Primary care physicians have almost no training in genetics, nor in the ethical, legal and social implications (ELSI) of genetic testing, diagnosis and therapy. Further, mere provision of curricular content fails to impact physician behavior. However, programs with elements that are based on established educational and adult learning principles have been shown to effective in affecting behavioral change.
The specific aim of this project is to determine what criteria should govern return of individual results of pediatric genomic research, using analysis of US law and international guidelines regarding decision making for and by minors as the foundation. This issue, which has received remarkably little attention, must be resolved if this research, which is vital to understanding the contributions of genetic variation to the health of children, is to proceed.
The University of Utah Center for Excellence in ELSI Research (UCEER) will conduct strategic planning for ELSI research, training and mentoring, and conduct two pilot projects. The focus of the UCEER will be population screening for genetic conditions in the health care of women and children. Our specific focus will be prenatal genetic screening and newborn screening. We will build on our strengths and experience to develop a collaborative, transdisciplinary center for research and training in ELSI issues.
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.
Advances in technology have led to the availability of genetic testing for a wide range of conditions for healthy or high-risk newborns. It is expected that the funds spent on genetic testing in the U.S. will reach $25 billion by 2021. With the numerous uses of genomic information, understanding the clinical value and long-term impact of genomic technologies on morbidity, mortality, quality of life, and diagnosis and treatment costs is essential.
