Search Results - "VACANTI, J. P"

Three-Dimensional Microfluidic Tissue-Engineering Scaffolds Using a Flexible Biodegradable Polymer by Bettinger, C. J., Weinberg, E. J., Kulig, K. M., Vacanti, J. P., Wang, Y., Borenstein, J. T., Langer, R.

“…Three‐dimensional microfluidic networks using a flexible biodegradable polymer have been fabricated using modified microfabrication processes tailored…”
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A biodegradable nanofiber scaffold by electrospinning and its potential for bone tissue engineering by Yoshimoto, H., Shin, Y.M., Terai, H., Vacanti, J.P.

“…Microporous, non-woven poly( ε-caprolactone) (PCL) scaffolds were made by electrostatic fiber spinning. In this process, polymer fibers with diameters down to…”
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Bioengineered Teeth from Cultured Rat Tooth Bud Cells by Duailibi, M.T., Duailibi, S.E., Young, C.S., Bartlett, J.D., Vacanti, J.P., Yelick, P.C.

“…The recent bioengineering of complex tooth structures from pig tooth bud tissues suggests the potential for the regeneration of mammalian dental tissues. We…”
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Contractile cardiac grafts using a novel nanofibrous mesh by Shin, M., Ishii, O., Sueda, T., Vacanti, J.P.

“…Cardiomyoctes are terminally differentiated cells and therefore unable to regenerate after infarction. The use of autologous bioengineered cardiac grafts has…”
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Tissue Engineering of Complex Tooth Structures on Biodegradable Polymer Scaffolds by Young, C.S., Terada, S., Vacanti, J.P., Honda, M., Bartlett, J.D., Yelick, P.C.

“…Tooth loss due to periodontal disease, dental caries, trauma, or a variety of genetic disorders continues to affect most adults adversely at some time in their…”
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Bioengineered Dental Tissues Grown in the Rat Jaw by Duailibi, S.E., Duailibi, M.T., Zhang, W., Asrican, R., Vacanti, J.P., Yelick, P.C.

“…Our long-term objective is to develop methods to form, in the jaw, bioengineered replacement teeth that exhibit physical properties and functions similar to…”
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Functional living trileaflet heart valves grown in vitro by HOERSTRUP, Simon P, SODIAN, Ralf, VACANTI, Joseph P, SCHOEN, Frederick J, MAYER, John E, DAEBRITZ, Sabine, JUN WANG, BACHA, Emile A, MARTIN, David P, MORAN, Adrian M, GULESERIAN, Kristine J, SPERLING, Jason S, KAUSHAL, Sunjay

“…Previous tissue engineering approaches to create heart valves have been limited by the structural immaturity and mechanical properties of the valve constructs…”
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Differentiation of human bone marrow mesenchymal stem cells on decellularized extracellular matrix materials by Hoganson, D. M., Meppelink, A. M., Hinkel, C. J., Goldman, S. M., Liu, X.-H., Nunley, R. M., Gaut, J. P., Vacanti, J. P.

“…Mesenchymal bone marrow stromal cells may be a source of cells to preseed decellularized biologic mesh materials for improved cellularization and promote a…”
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TISSUE ENGINEERING: Current State and Prospects by Stock, Ulrich A, Vacanti, Joseph P

“…Organ shortage and suboptimal prosthetic or biological materials for repair or replacement of diseased or destroyed human organs and tissues are the main…”
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Biodegradable Microfluidics by King, K. R., Wang, C. C. J., Kaazempur-Mofrad, M. R., Vacanti, J. P., Borenstein, J. T.

“…A biodegradable microfabrication platform for constructing 3D high‐ resolution devices for tissue engineering and drug delivery is presented. Biodegradable…”
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In vitro and in vivo degradation of porous poly( dl-lactic- co-glycolic acid) foams by Lu, Lichun, Peter, Susan J, D. Lyman, Michelle, Lai, Hui-Lin, Leite, Susan M, Tamada, Janet A, Uyama, Shiro, Vacanti, Joseph P, Robert Langer, Mikos, Antonios G

“…This study investigated the in vitro degradation of porous poly( dl-lactic- co-glycolic acid) (PLGA) foams during a 20-week period in pH 7.4 phosphate-buffered…”
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Microfabrication Technology for Vascularized Tissue Engineering by Borenstein, Jeffrey T, Terai, H, King, Kevin R, Weinberg, E J, Kaazempur-Mofrad, M R, Vacanti, J P

“…This work describes the application of advanced microfabrication technologies including silicon micromachining and polymer replica molding towards the field of…”
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Tissue engineering and the road to whole organs by Vacanti, J. P.

“…A glimpse into the future of surgery…”
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Survival and function of hepatocytes on a novel three-dimensional synthetic biodegradable polymer scaffold with an intrinsic network of channels by KIM, S. S, UTSUNOMIYA, H, KOSKI, J. A, WU, B. M, CIMA, M. J, SOHN, J, MUKAI, K, GRIFFITH, L. G, VACANTI, J. P

“…To evaluate the survival and function of hepatocytes (HCs) on a novel three-dimensional (3D) synthetic biodegradable polymer scaffold with an intrinsic network…”
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Synthetic polymers seeded with chondrocytes provide a template for new cartilage formation by Vacanti, C A, Langer, R, Schloo, B, Vacanti, J P

“…A new approach for tissue creation using synthetic biocompatible and biodegradable polymers as templates onto which cells are seeded is presented. This report…”
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Tissue engineering by cell transplantation using degradable polymer substrates by Cima, L G, Vacanti, J P, Vacanti, C, Ingber, D, Mooney, D, Langer, R

“…This paper reviews our research in developing novel matrices for cell transplantation using bioresorbable polymers. We focus on applications to liver and…”
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Creation Of Viable Pulmonary Artery Autografts Through Tissue Engineering by Shinoka, Toshiharu, Shum-Tim, Dominique, Ma, Peter X., Tanel, Ronn E., Isogai, Noritaka, Langer, Robert, Vacanti, Joseph P., Mayer, John E.

“…Background: “Repair” of many congenital cardiac defects requires the use of conduits to establish right ventricle to pulmonary artery continuity. At present,…”
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Stabilized polyglycolic acid fibre-based tubes for tissue engineering by Mooney, D.J., Mazzoni, C.L., Breuer, C., McNamara, K., Hern, D., Vacanti, J.P., Langer, R.

“…Polyglycolic acid (PGA) fibre meshes are attractive candidates to transplant cells, but they are incapable of resisting significant compressional forces. To…”
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Outcome of subcutaneous islet transplantation improved by polymer device by JUANG, J.-H, BONNER-WEIR, S, OGAWA, Y, VACANTI, J. P, WEIR, G. C

“…Syngeneic transplantation of rat islets into subcutaneous tissue failed to cure streptozocin diabetes. The reason is unknown, but poor vascularization may play…”
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Tissue engineering of heart valves: in vitro experiences by Sodian, Ralf, Hoerstrup, Simon P, Sperling, Jason S, Daebritz, Sabine H, Martin, David P, Schoen, Frederick J, Vacanti, Joseph P, Mayer, John E

“…Background. Tissue engineering is a new approach, whereby techniques are being developed to transplant autologous cells onto biodegradable scaffolds to…”
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