA) can be used as a primary screening test for Down syndrome as part of routine clinical care in the general pregnancy population. Plasma ccfDNA testing is currently recommended only for use as a secondary screen for 'high-risk' women (i.e., women whose risk factors for trisomy make them candidates for invasive testing such as chorionic villous sampling or amniocentesis). Because most women in this 'high-risk' category are carrying unaffected fetuses, many 'unnecessary' procedures are completed in order to identify the few women whose fetuses have a chromosomal disorder. This creates expense, anxiety, and most importantly, loss of unaffected fetuses due to procedure related miscarriage. Plasma DNA testing is now being used to reduce significantly the number of women with unaffected fetuses undergoing invasive testing. Applying such testing as a 'first-line' screen has not been well-explored, despite calls from several clinical professional societies to do so. The investigators intent is to introduce, under carefully monitored conditions, ccfDNA testing through Rhode Island primary prenatal practices to the general pregnancy population. Education/orientation of prenatal care providers, their staffs, and their patients will be carefully orchestrated, and implementation issues identified and addressed. Telephone surveys of consented patients will elicit responses to their understanding of the test, their satisfaction with the process, and a comparison of their experience with serum screening in a prior pregnancy. Knowledge gained from this study will help validate new screening paradigms involving ccfDNA testing. The study is not designed to estimate Down syndrome detection rates with any confidence, but can provide information on uptake rates, failure rates, screen positive rates, and the decision-making of women with positive test results.
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.