Active clinical trials for "Down Syndrome"

This study plans to learn more about Down syndrome. The investigators think there is a different level of the AIRE gene in individuals with Down syndrome. The investigators think that the AIRE gene level can provide more insight about depressed immune cell function in individuals with Down syndrome. Patients are being asked to be in this research study because the investigators want to see if their blood contains more of less of the AIRE gene.

To create a registry of all Oregon children undergoing surgical repair of congenital heart disease since 1958 in order to determine mortality, morbidity, and disability after surgery and to assess the safety of pregnancy in women with corrected congenital heart disease and the risk of prematurity and occurrence of congenital heart defects in offspring.

The purpose of this multi-center observational study (utilizing the sites enrolling patients for the Pediatric Adenotonsillectomy Trial for Snoring (PATS) [1U011HL125307-O1A1]) is to gather data regarding children with Down syndrome (DS) and Sleep Disordered Breathing (SDB) referred for treatment with adenotonsillectomy to inform a future randomized controlled trial in this population.

The obstructive sleep apnea syndrome (OSAS) is frequently reported in subjects with trisomy 21. The consequences of this syndrome are expressed in various disorders such as cognitive and cardiovascular alterations. It is also reported a premature exhaustion with the achievement of various professional or recreational activities, as well as an increase in the frequency of daytime sleepiness. In trisomy 21, there are factors that are systematically associated with obstructive apnea. The identification of these factors would make it possible to diagnose OSAS earlier, under-diagnosed in the population with trisomy 21 even though these OSAS are associated with increased cardiovascular risks. The aim of this study is to identify the predictive factors associated with sleep apnea in the trisomy population in order to propose early detection. OSAS treatment in a young adult with Down syndrome could reduce physical fatigue apparition during various activities, reduce daytime sleepiness, and have a positive impact on physical fitness, and therefore more broadly on health.

RATIONALE: Studying samples of blood, tissue, and bone marrow from patients with cancer in the laboratory may help doctors learn more about changes that occur in DNA and identify biomarkers related to cancer. PURPOSE: This research trial studies DNA samples from patients with Down syndrome and acute myeloid leukemia treated on COG-AAML0431 clinical trial.

RATIONALE: Studying samples of blood, tissue, and bone marrow from patients with cancer in the laboratory may help doctors learn about changes that occur in RNA and identify biomarkers related to cancer. PURPOSE: This research trial studies RNA samples from patients with Down syndrome and acute myeloid leukemia or other transient myeloproliferative disorder.

This study may provide information that may serve as the foundation for a larger research study to address issues regarding the causes, diagnosis, and treatment of osteoporosis in the Down syndrome patient population.

Too much or too little genetic information (chromosome material) can cause abnormal development of the fetus or death. Each year approximately 2.5 million pregnant women are screened for Down Syndrome using invasive screening methods (amniocentesis or chorionic villus sampling). This 11 center study of 38,000 women will compare the accuracy of the several non-invasive tests in the first and second trimesters of pregnancy versus amniocentesis or diagnosis at birth to diagnose aneuploidy or Down Syndrome.

In France, as in many countries of the world, trisomy 21 or Down syndrome (DS) is the subject of an antenatal screening based on a risk calculation (R) including the assay of biochemical markers in the maternal blood, and the measurement of a fetal ultrasound parameter (nuchal translucency). In the population of pregnant women said to be at high risk (R> 1/250), confirmation of the diagnosis of DS is made by invasive sampling (trophoblast biopsy or amniocentesis), which allows the establishment of fetal karyotype. In addition to limited sensitivity (80 to 85% depending on the techniques), this screening is an anxiety factor (8% false positives), and miscarriages of euploid fetuses (normal karyotype) in 1% of cases (procedures invasive). The plasma of a pregnant woman contains a mixture of free DNA of maternal (90%) and fetal origin (cffDNA for cell free fetal DNA) (about 10%, but this proportion increases in cases of fetal trisomy 21. The proportion of cffDNA is sufficient to qualitatively and quantitatively study specific genetic markers of a pair of chromosomes. It is therefore possible to evaluate the quantity of markers chromosome of interest relative to a reference chromosome marker, and to calculate a marker / marker ratio of interest, theoretically identical for all autosomes (chromosomes 1 to 22) during euploid pregnancy. In case of fetal aneuploidy (for example, trisomy 21), this ratio is unbalanced for the chromosomal pair involved. Advances in technology, such as high-throughput mass sequencing (MPS) and digital PCR (dPCR), now make it possible to consider the diagnosis of fetal maternal DS through the study of cffDNA. Several teams have already published on this subject with the MPS technique, applied directly to free DNA from maternal plasma, or after a cffDNA isolation step. This involves sequencing the DNA fragments present in the sample and placing them back on their original chromosome. In case of trisomy 21 fetal, one seeks to put in evidence of an excess of sequences from chromosome 21. These techniques require expensive equipment (sequencer, bioinformatic platform, servers) and a technical time and important analysis (often several days for a single run). Concerning the research of aneuploidies by digital PCR (dPCR), few publications are today due to the absence of sufficiently powerful instruments until recently. DPCR is less expensive.

This study will evaluate the clinical performance of massively parallel sequencing (MPS) using the MaterniT21 PLUS LDT in the detection of fetal aneuploidy in circulating cfDNA extracted from a maternal blood sample obtained from women pregnant with a multiple gestation who were at increased risk for fetal aneuploidy.