Con-current Oral Abstract Presentations Session IV
Surface Modification and Characterization of Orthopaedic and Dental Implants at the Nano/Micro Scale for Improved Osseointegration II (General Session)
132
Postmortem Retrieved Porous Coated Total Knee Components: Mineral Content Variations
K. E. Koller, O. Elenitoba-Johnson, R. D. Bloebaum, A. A. Hofmann;
Bone & Joint Research Laboratory (151F), Salt Lake City, UT.
133
Osteogenic differentiation of bone marrow mesenchymal cells on Ti surfaces: additive effect of biochemical modification and surface topograhy
M. Morra, C. Cassinelli, G. Cascardo;
Nobil Bio Ricerche, Villafranca d'Asti, ITALY.
134
Osteoblast Behavior and Electrochemical Impedance at Electrically Polarized Titanium Surfaces
M. T. Ehrensberger, J. L. Gilbert;
Syracuse University, Syracuse, NY.
135
Novel Biodegradable Polymeric Blends for Orthopaedic Applications:
Poly[(ethyl alanato)(phenyl phenoxy)phosphazene] - Poly(lactide-co-glycolide) Miscibility and Osteocompatibility Studies
M. Deng;
University of Virginia, Charlottesville, VA.
136
Osteoblasts Require Both Micron Scale and Submicron Scale Surface Structure for Synergy with Surface Energy
G. Zhao1, A. L. Raines1, Z. Schwartz1, M. Wieland2, B. D. Boyan1;
1Georgia Institute of Technology, Atlanta, GA, 2Institut Straumann AG, Basel, SWITZERLAND.
137
Implication of Crystal Orientation in Controlling Cell Attachment
S. Faghihi, F. Azari, J. Szpunar, H. Vali, M. Tabrizian;
McGill University, Montreal, PQ, CANADA.
Developing Best Practices in Tissue Engineering Education (Symposium)
138
Teaching Tissue Engineering: One Professor’s Experience at Three Institutions
M. Saltzman,
Yale University, New Haven, CT.
140
Curriculum-Based Biomaterials Education for Secondary Students
L. C. Benson, K. J. L. Burg;
Clemson Univ., Clemson, SC.
141
Experiential Learning in Tissue Engineering
D. Feldman;
UAB, Birmingham, AL.
142
Biology and Engineering of the Extracellular Matrix: An Interdisciplinary Course for Tissue Engineers
J. P. Stegemann, G. Plopper;
Rensselaer Polytechnic Institute, Troy, NY.
143
A Tissue Engineering Track within the Wake Forest/Virginia Tech School of Biomedical Engineering and Sciences (SBES)
M. Van Dyke1, A. Goldstein2, C. Hamilton1, P. Santago1, W. Grant2;
1Wake Forest University School of Medicine, Winston Salem, NC, 2Virginia Tech, Blacksburg, VA.
Protein and Cells at Interfaces SIG (General Session)
144
Activation of FXII in plasma at biomaterial interfaces
K. Chatterjee1, Z. Guo1, E. A. Vogler2, C. A. Siedlecki1;
1Penn State College of Medicine, Hershey, PA, 2Penn State University, University Park, PA.
145
Monocyte-derived macrophage differentiation: Influence of polycarbonate-urethane chemistry on cellular function
D. M. Dinnes1, J. P. Santerre2, R. S. Labow1;
1University of Ottawa Heart Institute, Ottawa, ON, CANADA, 2Institute for Biomaterials and Biomedical Engineering, Faculty of Dentistry, University of Toronto, Toronto, ON, CANADA.
146
Proteomic Analysis and Quantification of Cytokines and Chemokines from Biomaterial Surface-Adherent Macrophages and Foreign Body Giant Cells
J. A. Jones1, D. T. Chang1, E. Colton1, I. K. Kwon2, T. Matsuda3, J. M. Anderson1;
1Case Western Reserve University, Cleveland, OH, 2Purdue University, West Lafayette, IN, 3Kyushu University, Fukuoka, JAPAN.
147
Monocyte adhesion and secretion in response to PEG hydrogels grafted with RGD and PHSRN separated by interpositional spacers of various lengths
D. R. Schmidt, W. J. Kao;
University of Wisconsin - Madison, Madison, WI.
148
Anisotropic Diffusion in Nanopatterned Supported Lipid Bilayers
E. Sun, Y. Gao, J. C. Hone, L. Kam;
Columbia University, New York, NY.
149
Cell Placement on 3D Matrices Using a Modified Ink Jet Printer
A. Chaubey, T. Boland, T. C. Burg, K. J. L. Burg;
Clemson University, Clemson, SC.
Urological Tissue Engineering and Biomaterials (General Session)
150
Development of injectable, biodegradable and thermosensitive hydrogels that become highly flexible at body temperature and can form composites with biomolecules
J. Guan, W. R. Wagner;
Univeristy of Pittsburgh, Pittsburgh, PA.
151
Sphere-templated Scaffolds of Acetone-Treated Fibrinogen for Tissue Engineering
M. P. Linnes;
University of Washington, Seattle, WA.
152
In Vivo Responses to Urological Biomaterials as Utilized for Urological Reconstruction
K. M. Broadrick, A. K. Singla, B. Krishnamurthy, P. J. VandeVord;
Wayne State University, Detroit, MI.
153
Bio-interactive 3D PEG hydrogels for phenotypic modulation of SMCs during bladder tissue remodeling
C. A. M. Adelöw1, T. Segura2, P. Frey1, J. A. Hubbell1;
1Ecole Polytechnique Fédéral de Lausanne, Lausanne, SWITZERLAND, 2UCLA, Los Angeles, CA.
154
Bladder Smooth Muscle Cell Response to Contact Guidance and Mechanical Stretch
R. A. Long, A. Parekh, M. B. Chancellor, M. S. Sacks;
University of Pittsburgh, Pittsburgh, PA.
155
Hydrogel Scaffolds for Bladder Tissue Regeneration
M. Guvendiren1, D. A. Harrington2, E. Y. Cheng2, K. R. Shull1;
1Northwestern University, Evanston, IL, 2Northwestern University, Chicago, IL.
High Throughput Screening Methodologies for Biomaterials (General Session)
156
High Throughput Genomic-Guided Biomaterials Development for Regenerative Medicine Applications
T. Xu, J. Hipp, A. Atala, J. Yoo, M. Van Dyke;
Wake Forest University School of Medicine, Winston Salem, NC.
157
Cytokine and Growth Factor Expression in Cerebrospinal Fluid in Patients with Hydrocephalus
M. Killer1, A. Arthur2, A. Al Schameri1, D. Elbert3, J. Shum4, G. M. Cruise4;
1Christian Doppler Clinic, Salzburg, AUSTRIA, 2Semmes Murphy Neurologic and Spine Clinic, Memphis, TN, 3Washington University in St Louis, St Louis, MO, 4MicroVention, Aliso Viejo, CA.
158
High Throughput Methods for Testing Hemocompatibility
J. N. Cawse, L. Yu, Z. Pang, A. J. Dulgar-Tulloch, A. Beletskii;
GE Global Research, Niskayuna, NY.
159
Novel High-Throughput Polymer Bio-Compatibility Screening Designed For SAR (Structure Activity Relationship): Application For Evaluation Of Biolinx Polymer System For Cardiovascular Drug Eluting Stents
A. Hezi-Yamit, C. Sullivan, J. Wong, M. Chen, C. Wilcox, K. Udipi;
Medtronic Vascular, Santa Rosa, CA.
160
High Throughput In vitro Cytotoxicity Screening of Biomaterial Libraries
B. Narasimhan, L. Petersen, A. Adler, J. Wilson, J. Thorstenson, M. Wannemuehler;
Iowa State University, Ames, IA.
161
Identifying chemical moieties to control hMSC differentiation using a high-throughput methodology
D. S. W. Benoit1, K. S. Anseth2;
1University of Colorado, Boulder, CO, 2University of Colorado, Howard Hughes Medical Institute, Boulder, CO.
Protein Adsorption on Microdevice (General Session)
162
Nano-Patterned Silicon Enhanced Fibronectin Binding and Promotes Organization of Glial Cells
G. E. Tatagiri, H. W. T. Matthew, P. J. VandeVord;
Wayne State University, Detroit, MI.
163
Nonbiofouling Anionic Phospholipid Polymer Modification for Electrokinetic Micorofluidic Device
Y. Xu, M. Takai, K. Ishihara;
The university of Tokyo, Tokyo, JAPAN.
164
Effects of Long Term Implantation on in vivo Chemical Sampling Calibration into Microdialysis Probes
X. Mou1, M. Lennartz2, D. Loegering3, J. A. Stenken1;
1Rensselaer Polytechnic Institute, Troy, NY, 22Center for Cell Biology and Cancer Research, Albany Medical College, Albany, NY, 33Center for Cardiovascular Sciences, Albany Medical College, Albany, NY.
165
Nonbiofouling Patterned Surface for Obtaining High Signal/Noise Ratio in Microarray Biosensors
J. Sibarani, K. Ishihara, M. Takai, T. Konno;
The University of Tokyo, Tokyo, JAPAN.
166
Cooperative Probes for Biological and Biomedical Detection: eliminating false positives
M. R. Caplan1, B. C. Satterfield1, J. A. A. West2;
1Arizona State University, Tempe, AZ, 2Arcxis Biotechnologies, Pleasanton, CA.
167
Surface Microphase Structures of Poly(urethane urea) Biomaterials and Protein Adhesion
L-C. XU, C. A. Siedlecki;
Penn State University College of Medicine, Hershey, PA.