Author :
Wang, Dongping ; Tabata, Osamu ; Mengsu Yang ; Tang, W.C. ; Jin-Woo Kim ; Da-Jeng Yao ; Yeow, John T. W. ; Martel, Sylvain ; Lianqing Liu ; Junghoon Lee ; Yantasee, Wassana ; Chow, Edward K. ; Dong Sun ; Guangyong Li ; Lam, Raymond H. W.
Author_Institution :
Neurosci. Program, Michigan State Univ., East Lansing, MI, USA
Abstract :
These keynotes speeches the following: Nanoimaging of Cellular and Molecular Dynamics: A Paradigm Shift for Patient Care?; DNA as an Engineering Material to Bridge MEMS and Nanomedicine; Micro/Nano Analysis of Cell Communication and Targeted Destruction of Cancer Cells; Microfluidic Platforms for Capturing Circulating Tumor Cell; Stealth Nanotube Theranostic Agents: Shielding Carbon Nanotubes to Evade Opsonization and Improve Biodistribution; In Vitro Fertilization on a Chip for Oligozoospermia Patients; DC-powered Microfluidic Chip for Electroporation of CHO Cells; MC-1 Magnetotactic Bacteria versus Magnetic Nanoparticle-based Micro-carriers for Drug Delivery to Tumors through Capillary Networks; Micro/Nano Manipulation Enabled Cancer Cell Detection, Separation and Investigation for Personalized Medicine; Surprising Encounter between Graphitic Biomolecules/Celis; Nanoparticle Platform for Targeted Delivery of siRNA and Chemotherapies; Cancer Stem Cells and Nanomedicine; Robot-aided Cell Manipulation with Optical Tweezers; Simultaneous Topography Imaging and Molecular Recognition with Low Crosstalk and High Sensitivity; Micro-engineered Devices for Cell Mechanotransduction Study.
Keywords :
DNA; RNA; bioMEMS; biochemistry; biomedical imaging; biomedical materials; cancer; carbon nanotubes; cell motility; drug delivery systems; lab-on-a-chip; magnetic particles; mechanoception; medical robotics; microfluidics; micromanipulators; microorganisms; molecular biophysics; nanomagnetics; nanomedicine; patient care; radiation pressure; C; CHO cell electroporation; DC-powered microfluidic chip; DNA; MC-1 magnetotactic bacteria; MEMS; biodistribution; cancer cell detection; cancer stem cells; capillary networks; carbon nanotube shielding; cell mechanotransduction study; cellular dynamics; chemotherapies; circulating tumor cell capturing; drug delivery; graphitic biomolecules; graphitic cells; in vitro fertilization on a chip; magnetic nanoparticle-based microcarriers; material engineering; microengineered devices; microfluidic platforms; molecular dynamics; molecular engineering; molecular medicine; molecular recognition; nanoengineering; nanoimaging; nanomedicine; oligozoospermia patients; opsonization; optical tweezers; patient care; personalized medicine; robot-aided cell manipulation; siRNA delivery; stealth nanotube theranostic agents; topography imaging;
Conference_Titel :
Nano/Molecular Medicine and Engineering (NANOMED), 2013 IEEE 7th International Conference on
Conference_Location :
Phuket
Print_ISBN :
978-1-4799-2689-3
DOI :
10.1109/NANOMED.2013.6766299
