Kaplan, David, 1953-
David L. Kaplan ingénieur biomédical américain
Kaplan, David L., 1953-
Kaplan, David
Kaplan, David, 1953-...., spécialiste en génie chimique
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Kaplan, David L.
VIAF ID: 59233267 (Personal)
Permalink: http://viaf.org/viaf/59233267
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David L. Kaplan
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ingénieur biomédical américain
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Kaplan
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David
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1953-....
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Kaplan, David
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100 1 _ ‡a Kaplan, David L.
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Kaplan, David L.
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1953-
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Kaplan, David L.,
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1953-
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100 1 _ ‡a Kaplan, David L., ‡d 1953-
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100 1 _ ‡a Kaplan, David ‡d (1953- ).
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100 1 _ ‡a Kaplan, David ‡d 1953-
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100 1 _
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Kaplan, David
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1953-
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Kaplan, David,
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1953-
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100 1 _ ‡a Kaplan, David, ‡d 1953-
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100 1 _ ‡a Kaplan, David, ‡d 1953-
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100 1 _ ‡a Kaplan, David, ‡d 1953-
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100 1 _ ‡a Kaplan, David, ‡d 1953-
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100 1 _
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Kaplan, David,
‡d
1953-....,
‡c
spécialiste en génie chimique
4xx's: Alternate Name Forms (14)
Works
| Title | Sources |
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| Biodegradable polymers and packaging |
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| Biopolymers from renewable resources |
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| Depolarization alters phenotype, maintains plasticity of predifferentiated mesenchymal stem cells |
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| Effects of chondrogenic and osteogenic regulatory factors on composite constructs grown using human mesenchymal stem cells, silk scaffolds and bioreactors |
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| Engineering custom-designed osteochondral tissue grafts |
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| Enzyme-Catalyzed synthesis of polymers |
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| Enzymes in polymer synthesis : developed from a symposium by the Division of Polymeric Materials: Science and Engineering at the 211th National Meeting of the American Chemical Society, New Orleans, LA, March 24-28, 1996 |
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| Nanoengineered biomaterials for regenerative medicine |
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| Neural Engineering : From Advanced Biomaterials to 3D Fabrication Techniques |
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| Protein-based materials |
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| Silk-based conformal, adhesive, edible food sensors. |
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| Silk-Based Gene Carriers with Cell Membrane Destabilizing Peptides |
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| Silk-based injectable biomaterial as an alternative to cervical cerclage: an in vitro study |
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| Silk-based multilayered angle-ply annulus fibrosus construct to recapitulate form and function of the intervertebral disc |
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| Silk-based resorbable electronic devices for remotely controlled therapy and in vivo infection abatement. |
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| Silk-based stabilization of biomacromolecules |
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| Silk-Based Therapeutics Targeting Pseudomonas aeruginosa |
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| Silk/chitosan biohybrid hydrogels and scaffolds via green technology |
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| Silk coatings on PLGA and alginate microspheres for protein delivery |
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| Silk degumming time controls horseradish peroxidase-catalyzed hydrogel properties |
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| Silk dissolution and regeneration at the nanofibril scale |
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| Silk electrogel coatings for titanium dental implants |
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| Silk-fibrin/hyaluronic acid composite gels for nucleus pulposus tissue regeneration. |
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| Silk fibroin and polyethylene glycol-based biocompatible tissue adhesives |
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| Silk fibroin-based woven endovascular prosthesis with heparin surface modification. |
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| Silk fibroin/chondroitin sulfate/hyaluronic acid ternary scaffolds for dermal tissue reconstruction. |
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| Silk fibroin electrogelation mechanisms |
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| Silk fibroin encapsulated powder reservoirs for sustained release of adenosine |
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| Silk fibroin for skin injury repair: Where do things stand? |
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| Silk fibroin microtubes for blood vessel engineering |
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| Silk fibroin processing and thrombogenic responses |
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| Silk fibroin solution properties related to assembly and structure |
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| Silk film culture system for in vitro analysis and biomaterial design |
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| Silk-Graphene Hybrid Hydrogels with Multiple Cues to Induce Nerve Cell Behavior |
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| Silk-hyaluronan-based composite hydrogels: a novel, securable vehicle for drug delivery |
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| Silk hydrogels for sustained ocular delivery of anti-vascular endothelial growth factor (anti-VEGF) therapeutics. |
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| Silk-Hydroxyapatite Nanoscale Scaffolds with Programmable Growth Factor Delivery for Bone Repair |
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| Silk implants for the healing of critical size bone defects. |
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| Silk-ionomer and silk-tropoelastin hydrogels as charged three-dimensional culture platforms for the regulation of hMSC response |
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| Silk ionomers for encapsulation and differentiation of human MSCs |
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| Silk-Its Mysteries, How It Is Made, and How It Is Used |
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| Silk layering as studied with neutron reflectivity |
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| Silk macromolecules with amino acid-poly |
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| Silk materials--a road to sustainable high technology |
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| Silk matrix for tissue engineered anterior cruciate ligaments |
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| Silk microfiber-reinforced silk hydrogel composites for functional cartilage tissue repair |
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| Silk microgels formed by proteolytic enzyme activity |
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| Silk microspheres for encapsulation and controlled release |
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| Silk nanospheres and microspheres from silk/pva blend films for drug delivery |
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| Silk polymer-based adenosine release: therapeutic potential for epilepsy |
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| Silk polymers : materials science and biotechnology |
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| Silk porous scaffolds with nanofibrous microstructures and tunable properties |
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| Silk protein based hybrid photonic-plasmonic crystal |
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| Silk-regulated hierarchical hollow magnetite/carbon nanocomposite spheroids for lithium-ion battery anodes. |
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| Silk Reservoirs for Local Delivery of Cisplatin for Neuroblastoma Treatment: In Vitro and In Vivo Evaluations |
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| Silk scaffolds with tunable mechanical capability for cell differentiation |
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| Silk self-assembly mechanisms and control from thermodynamics to kinetics |
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| Silk-silica composites from genetically engineered chimeric proteins: materials properties correlate with silica condensation rate and colloidal stability of the proteins in aqueous solution. |
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| Silk Symposium |
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| Silk-tropoelastin protein films for nerve guidance |
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| Single honeybee silk protein mimics properties of multi-protein silk |
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| Slowly degradable porous silk microfabricated scaffolds for vascularized tissue formation |
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| Smart biomaterials - regulating cell behavior through signaling molecules |
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| Smart Material Hydrogel Transfer Devices Fabricated with Stimuli-Responsive Silk-Elastin-Like Proteins |
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| SnapShot: Silk biomaterials |
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| Soft tissue augmentation using silk gels: an in vitro and in vivo study |
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| Sonication-induced gelation of silk fibroin for cell encapsulation |
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| Spatial and spectral detection of protein monolayers with deterministic aperiodic arrays of metal nanoparticles |
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| Spatially controlled delivery of neurotrophic factors in silk fibroin-based nerve conduits for peripheral nerve repair |
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| Spectral analysis of induced color change on periodically nanopatterned silk films |
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| Spider silk-based gene carriers for tumor cell-specific delivery. |
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| Spider silk-bone sialoprotein fusion proteins for bone tissue engineering |
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| Spider Silk-CBD-Cellulose Nanocrystal Composites: Mechanism of Assembly |
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| Spider silks and their applications |
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| Spider webs: Damage control |
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| Spinning Regenerated Silk Fibers with Improved Toughness by Plasticizing with Low Molecular Weight Silk |
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| Stabilization and release of enzymes from silk films |
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| Tissue engineering I scaffold systems for tissue engineering |
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| Tissue engineering II : basics of tissue engineering and tissue applications |
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| Workshop on Silks: Biology, Structure, Properties, Genetics (1993 : Charlottesville, Va.). Silk polymers, 1993: |
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