Genome Sequencing of Human Cancer Tissues
Last updated on July 2021Recruitment
- Recruitment Status
- Recruiting
- Estimated Enrollment
- Same as current
Summary
- Conditions
- Cancer
- Type
- Interventional
- Phase
- Not Applicable
- Design
- Allocation: N/AIntervention Model: Single Group AssignmentMasking: None (Open Label)Primary Purpose: Diagnostic
Participation Requirements
- Age
- Younger than 125 years
- Gender
- Both males and females
Description
For brevity, the investigators include the approaches of whole genome sequencing, whole exome sequencing of just the protein-coding exons, enrichment and sequencing of methylated DNA and RNA or transcriptome-sequencing under the broad category term, Whole Genome Sequencing (WGS). The development of ...
For brevity, the investigators include the approaches of whole genome sequencing, whole exome sequencing of just the protein-coding exons, enrichment and sequencing of methylated DNA and RNA or transcriptome-sequencing under the broad category term, Whole Genome Sequencing (WGS). The development of rapid and low cost next-generation genome sequencing technologies brings the promise of a new era of precision therapeutics to clinical practice, but it is associated with significant challenges, including reproducible generation of high-quality sequence data and the need for comprehensive data analysis and interpretation that is translatable to clinical action. Equally critical are the ethical, legal, and social issues surrounding the introduction of WGS testing and its clinical application in multiethnic, multicultural populations, particularly those who have historically experienced discrimination or even unethical research practices. Of particular concern are issues surrounding the privacy, ownership, storage, and use of WGS data.
Tracking Information
- NCT #
- NCT02105545
- Collaborators
- Not Provided
- Investigators
- Study Chair: Stuart S Winter, MD University of New Mexico Cancer Center