Biomedical Engineering Reference
In-Depth Information
86. Welle, A.M. and Jacobs, H.O., Printing of organic and inorganic nanomaterials using electrospray ioni-
zation and Coulomb-force-directed assembly, Applied Physics Letters , 87, 263119, 2005.
87. Petrik, J., Diagnostic applications of microarrays, Tra nsf usion Medicine , 16, 233, 2006.
88. Templin, M.F. et al., Protein microarrays: promising tools for proteomic research, Proteomics , 3, 2155,
2003.
89. Kallioniemi, O.P., Biochip technologies in cancer research, Annals of Medicine , 33, 142, 2001.
90. Jain, K.K., Applications of biochips: from diagnostics to personalized medicine, Current Opinion in
Drug Discovery and Development , 7, 285, 2004.
91. Morozov, V.N. and Morozova, T.Y., Electrospray deposition as a method for mass fabrication of mono-
and multicomponent microarrays of biological and biologically active substances, Analytical Chemis-
try , 71, 3110, 1999.
92. Lee, B. et al., Fabrication of protein microarrays for immunoassay using the electrostatic spray deposi-
tion (ESD) method, Journal of Chemical Engineering of Japan , 36, 1370, 2003.
93. Moerman, R. et al., Miniaturized electrospraying as a technique for the production of microarrays of
reproducible micrometer-sized protein spots, Analytical Chemistry , 73, 2183, 2001.
94. Khani, Z. et al., Alginate/carbon composite beads for laccase and glucose oxidase encapsulation: appli-
cation in biofuel cell technology, Biotechnology Letters , 28, 1779, 2006.
95. Desai, T.A., Microfabrication technology for pancreatic cell encapsulation, Expert Opinion on Biologi-
cal Therapy , 2, 633, 2002.
96. Visted, T., Bjerkvig, R., and Enger, P.O., Cell encapsulation technology as a therapeutic strategy for
CNS malignancies, Neuro-Oncology , 3, 201, 2001.
97. Uludag, H., De Vos, P., and Tresco, P.A., Technology of mammalian cell encapsulation, Advanced Drug
Delivery Reviews , 42, 29, 2000.
98. Colton, C.K., Engineering challenges in cell-encapsulation technology, Tren ds in Biotech nology , 14,
158, 1996.
99. Amsden, B.G. and Goosen, M.F.A., An examination of factors affecting the size, distribution and
release characteristics of polymer microbeads made using electrostatics, Journal of Controlled Release ,
43, 183, 1997.
100. Watanabe, H., Matsuyama, T., and Yamamoto, H., Preparation of immobilized enzyme gel particles
using an electrostatic atomization technique, Biochemical Engineering Journal , 8, 171, 2001.
101. Xu, Y.X., Skotak, M., and Hanna, M., Electrospray encapsulation of water-soluble protein with polylac-
tide. I. Effects of formulations and process on morphology and particle size, Journal of Microencapsu-
lation , 23, 69, 2006.
102. Zhou, Y. et al., Scalable encapsulation of hepatocytes by electrostatic spraying, Journal of Biotechnol-
ogy , 117, 99, 2005.
103. Al-Hajry, H.A. et al., Electrostatic encapsulation and growth of plant cell cultures in alginate, Biotech-
nology Progress , 15, 768, 1999.
104. Orive, G. et al., Microencapsulation of an anti-VE-cadherin antibody secreting 1B5 hybridoma cells,
Biotechnology and Bioengineering , 76, 285, 2001.
105. Terzano, C. and Allegra, L., Importance of drug delivery system in steroid aerosol therapy via nebulizer,
Pulmonary Pharmacology and Therapeutics , 15, 449, 2002.
106. Sweeney, L.G. et al., Spray-freeze-dried liposomal ciprofl oxacin powder for inhaled aerosol drug deliv-
ery, International Journal of Pharmaceutics , 305, 180, 2005.
107. Corcoran, T.E. and Gamard, S., Development of aerosol drug delivery with helium oxygen gas mixtures,
Journal of Aerosol Medicine-Deposition Clearance and Effects in the Lung , 17, 299, 2004.
108. Pareta, R. et al., Electrohydrodynamic atomization of protein (bovine serum albumin), Journal of Mate-
rials Science—Materials in Medicine , 16, 919, 2005.
109. Davies, L.A. et al., Electrohydrodynamic comminution: a novel technique for the aerosolisation of plas-
mid DNA, Pharmaceutical Research , 22, 1294, 2005.
110. Gomez, A. et al., Production of protein nanoparticles by electrospray drying, Journal of Aerosol Sci-
ence , 29, 561, 1998.
111. Jayasinghe, S.N., Qureshi, A.N., and Eagles, P.A.M., Electrohydrodynamic jet processing: an advanced
electric-fi eld-driven jetting phenomenon for processing living cells, Small , 2, 216, 2006.
112. Li, S.W., Jayasinghe, S.N., and Edirisinghe, M.J., Aspirin particle formation by electric-fi eld-assisted
release of droplets, Chemical Engineering Science , 61, 3091, 2006.
113. Eagles, P.A.M., Qureshi, A.N., and Jayasinghe, S.N., Electrohydrodynamic jetting of mouse neuronal
cells, Biochemical Journal , 394, 375, 2006.
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