Researchers at NEMB 14 Say the Key is Focusing on Surrounding Micro Environment of the Tumor
NEW YORK, Jan. 16, 2014 – Highlighting the integration of nano-based engineering and medicine, the ASME (American Society of Mechanical Engineers) 2014 3rd Global Congress on Nano-engineering for Medicine and Biology (NEMB 2014) will cover the latest programs in the research community to develop advanced devices for the detection and treatment of disease.
As NEMB 2014 prepares to open Feb. 2 in San Francisco, researchers are advancing the understanding of cancer beyond the popular theory that there exists one oncogene in a single cancer cell. A group of speakers at the conference will show that mechanical activity in the area around the tumor are key factors in understanding metastasis and devising treatment protocols.
Several plenary speeches at NEMB 2014 will explore the biochemical and mechanical signaling in tissue surrounding tumor cells that provides important scientific knowledge on the potential for cancerous growth – and the rate of that growth – in the patient.
These and other invited and participating speakers in the program will offer different perspectives on this theme, sharing research findings on the critical role of cellular communication, interaction, and movement in cancer and other biomedical investigations.
Plenary talks include:
- Studies of Colloidal Nanocrystals and Biological Micromolecules in Liquids Using the Transmission Electron Microscope, Paul Alivisatos, UC Berkeley/Lawrence Berkeley National Laboratory
- Closing the Loop: How a Linear DNA Sequence Becomes a Three-Dimensional Tissue, Mina Bissell, Lawrence Berkeley National Laboratory
- What Is Impact? Lessons Learned From 20th Century Science and Engineering, Arun Majumdar, Google/Stanford University
- Single Cell Genomics, Stephen Quake, Stanford University
- Transient Electronics for Biomedicine, John Rogers, University of Illinois at Urbana Champaign
- Rare Events with Large-Impact: Bioengineering and Clinical Applications of Circulating Tumor Cells, Mehmet Toner, Harvard Medical School/MGH
- Biomimetic Materials to Control Cell Behaviors for Tissue Engineering and Regenerative Medicine, Jennifer West, Duke University
Continuing to Feb. 5 at the Westin St. Francis, NEMB 2014 will bring together leading researchers to assess the fundamental challenges in biology and medicine and explore the role of nanotechnology-based materials and devices in human health and rehabilitation.
[Media representatives are invited to cover NEMB 2014. For complimentary press registration, please contact Deborah Wetzel, (212) 591-7085 or email@example.com.]
Featuring 45 sessions, nine tracks, five tutorials, and a poster session, the three-day information exchange will include presentations from experts at research organizations that are forging new pathways in medical research and experimentation, including UC Berkeley, UC San Francisco, UC Davis, UC Irvine, UCLA, UC San Diego, University of Illinois at Urbana-Champaign, University of Minnesota, Purdue University, Harvard Medical School, Stanford University, and Massachusetts Institute of Technology.
For information, visit www.asmeconferences.org/NEMB2014.
ASME helps the global engineering community develop solutions to real world challenges. Founded in 1880 as the American Society of Mechanical Engineers, ASME is a not-for-profit professional organization that enables collaboration, knowledge sharing and skill development across all engineering disciplines, while promoting the vital role of the engineer in society. ASME codes and standards, publications, conferences, continuing education and professional development programs provide a foundation for advancing technical knowledge and a safer world.