View clinical trials related to Aneuploidy.
Filter by:In January 2007, the American Congress of Obstetricians and Gynecologists (ACOG) revised its guidelines that now recommend physicians are ethically obligated to fully inform all pregnant women that screening for fetal chromosomal abnormalities including biochemical screening tests and invasive procedures such as CVS or amniocentesis is available, regardless of age. Further, it is entirely up to the patient to decide whether or not she wishes to be screened for fetal chromosomal abnormalities without judgment from the physician. Noninvasive laboratory-developed tests (LDTs) that detect an abnormal amount of maternal and fetal DNA in an expectant mother's blood sample (known as circulating cell-free DNA) are now available. These LDTs have not been cleared or approved by the U.S. Food and Drug Administration (FDA). Although LDTs to date have not been subject to U.S. FDA regulation, certification of the laboratory is required under the Clinical Laboratory Improvement Amendments (CLIA) to ensure the quality and validity of the test. To sample collection study will obtain whole blood specimens from pregnant subjects to be used for development of prenatal assays to assist in the screening for fetal genetic abnormalities, infectious and other diseases, and blood group typing through detection of circulating cell-free DNA extracted from maternal plasma.
This study plans to learn more about how to measure the way the the body's energy system works in boys with Klinefelter syndrome, including the heart, lungs, muscles, and liver. This is important to know so that investigators understand how hormones and an extra X chromosome relate to diseases such as diabetes, extra weight gain, heart disease and liver diseases.
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.
Information on pregnant women undergoing non-invasive prenatal testing (NIPT) at one of the Obstetrix Medical Groups Outpatient Centers between January 2012 and June 2014 will be retrospectively gathered and an analysis of the impact and prevalence of NIPT. This will be compared to a control group of pregnant women in those same practices undergoing prenatal testing during the months of January 2010-July 2010.
The purpose of the current study is to evaluate the effect of preimplantation genetic screening (PGS) by next generation sequencing (NGS) compared to standard morphological assessment of embryos on pregnancy rates through a randomized controlled trial (RCT). All embryos will be vitrified and a single embryo transfer (SET) will be performed with either screened or unscreened embryos depending on randomization.
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.
Pregnancy rates for women over 35 years old are significantly lower when compared to younger women. One of the causes for this decrease is believed to be chromosomal aneuploidy. Chromosomal aneuploidy is a natural phenomena and occurs in women of every age and has been implicated in spontaneous miscarriages, and preimplantation embryo wastage (Hassold and Hunt, 2001). As maternal age increases, so too does the incidence of chromosomal aneuploidy. Embryo quality from older patients undergoing IVF tends to be reduced and associated with higher rates of chromosomal abnormalities when compared to good quality embryos (Munne et al., 1995). Chromosomal aneuploidy derives from the improper segregation of chromosomes during preimplantation development. The process of segregation, or mitosis, includes synthesis of the complete genome, equal division of chromosomes to opposite poles by the spindle apparatus, and separation of the two cells by cytokinesis, yielding two chromosomally identical cells. The entire process of cellular and genetic replication requires energy in the form of adenosine tri phosphate (ATP). ATP is mainly produced in mitochondria in the process known as the electron transport chain (ETC). There are many important molecules required for ATP production, CoQ10 can act as the appropriate carrier of electrons through the ETC. When a deficiency in CoQ10 is present, ATP production is decreased resulting in aneuploidy (Bentov et al., 2013). Similarly, research has shown that chromosome alignment and spindle formation are affected by mtDNA copy number (Ge et al., 2012). It has also been shown that the transfer of ooplasm from young, healthy oocyte donors into oocytes of women with repeated embryonic failure has result in children with subsequent mitochondrial heteroplasmy (Cohen et al., 1998). CoQ10 concentrations have been shown to decrease as age increases (Bentov et al., 2011). Consequently, the decrease in CoQ10 concentrations seen in older women may cause an increase in chromosomal aneuploidy in subsequent embryos (Bentov et al., 2013). In this pilot study, we test the hypothesis that the supplementation of CoQ10 prior to an IVF cycle can increase mitochondrial DNA activity and possibly decrease chromosomal aneuploidy in AMA patients.
The purpose of this study is to assess the impact of Comprehensive Chromosome Screening(CCS) on patients with low ovarian reserve in an effort to improve success during in vitro fertilization and decrease the time to successful pregnancy.
This is a prospective, multiācenter observational study designed to compare the test results of the Verinata Health Prenatal Aneuploidy Test to results of conventional prenatal screening for fetal chromosome abnormalities in 'all-risk' pregnancies.
Pregnant women with low risk indicators for fetal chromosomal aneuploidy will be enrolled. Study blood will be collected in the first or second trimester at a scheduled prenatal screening visit, processed to plasma, and stored frozen until analysis. Each pregnancy will be followed until delivery and the birth outcome recorded.