Clara C. Hildebrandt, MD and Jonathan M. Marron, MD, MPH
Gene editing with CRISPR/Cas9 raises concerns about equitable access to therapies that could limit research participation by minority group members. These concerns can be addressed through public education, transparency, and stakeholder partnerships.
AMA J Ethics. 2018;20(9):E826-833. doi:
10.1001/amajethics.2018.826.
Holly K. Tabor, PhD and Aaron Goldenberg, PhD, MPH
Rare genetic disease research has something to teach precision medicine about addressing some patients’ limited access to treatment. Health disparities exacerbated by high costs and limited availability of drugs can, perhaps, be mitigated when patient activism accelerates drug development.
AMA J Ethics. 2018;20(9):E834-840. doi:
10.1001/amajethics.2018.834.
Rebekah Davis Reed, PhD, JD and Erik L. Antonsen, PhD, MD
Though the National Aeronautics and Space Administration’s collection of disaggregated genetic data for occupational surveillance and research raises numerous privacy concerns, the Genetic Information Nondiscrimination Act of 2008 allows genetic information to be used to develop personal pharmaceuticals.
AMA J Ethics. 2018;20(9):E849-856. doi:
10.1001/amajethics.2018.849.
The Holocaust and the racial hygiene doctrine that helped rationalize it still overshadow contemporary debates about using gene editing for disease prevention.
AMA J Ethics. 2021;23(1):E49-54. doi:
10.1001/amajethics.2021.49.
Pamela B. Teaster, PhD, MA, MS and Al O. Giwa, LLB, MD, MBA, MBE
Since ageism contributes to global mental health inequity among older people, responding to their needs should be a clinical, ethical, and policy priority.
AMA J Ethics. 2023;25(10):E765-770. doi:
10.1001/amajethics.2023.765.
Dr Chad M. Teven joins Ethics Talk to unravel some current and a few hoped-for surgical applications of AI and to model for us how we should be critically engaging with AI surgical research and scholarship.