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Technology Development for Noninvasive Prenatal Genetic Diagnosis Using Whole Fetal Cells From Maternal Peripheral Blood

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Columbia University

Status

Active, not recruiting

Conditions

Copy Number Abnormality
Prenatal Diagnosis
Genetic Disease

Treatments

Diagnostic Test: Whole Fetal Cell (WFC) Testing

Study type

Observational

Funder types

Other
NIH

Identifiers

NCT04285814
AAAS9107
3R01HD055651 (U.S. NIH Grant/Contract)

Details and patient eligibility

About

Amniocentesis (amnio) and chorionic villus sampling (CVS) can reliably detect many smaller DNA/genetic abnormalities that cannot be reliably diagnosed by cell-free noninvasive prenatal testing (NIPT) that is in widespread use. The investigators present evidence that a cell-based form of NIPT, here called Single Fetal Cell (SFC) testing, using a blood sample from the mother can detect most or all of the genetic abnormalities that are detected using amnio or CVS. This study proposes to compare the effectiveness of SFC testing in detecting abnormalities already detected by amnio or CVS in women already undergoing these tests as part of their clinical care because of fetal ultrasound abnormalities.

Full description

This is a revision to a project entitled "Prenatal Genetic Diagnosis by Genomic Sequencing: A Prospective Evaluation." This study proposes to test the utility and accuracy of a new form of cell-based noninvasive prenatal testing (NIPT), here called noninvasive Single Fetal Cell (SFC) testing. After many years of development work, the researchers published evidence for the feasibility of SFC testing in 2016. Extensive recent preliminary data show considerable improvements in SFC testing. Current forms of cell-free NIPT testing do not provide reliable detection of medium to smaller size deletions and duplications that cause a variety of genetic disabilities. Preliminary data indicate that SFC testing using fetal trophoblasts from mother's blood can detect aneuploidy and subchromosomal deletions and emphasize the importance of analyzing single cells, since some fetal cells are apoptotic and some are in S phase of the cell cycle replicating their DNA. Both apoptosis and S phase interfere with copy number analysis in differing ways, and pooling cells prior to barcoding individual cells results in loss of data quality. Preliminary data from two pilot validation studies demonstrate that reliable data can be collected on the large majority of patients, although data on this point would be greatly expanded by this project.

Preliminary data show very robust detection of all aneuploidies and clear definition of genomic deletions as small as 1 Mb and duplications as small as 1.5 Mb. The first aim is to perform blinded SFC testing on 50 cases per year with congenital anomalies with abnormal karyotype or chromosomal microarray (CMA) and 50 cases per year with congenital anomalies and normal CMA. This will provide a direct measure of success rate and the false positive and false negative rates for SFC testing compared to CMA. The second aim will be to use the WGA products and frozen unamplified cells available from aim 1 to further improve SFC testing to include targeted detection of inherited or de novo pathogenic point mutations in the cases undergoing WGS as part of the parent grant, confirmation of very small CNVs detected by WGS, restudy of false positive or false negative results from aim 1, and in the future could attempt to perform genome wide detection of de novo mutations. Capitalizing on the resources available through the parent grant, there is the opportunity to test whether SFC testing has the potential to transform genetic prenatal diagnosis so that all genetic changes, whether CNV or point mutation, and whether inherited or de novo, could be detected even in low risk pregnancies.

Enrollment

33 patients

Sex

Female

Ages

18+ years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

  • Have already had a CVS or amniocentesis (blood sample collected >= 7 days after procedure).
  • Have already received an abnormal (case) or normal (control) CMA/karyotype/FISH result from the CVS or amniocentesis.

Exclusion criteria

  • Unavailability of maternal blood sample at least 7 days post-procedure.
  • Language barrier (non-English or Spanish speaking and no adequate interpreter)
  • Maternal age of less than 18 years
  • Higher order multiple pregnancy (triplet or greater)

Trial design

33 participants in 2 patient groups

Normal CMA
Description:
150 women whose blood samples will be drawn for WFC testing who previously had a CMA performed with normal results.
Treatment:
Diagnostic Test: Whole Fetal Cell (WFC) Testing
Abnormal CMA
Description:
150 women whose blood samples will be drawn for WFC testing who previously had a CMA performed with abnormal results.
Treatment:
Diagnostic Test: Whole Fetal Cell (WFC) Testing

Trial contacts and locations

2

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Central trial contact

Ronald Wapner, MD; Jessica Giordano, MS

Data sourced from clinicaltrials.gov

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