IonGER: Initiative for Clinical Long-read Sequencing

Study Description

Brief Summary

The study aims to comprehensively introduce Long-read Genome sequencing (LR-GS) based genetic testing into clinical routine. In order to demonstrate the superiority of untargeted LR-GS over Short-read Genome sequencing (SR-GS) to establish firm genetic diagnoses, the investigators will rely on a multi-center "Translate Nationale Aktionsbündnis für Menschen mit Seltenen Erkrankungen" (Translate National Action Alliance for People with Rare Diseases Germany, TNAMSE) cohort of unsolved patients with neurological, neurodevelopmental, and imprinting disorders that is expectedly enriched for complex genomic variation. Within the framework of genomDE, the investigators will then implement, for the first time, LR-GS in the diagnostic work-up of a prospective cohort of patients with a broad range of clinical indications including rare diseases and cancer predisposition.

Detailed Description

The proposed study aims to develop a blueprint for the implementation of LR-GS in clinical diagnostics. Hence Standard Operating Procedures (SOPs) and guidelines for library preparation, bioinformatic analysis, and clinical interpretation will be compiled. Furthermore, the investigators intend to develop an open source 'gold standard' bioinformatics pipeline, addressing all relevant types of genomic alterations, thus providing the bioinformatic basis for a streamlined implementation of LR-GS at other sites. In addition to in-depth phenotype information the availability of SR-GS will be instrumental to benchmark the ability to detect different types of genomic variation. Additional relevant issues for genetic testing such as variant calling in difficult-to-map genomic regions, detection of genomic methylation patterns, characterization of repeat expansion and duplicated genes, and haplotype-phased genome de novo assembly will be addressed. Moreover, based on the strong background in Artificial Intelligence (AI) driven variant prioritization in the consortium, the investigators aim to implement and/or develop tools that enable an efficient prioritization of disease-causing variants. Beyond the usage within the context of the proposed study, generated datasets will be made available according to the Findable, Accessible, Interoperable and Reusable (FAIR) principles for national (German Human Genome-Phenome Archive, GHGA) and international (European Genome-Phenome Archive, EGA, Genome-Phenome Analysis Platform, GPaP) data repositories. the investigators aim to establish a population scale reference dataset for Structural variants (SV), which is absolutely mandatory in the context of rare disease diagnostics.

Study Design

Outcome Measures

Primary Outcome Measures

1. Number of patients with Rare Disease (RD) or cancer predisposition syndromes with confirmed diagnosis by LR-GS compared to previous diagnostic methods including SR-GS [Day 1]

   A molecular diagnosis is considered confirmed when likely pathogenic or pathogenic variants are identified according to the American College of Medical Genetics and Genomics (ACMG). classification.

Eligibility Criteria

Criteria

Inclusion Criteria:

• Unclear molecular cause of the disease (retrospective cohort)

• Indication for genome diagnostics (prospective cohort; e.g. within the initiative for genomic medicine (genomDE) based on §64e SGB V)

• Suspected genetic cause of the disease

Exclusion Criteria:

• Missing informed consent of the patient or legal guardian

Contacts and Locations

Locations

Sponsors and Collaborators

• University Hospital Tuebingen
• RWTH Aachen University
• Medical University of Hannover
• Charite University, Berlin, Germany

Investigators

• Principal Investigator: Tobias Haack, Dr. med., University Hospital Tübingen

Study Documents (Full-Text)

More Information

Publications