Official Title
Universal Haplotype-Based Non Invasive Prenatal Diagnosis by Linked-Read Sequencing (10XGenomics™ Technology)
Brief Title
Non-invasive Prenatal Diagnosis of Monogenic Disorders by Linked-reads Technology
Protocol ID
NCT03622892
Lead Sponsor
University Hospital, Brest
Brief Summary
Description of the presence of cell-free fetal DNA in maternal plasma allowed the
possibility of non-invasive prenatal diagnosis. Whereas detection of paternally-inherited
alleles is straightforward and being quickly implemented in routine, detection of
maternally-inherited alleles remains challenging.
To date, the main approach that is being developped, called Relative Haplotype Dosage
Analysis, relies on the identification of an allelic imbalance between the mother's
wild-type and mutant alleles, relative to the fetal's contribution. This approach
therefore requires the study of a propositus to identify the morbid haplotype, which is
not always possible in the context of an ongoing pregnancy.
In this study, we aim to evaluate the contribution of new technologies, such as
linked-read Sequencing, to allow direct identification of parental haplotype in the
context of non-invasive prenatal diagnosis.
Detailed Description
Objectives:
The description of cell-free fetal DNA in maternal plasma offered the possibility of a
non invasive approach for prenatal diagnosis (Non Invasive Prenatal Diagnosis, NIPD).
However, only a small fraction of total cell-free DNA is of fetal origin, and its study
widened only recently with the development of new technologies, such as digital PCR and
Massively Parallel Sequencing.
Circulating fetal cells (CFC) represent a promising approach, but need further
development before routine implementation To date, clinical applications are limited to
Non Invasive Prenatal Testing for fetal aneuploidy and non invasive detection of
fetal-specific genomic regions, for example fetal sex determination or fetal RHD
genotyping, or more recently de novo mutations that can be suspected after echographic
findings, such as achondroplasia. Yet, NIPD of maternally-inherited monogenic diseases
remains challenging, for the fetal allele is hidden within a large amount of identical
maternal sequences. Some publications report successful NIPD of maternally-inherited
monogenic diseases, but only on case reports or small cohorts, without a standardized
protocol and control of statistical risks.
In this study, we aim :
- to develop a new non invasive approach to Prenatal Diagnosis using both direct and
indirect strategy by Massively Parallel Sequencing,
- to identify and characterize CFC.
Methods:
We recently acquired the Chromium™ technology (10XGenomics™). This approach, relying on
microfluidic-based linked-read sequencing, allows direct haplotype phasing from long
input DNA molecules, in this case parental genomic DNA. It is therefore possible to
identify the mutant-linked haplotype for each parent and deduce fetal status with
concomitant plasma DNA analysis.
We plan to include couples at risk of transmitting cystic fibrosis, during genetic
counseling for prenatal diagnosis (PND). Non invasive analysis will be performed
concomitantly to conventional PND, which will be performed on invasive fetal sample.
After sequencing, we will use a new analysis algorithm that allows strict control of
statistical risk.
Furthermore, we plan on using the Chromium Single Cell Solution (10XGenomics™) to isolate
CFC. This approach allows analysis of single cell gene expression from thousands cells in
a sample.
Expected results:
In this first study, we wish to include 20 couples in the course of 12 months, which will
represent the largest cohort published to date.
We aim to assess feasibility of this new promising technology of Universal Haplotyping by
linked-read sequencing in the context of NIPD of monogenic diseases, in terms of result
accuracy as well as analysis time and technical cost. This straightforward protocol opens
perspectives for a first-intention non invasive approach of prenatal diagnosis of
familial monogenic diseases.
The Single Cell Solution will also enable us to differentiate the cell types circulating
in maternal blood, and to identify molecular markers to isolate CFC.
Study Period
-
Enrollment Count
75 participants
Eligibility Criteria
Inclusion Criteria:
- Pregnancies at 25% risk of being affected by Cystic Fibrosis with previously
identified pathogenic variants
- Couple asking for invasive prenatal diagnosis
- Pregnancy at 8 weeks of gestation or later
Exclusion Criteria:
- Couple not asking for prenatal diagnosis
- No signed consent obtained
Filters
Cystic Fibrosis
UNKNOWN
ADULT