Biomedical Engineering Reference
In-Depth Information
69. Sacconi, L.; Tolic-Norrelykke, I. M.; Antolini, R.; Pavone, F. S. Combined Intracellular Three-
Dimensional Imaging and Selective Nanosurgery by a Nonlinear Microscope.
J. Biomed. Opt.
2005,
10,
14002.
70. Tirlapur, U. K.; Konig, K. Femtosecond Near-Infrared Laser Pulses as a Versatile Non-
Invasive Tool for Intra-Tissue Nanoprocessing in Plants without Compromising Viability.
Plant. J.
2002,
31,
365-374.
71. Konig, R.; Rieman, I.; Fischer, P.; Halbhuber, K. J. Intracellular Nanosurgery with Near Infra-
red Femtosecond Laser Pulses.
Cell. Mol. Biol.
1999,
45,
195-201.
72. Firtel, M.; Henderson, G.; Sokolov, I. Nanosurgery: Observation of Peptidoglycan Strands in
Lactobacillus Helveticus Cell Walls.
Ultramicroscopy
2004,
101,
105-109.
73. Ishiyama, K.; Sendoh, M.; Arai, K. I. Magnetic Micromachined for Medical Applications.
Biomed. Mater. Eng.
2002,
15,
367-374.
74. Mathieu, J. B.; Martel, S.; Yahia, L.; Soulez, G.; Beaudoin, G. Preliminary Investigation of the
Feasibility of Magnetic Propulsion for Future Microdevices in Blood Vessels.
Biomed. Mater.
Eng.
2002,
15,
367-374.
75. Martel, S.; Mathieu, J. B.; Felfoul, O.; Chanu, A.; Aboussouan, E.; Tamaz, S., et al. Automatic
Navigation of an Untethered Device in the Artery of a Living Animal Using a Conventional
Clinical Magnetic Resonance Imaging System.
Appl. Phys. Lett.
2007,
114105,
90.
76. Yesin, K. B.; Exner, P.; Vollmers, K.; Nelson, B. J. Design and control of in-vivo magnetic
microrobots, Duncan, J. S.; Gerig, G., Eds.; Proceedings of the 8th international conference
on medical image computing and computer-assisted intervention (MICCAI 2005). Springer:
Berlin, Germany, 2005, 819-826.
77. NIH.
National Institutes of Health Roadmap: Nanomedicine
.Available from:
http://nihroadmap.
nih.gov/nanomedicine/index.asp
. Accessed on May 27, 2012.
78. Thomas, T. P.; Shukla, R.; Majoros, I. J.; Myc, A.; Baker, R. J. Polyamidoamine dendrimer-
based multifunctional nanoparticles. In
Nanobiotechnology II: More concepts and appli-
cations
; Mirkin, C. A.; Niemeyer, C. M., Eds.; Wiley-VCH Press: Hoboken, NJ, 2007,
Chapter 16.
79. Monroe, D. Micromedicine to the Rescue.
Commun. ACM
2009,
52,
13-15.
80. Koo, O. M.; Rubinstein, I.; Onyuksel, H. Role of Nanotechnology in Targeted Drug Delivery
and Imaging: A Concise Review.
Nanomedicine
2005,
1,
193-212.
81. Vo Dinh, T.; Kasili, P.; Wabuyele, M. Nanoprobes and Nanobiosensors for Monitoring and
Imaging Individual Living Cells.
Nanomedicine
2006,
2,
22-30.
82. Aguilar, Z.; Aguilar, Y.; Xu, H.; Jones, B.; Dixon, J.; Xu, H.; Wang, A. Nanomaterials in Medi-
cine.
Electrochem. Soc. Trans.
2010,
33,
69-74.
83. Sekhon, B.; Kamboj, S. Inorganic Nanomedicine: Part 1.
Nanomed. Nanotechnol. Biol. Med.
2010,
6,
516-522.
84. Park, J. -H.; von Maltzahn, G.; Zhang, L.; Derfus, A. M.; Simberg, D.; Harris, T. J.; Ruoslahti,
E.; Bhatia, S. N.; Sailor, M. J. Systematic Surface Engineering of Magnetic Nanoworms for In
vivo Tumor Targeting.
Small
2009,
5,
694-700.
85. Akerman, M. E.; Chan, W. C.; Laakkonen, P.; Bhatia, S. N.; Ruoslahti, E. Nanocrystal Target-
ing In Vivo.
PNAS USA
2002,
99,
12617-12621.
86. Yang, L.; Peng, X.; Wang,Y.; Wang, X.; Cao, Z.; Ni, C.; Karna, P.; Zhang, X.; Wood, W.; Gao, X.;
Nie, S.; Mao, H. Receptor-Targeted Nanoparticles for In Vivo Imaging of Breast Cancer.
Clin.
Cancer. Res.
2009,
15,
4722-4732.
87. Das, S.; Jagan, L.; Isiah, R.; Rajech, B.; Backianathan, S.; Subhashini, J. Nanotechnology in
Oncology: Characterization and
In Vitro
Release Kinetics of Cisplatin-Loaded Albumin Nanopar-
ticles: Implications in Anticancer Drug Delivery.
Indian J. Pharmacol.
2011,
43,
409-413.