Chapter 24, Future Design Issues Paul King

Biomedical Engineering Handbook Bioelectric Phenomena Biomaterials Biomedical Sensors/Instrumentation Biomedical Imaging Tissue & Cell engineering Signal Analysis Gene Therapy Prosthetics/Rehabilitation Home monitoring Clinical Engineering Human Factors AI Physiological Modeling

R&D Support - US NSF Design, Manufacturing & Industrial Innovation Division Engineering Design Program National Institute of Biomedical Imaging & Bioengineering National Institute of Science & Technology DARPA NIH Private agencies

NSF SBIR/STTR solicitations Genomics Proteonomics Bioinformatics Biochips Combinatory Biotechnology Computational Biotechnology Environmental biotechnology

NSF SBIR/STTR solicitations Ecological Engineering Agricultural and food biotechnology Marine biotechnology and aquaculture Industrial bioproducts Bioengineering for disabled Tissue engineering Metabolic engineering

NSF SBIR/STTR solicitations Biomaterials Pharmaceutical drug delivery Nanoscale biotechnology Other -

Engineering design - NSF Design alternative generation – faster Design evaluation – speed up Design decision support Design optimization Design information systems Collaborative design Design education

NIBIB (Bioimag & Bioeng) Research for – Microimaging Novel in-vivo imaging New & improved devices New & improved methods Improved software Rapid dx for microbes & toxins

Nat. Inst. Of Science and Technology Support of high risk, high payout proposals from all areas…

DARPA Prototype development for multiple areas in defense Microelectronics Speech in noisy environments Brain-machine interfaces Bio-surveillance Anything for security/defense …

Other Cloning Robotic surgery Biomaterials Scaffolding for bone, organ growth Stem cell applications DNA profiling for disease and other remediation … your best guesses…