Study Results
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Basic Information
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NOT_YET_RECRUITING
200 participants
OBSERVATIONAL
2024-01-31
2028-01-31
Brief Summary
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Besides that, a long-read whole-genome sequencing of 100 newly transplanted recipients and their corresponding donors and extend latest bioinformatics methods developed by the study to analyze long-read data will be performed. This will enable a comprehensive and integrated analysis of structural variants, polygenic risk, high-penetrance variant genotypes, immunogenetic (major and minor histocompatibility), and individual lifestyle risk factors in a unique donor-recipient cohort, elucidating the extent of within-cohort variability and cross-correlations between the considered potential risk factors and an exploratory analysis of the utility of genetic risk scores in light of the study results will be carried out.
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Detailed Description
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Therefore, there is an urgent need for an improved understanding of the factors contributing to recurrent myocardial ischemia in HTx patients. Recent large-scale studies of the genetic architecture of coronary artery disease in the general population indicate that polygenic risk scores (PRS) explain more disease risk than any single non-genetic risk factor, but, due to a lack of longitudinal follow-up studies with deep phenotyping, PRS have not yet been widely adopted in clinical practice. Furthermore, current genetic studies are based on microarrays or short-read sequencing, severely limiting their ability to characterize the effect of complex or structural genetic variation, in the whole human genome as well as in key loci of potential importance for HTx outcomes, affecting, e.g., lipid metabolism (e.g. LPA) and immunogenetic compatibility (e.g. the major histocompatibility complex).
In summary, there is presently no study leveraging the improved ability to resolve human genomes with long-read sequencing technologies in a deeply phenotyped cohort for an improved understanding of recurring myocardial ischemia.
Study design and aims: In an innovative three-component study design, comprehensive phenotyping with the latest long-read sequencing technology and algorithmic advances in computational genomics to elucidate the interplay of genetic and non-genetic risk factors of myocardial ischemia in HTx patients at unprecedented resolution and pave the way towards detailed risk stratification and tailored treatment, will be combined
Significance and translational potential: By enabling the integrated analysis of structural variants, high-penetrance complex variants, and high-resolution immunogenetics, long-read sequencing will enable improved genetic models of the development of ischemia in HTx patients and contribute to an improved understanding of underlying pathomechanisms. Based on this, the investigators will be able to propose schemes to incorporate integrated risk scores in future clinical trials for personalized treatment stratification.
Conditions
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Study Design
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COHORT
PROSPECTIVE
Eligibility Criteria
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Inclusion Criteria
Exclusion Criteria
* incapable of giving consent
18 Years
ALL
No
Sponsors
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Heinrich-Heine University, Duesseldorf
OTHER
Responsible Party
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Principal Investigators
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Malte Kelm, Prof.
Role: STUDY_CHAIR
Clinic for Cardiology, Pneumology and Angiology at University Hospital Düsseldorf
Locations
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University-Hospital Düsseldorf Division of Cardiology, Pulmonary Disease and Vascular Medicine
Düsseldorf, , Germany
Countries
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Central Contacts
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Facility Contacts
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Other Identifiers
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Genomics in HTx
Identifier Type: -
Identifier Source: org_study_id
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