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Prenatal clinical trials

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NCT ID: NCT04769167 Active, not recruiting - Clinical trials for Diabetes Mellitus, Type 2

Congenital Heart Anomaly Risk in Maternal Enteroviral Infection and Diabetes

CHARMED
Start date: February 1, 2021
Phase: N/A
Study type: Interventional

Beyond EV-B, there are clinical observations to implicate other viruses in birth defects, including CHD. Since the Rubella epidemic of 1960s', however, viruses have received little attention and certainly no comprehensive study, especially using next generation sequencing (NGS), has been undertaken in this context. The current pandemic as well as those caused by Zika, influenza, Ebola and Lassa Fever (among many) have shown pregnant women and their baby are at high risk. Therefore, an open-minded approach is warranted when considering the role of maternal viral infections in CHD. Even less is known about maternal immune response, such as antibody production, to these viruses. The investigator's goal is to answer the above gaps in knowledge. The investigators propose to do that using two different approaches; one retrospective (analysis of samples in two existing, large biorepositories) and the other prospective. The investigator's have created a multi-disciplinary team to bring together the needed expertise from individuals who have overlapping and vested interest in this project. The investigator's specific aim is to examine the diversity of the gut virome in non-pregnant and pregnant women with and without diabetes, with special emphasis on known cardiotropic viruses (those with tropism for cardiac tissues). This study is seen by the investigator's as the first step prior to a larger prospective multi-institutional study to specifically assess the linkage between the maternal virome and CHD pathogenesis.

NCT ID: NCT03964441 Recruiting - Prenatal Clinical Trials

ANDDI-PRENATOME - Feasibility Study for a " Fast " Pangenomic High Throughput Sequencing Analysis in Prenatal Diagnosis

AnddiPrenatome
Start date: June 20, 2019
Phase:
Study type: Observational

Prenatal diagnosis of genetic diseases is a real medical challenge. The discovery of antenatal abnormalities on ultrasound is frequent (5 to 10% of pregnancies), and when an abnormalities is seen on ultrasound, it raises the possibility of an underlying developmental anomaly. Currently, in France, when abnormalities are discovered with an ultrasound scan, the etiological diagnosis is based on additional imaging tests (cerebral MRI, 3D bone tomography, fetal CT, fetal CT) or diagnostic tests such as invasive chorionic villus sampling, amniocentesis or fetal blood for infectious, metabolic, immunological and genetic investigations (standard karyotype, FISH (fluorescence in situ hybridization) for the rapid detection of aneuploidy, Chromosome Analysis on DNA Chip (ACPA or CGH-array) and possible sequencing of targeted genes when they are available within a time frame compatible with pregnancy). NIPT (Non-invasive prenatal testing) on cell free fetal DNA circulating in maternal blood has more limited indications, allowing, from an early stage of pregnancy, the determination of fetal sex and fetal rhesus factor and the search for aneuploidy. However, establishing an etiological diagnosis during pregnancy has many benefits for the parents: clarifying the cause, obtaining a more precise prognosis to determine future management and outcome of the pregnancy, and establishing the risks of recurrence. Over the past decade, medical genetics has undergone a real technological revolution, leading to the development of high throughput genome-wide, exome (ES) and genome (GS) sequencing. However, few countries have currently embarked on ES/GS in prenatal care, due to the constraints of time and the difficulty of interpreting genomic data when the clinical data is limited to antenatal imaging data. In 2016, France launched the France Medicine Genomics 2025 Plan (PFMG2025) to deploy GS, particularly in the diagnosis of rare diseases. It is thus becoming essential to define the modalities of prescription of this testing, in particular during prenatal diagnosis. In parallel, from the first publications, the applications of genomic analysis on circulating fetal DNA seem to be able to extend to genome sequencing for research of SNVs responsible for developmental diseases. The AnDDI-rares health network therefore proposes this ANDDI-PRENATOME pilot project to study the feasibility of a "rapid" analysis of ES in prenatal diagnosis from 61 fetuses with ultrasound abnormalities, as a first step before considering future cost-effectiveness (PRME) or care system performance (PREPS) studies in conjunction with the PFMG2025.