13th Key Symposium 2016: Bioelectronic Medicine — Technology Targeting Molecular Mechanisms

Country: USA

City: New York

Abstr. due: 29.07.2016

Dates: 21.09.16 — 23.09.16

Area Of Sciences: Biology; Medicine;

Organizing comittee e-mail: BioelectronicMedicine@nyas.org

Organizers: The Feinstein Institute for Medical Research


Technology is changing the world and bioelectronic medicine is at the forefront of this technological revolution. The pharmaceutical industry's history is based on therapies that target molecular mechanisms, yet these therapies are expensive, difficult to administer, often toxic, and may be accompanied by lethal side effects. Bioelectronic medicine — the convergence of molecular medicine; neuroscience and biology; and electronics and computing to develop cures — may change the future of therapies for a wide variety of diseases. This groundbreaking discipline is aimed at interfacing electronics with nerves to specifically target the biological processes underlying disease. Bioelectronic medicine is now at the epicenter of where healthcare, technology, and science converge. A unique moment exists to characterize the challenges and opportunities facing the future of this scientific domain.

The Key Symposium 2016: Bioelectronic Medicine — Technology Targeting Molecular Mechanisms, will convene thought leaders who have the potential to explore, define, and create this new field. Session topics include: Defining Circuits, Cell Biology and Cancer, Molecular Sensing, Clinical Updates, Brain Interfaces, Processing the Future, and Funding the Field. By harnessing the power of technology spanning disciplines from microfluidics to computer processing to molecular technology, we step closer to the promise of bioelectronic medicine — to naturally reproduce a drug's therapeutic reaction by mobilizing the body's natural reflexes to develop effective, safe and economical alternatives to pills and injectables.

Conference Web-Site: http://www.nyas.org/Events/Detail.aspx?cid=232a2344-a1dd-461c-bcad-e857cbb6763b