References
- Roco MC, Bainbridge WS (eds). Converging Technologies for Improving Human Performance, National Science Foundation, 2002.
- Lymberis A. Converging micro-nano-bio technologies towards integrated biomedical systems: State of the art and future perspectives under the EU-information & communication technologies program, Engineering in Medicine and Biology Society, 2008. EMBS 2008. 30th Annual International Conference of the IEEE 20-25 Aug. 2008:6–8.
- El-Ali J, Songer PK, Jensen KF. Cells On chips. Nature 2006;442:403–11.
- Andersson H, van den Berg A. Microfluidic devices for cellomics: a review, Sens Actuators B Chem. 2003;92:315–25.
- Helmke BP, Minerick AR. Designing a nano-interface in a microfluidic chip to probe living cells: challenges and perspectives. Proc Natl Acad Sci. USA 2006;103:6419–24.
- Revzin A, Sekine K, Sin A, Tompkins RG, Toner M. Development of a microfabricated cytometry platform for characterization and sorting of individual leukocytes. Lab Chip 2005;5:30–7.
- Ghindilis AL, Smith MW, Schwarzkopf KR, Roth KM, Peyvan K, Munro SB, CombiMatrix oligonucleotide arrays: Genotyping and gene expression assays employing electrochemical detection. Biosens Bioelectron. 2007; 22:1853–60.
- Han KH, Han A, Frazier AB. Microsystems for isolation and electrophysiological analysis of breast cancer cells from blood. Biosens Bioelectron. 2006;21:1907–14.
- Han A, Yang L, Frazier AB. Quantification of the heterogeneity in breast cancer cell lines using whole-cell impedance spectroscopy. Clin Cancer Res. 2007;13:139–43.
- Lee SW, Tai YC. A micro cell lysis device. Sens Actuators A 1999;73:74–9.
- Stone, HA, Stroock AD. Ajdari A. Engineering flows in small devices: microfluidics toward a lab-on-a-chip. Annu Rev Fluid Mech. 2004;36:381–411.
- Ahlford A, Brivio M, Guonason H, Wolff A, Syvanen AC. Development of a lab-on-a-chip device for point-of-care genetic diagnostics. European Journal of Clinical Investigation 2007;37:82.
- Barrios CA, Holgado M, Guarneros O, Gylfason KB, Sánchez B, Casquel R, Reconfiguration of microring resonators by liquid adhesion. Applied Physics Letters 2008;93:203114.
- Hafaida I, Chebilc S, Korri-Youssoufic H, Franc Bessueillea O, Errachida A, Sassi Z, Effect of electrical conditions on an impedimetric immunosensor based on a modified conducting polypyrrole, Sensors and Actuators [in press].
- Oeinck M, Riehemann K, Fuchs H, Schnekenburger J. Biomechanical Characterization of Pancreatic Tumor Cells by Dielectrophoresis Force Generation in a Microfluidic System. Pancreas 2009;38:1034.
- Roeser T, Ritzi M, Hauch S, Albert W, Borgen E, Nygren AOH, Solidity Mounted Thin Film Electro-Acoustic Resonator utilizing a conductive Bragg re-flector. Sensors and Actuators, Available Online Sept. (2007).
- Ruano-López JM, Agirregabiria M, Olabarria G, Verdoy D, Bang DD, Bu M, The SmartBioPhone, a point of care vision under development through two European projects: OPTOLABCARD and LABONFOIL, Lab On a Chip 2009;9:1495–9.
- Laureyn W, Liu C, O'Sullivan CK, Ozalp VC, Nilsson O, Fermér C, Lab-on-chip for the Isolation and Characterization of Circulating Tumor Cells, NSTI-Nanotech 2007;2:229–31.
- Fiegl H, Windbichler G, Mueller-Holzner E, Goebel G, Lechner M, Jacobs IJ, HOXA11 DNA methylation a novel prognostic biomarker in ovarian cancer. Int J Cancer 2008;123:725–9.
- Tainsky MA, Chatterjee M, Levin NK, Draghici S, Abrams J. Multianalyte Tests for the Early Detection of Cancer: Speed bumps and Barriers. Biomark Insights 2007;2:261–7.
- Higgins H, Wireless Communication, Body Sensor Networks, G.Z. Yang, ed. Springer, 2006:117–55.
- Mathie MJ, Coster ACF, Lovell NH, Celler BG. Accelerometry: Providing an Integrated, Practical Method for Long-Term, Ambulatory Monitoring of Human Movement. Physiological Measurement 2004;25:R1–20.
- Von Stetten F. A One-Compartment, Direct Glucose Fuel Cell for Powering Long-Term Medical Implants,” Proc., 19th IEEE Int'l Conf. Micro ElectroMechanical Systems (MEMS 06), IEEE Press, 2006:934–7.
- Eggers T, Wenzel M. Implantable Telemetric Pressure Measurement. Medical Device Technology 2004;15:25–7.
- Hornig R, Laube T, Walter P, Velikay-Parel M, Bornfeld N, Feucht M, A Method and Technical Equipment for an Acute Human Trial to Evaluate Retinal Implant Technology. J Neural Eng. 2005;2:S129–S134.
- Hodgins D, Bertsch A, Post N, Frischholz M, Volckaerts B, Spensley J, Healthy Aims: Developing New Medical Implants and Diagnostic Equipments, IEEE Pervasive Computing mobile and ubiquitous systems 2008;7:14–21.
- Neves HP, Orban GA, Koudelka-Hep M, Stieglitz T, Ruther P. Development of modular multifunctional probe arrays for cerebral applications. Proc. 3rd Int'l. IEEE/EMBS Conf. on Neural Engineering 2007:104–9.
- Menciassi A, Valdastri P, Harada K, Dario P. Single and multiple robotic capsules for endoluminal diagnosis and surgery, Biomedical Robotics and Biomechatronics, 2008. BioRob 2008. 2nd IEEE RAS & EMBS International Conference, 19-22 Oct. 2008:238–43.
- Dario P, Hannaford B, Menciassi A. Smart surgical tools and augmenting devices, Robotics and Automation, IEEE Transactions 2003;19:782–92.
- De Rossi D, Lymberis A. Guest Editorial, IEEE Transactions on Information Technology in Biomedicine, Special Section on New Generation of Smart Wearable Health Systems and Applications 2005;9:293–94.
- Coyle S, Wu Y, Lau K-T, Wallace GG, Diamond D. Fabric-based fluid handling platform with integrated analytical capability Engineering in Medicine and Biology Society, 2007, EMBS 2007. 29th Annual International Conference of the IEEE 22-26 Aug. 2007:6450.