Use of Long Read Genome Sequencing in Patients Suffering From Neurodevelopmental Troubles (HiFi-NDD)

Nantes University Hospital (NUH)

Status

Completed

Conditions

Growth Disorders

Genetic Disease

Developmental Delay Disorder

Neurologic Disorder

Study type

Observational

Funder types

Other

Identifiers

NCT05643274

RC22_0373

Details and patient eligibility

About

Patients with neurodevelopmental diseases and their families need to identify the genetic cause of the disease to allow for recognition of the disability, genetic counseling, and possible hope for participation in therapeutic research studies. Access to high-throughput genomic exome or genome analysis allows the identification of a genetic cause for approximately half of the patients. However, families with no result or with a variant of unknown significance after these tests may find themselves in a new diagnostic impasse.

The high-throughput sequencing used today generates sequences of the order of 100 base pairs (so-called "short read" sequencing). This allows an analysis of about 90% of the genome. However, many regions are not accessible in regions of interest for the genetic diagnosis of rare diseases. Long fragment sequencing generates sequences that are about 20 times larger and its use has recently made it possible to sequence the human genome almost completely (https://www.science.org/doi/10.1126/science.abj6987). The main contribution lies in the analysis of complex regions of the genome such as segmental duplications or centromeric regions. It is likely that this technology increases the sensitivity of detection of genetic variants in patients with genetic diseases. Its contribution should be studied in patients for whom no genetic cause has been identified by classical techniques.

This study aim to investigate the contribution of long fragment genome sequencing.

Full description

Ten families with a child suffering from a neurodevelopmental disease will be recruited by geneticists being part of the CLAD-Ouest. An EDTA blood sample will be taken from the patient and their parents (trio analysis). The blood samples will then be used to extract nucleic acids (DNA).

The blood samples will be sent and centralized to the genetics laboratory of the Nantes University Hospital. The DNA will be extracted and anonymized.

The files generated after DNA sequencing will have as an identification key the anonymization number provided at the time of inclusion of the individual in the study. The raw data and VCF files will be uploaded to the BIRD computing cluster in Nantes, where they will be stored for the duration of the study (2 years). The different university hospitals will then be able to retrieve the data and analyze the variants identified in the patients recruited by their center. A centralized analysis to annotate, filter and interpret the variants will be performed by a group of bioinformaticians and biologists from HUGO (University Hospital from the Grand Ouest). Long-term archiving of the data will be performed at the Nantes University Hospital.

Enrollment

10 patients

Sex

All

Volunteers

No Healthy Volunteers

Inclusion and exclusion criteria

Inclusion Criteria for patients:

Patient (child or adult) presenting neurodevelopmental troubles strongly suspected to suffer from a rare genetic disease (familial or very severe).
Negative outcome for short read sequencing of the trio (child and parents).
Informed consent to the study by the patient (if applicable) or their legal representatives if under-aged or under guardianship.
Patients benefiting from the social security (French health care system).

Inclusion criteria for Parents :