This application is to fund the University of Utah Center of Excellence in ELSI Research (UCEER). The University of Utah has a strong tradition in human genetics and ELSI research and this proposal will build on our successful development and management of a P20 funded CEER. The proposed UCEER will focus primarily, although not exclusively, on issues relevant to population screening for genetic conditions in the healthcare of women, children, and young families.
This 3-year R01 based at the University of Minnesota and Vanderbilt University will convene a national Working Group of top legal and scientific experts to analyze current U.S. federal and state law, regulation, and guidance on translational genomics, and to generate consensus recommendations on what the law should be, to optimize successful translation of genomics into clinical use. The law underlying genomics is currently unclear, poorly understood, and contested.
Responsible conduct of research (RCR) is an essential requirement for research training in developed countries and most academic and funding institutions require researchers to obtain such training before starting a research project Jordan is one of the more academically established countries in the Middle East and North Africa (MENA) region with a high per-capita university education and progressive research agenda. It is also the hub for pharmaceutical drug development with over 20 companies generating generic drugs and exporting it to the region and globally.
Whole genome sequencing has vast potential to improve the care of generally healthy adults by identifying predispositions for disease to facilitate targeted prevention and screening efforts, by informing treatment options when illnesses do develop, and more. It may also cause more harm than good through false-positive findings, through unnecessary monitoring because of incomplete genetic penetrance, and because the conditions identified by genomic sequencing may lack effective prevention options.
The emergence of genomic medicine has not been without unique concerns that continue to challenge clinicians working in this arena. Genomic test results have implications for individuals other than the person tested. Related to this, interpretation of genomic data often requires several related individuals; and even then what can be known about the meaning of an individual's specific variants is, and will continue to be, a function of big data analysis of the genomic data of many thousands (or even millions) of individuals.
The advent of clinical genome sequencing to identify patients at risk for serious diseases and to tailor treatments promises to greatly improve health outcomes and provide a foundation for the delivery of Precision Medicine. However, even as laboratory methods to perform sequencing become highly efficient, uncertainty around the optimal breadth and economic value of sequencing as well as ambiguity around which individuals should be tested presents a critical barrier to wider use.
Noninvasive prenatal genetic testing (NIPT) is revolutionizing the practice of obstetrics. However, the technol- ogy is expanding rapidly and in a way that has outpaced the rate at which evidence-based strategies for its in- tegration can be developed and implemented. Initially, NIPT was used as a screen for a limited number of an- euploidies and genetic conditions.
Prenatal genetic services have expanded at an extraordinary pace over the past 4 years with the development of fetal genome sequencing using cell-free placental DNA in maternal serum. Some commentators predict that this new technology, which allows for noninvasive determination of an increasingly wide range of maternal-fetal health conditions, will improve prenatal care, especially in lower-resource areas.
Background: There is great interest in the implementation of genomic medicine, i.e., using genomic information to inform patient care. As a result, patients with medically actionable (preventable and/or treatable) genetic conditions are being identified, often as an unsolicited secondary finding or a result of screening in the absence of a clinically known condition. The identification of a previously unsuspected medically actionable condition enhances the ability of health care providers' (HCPs) to intervene early to prevent disease.
Patient engagement is critical for implementation of the genomic component of precision medicine--with care taken to include the perspectives and needs of patients. Yet many patients may experience significant barriers to understanding genetic information and/or using the electronic patient portals that many health systems are using to meet the terms of meaningful use related to the return of laboratory and test results.