Advances in Biomaterials for Regenerative Medicine Word - Advances in Biomaterials for Regenerative...
3
Course Program Advances in Biomaterials for Regenerative Medicine and Drugs Delivery Monday 12, March Hemodialysis Re-Envisioned: New Biomaterials will contribute to improved therapies Novel methods to make fibroin gels and sponges Fibrous Proteins for Tissue Engineering Functional Nanofibrous Scaffolds Combined with Stem Cells for Advanced Biomedical Devices and Therapies New Approaches, combining natural materials and stem cells, for the Engineering of Different Types of Tissues A zinc-doped endodontic cement facilitated mechanical stress dissipation and new mineral precipitations on dentine. Polymeric nanoparticles reduce bacterial viability and facilitate in vitro oral biofilm detachment Elastin-like Recombinamers as Advanced Biomaterials ELRs as advanced systems in Regenerative Medicine and Cell Therapy 3d scaffolds cellularised with human vascular cells for complexe culture and maturation in bioreactors: applications in regenerative medicine and beyond
Transcript of Advances in Biomaterials for Regenerative Medicine Word - Advances in Biomaterials for Regenerative...
Course Program Advances in Biomaterials for Regenerative Medicine and Drugs Delivery Monday 12, March
Hemodialysis Re-Envisioned: New Biomaterials will contribute to improved therapies
Novel methods to make fibroin gels and sponges
Fibrous Proteins for Tissue Engineering
Functional Nanofibrous Scaffolds Combined with Stem Cells for Advanced Biomedical Devices and Therapies
New Approaches, combining natural materials and stem cells, for the Engineering of Different Types of Tissues
A zinc-doped endodontic cement facilitated mechanical stress dissipation and new mineral precipitations on dentine.
Polymeric nanoparticles reduce bacterial viability and facilitate in vitro oral biofilm detachment Elastin-like Recombinamers as Advanced Biomaterials
ELRs as advanced systems in Regenerative Medicine and Cell Therapy
3d scaffolds cellularised with human vascular cells for complexe culture and maturation in bioreactors: applications in regenerative medicine and beyond
Tuesday 13, March
The Early History of Smart Polymers
Chitosan based self-assembled nanoparticles in drug delivery
Orbital Floor Implants Prepared by Stereolithography using a PTMC and Nanoapatite Composite Resin
Designing Polymeric Biomaterials to Instruct Cells by Physical
Cues
Wastes as feed-stocks for bio-based polymer production
In vitro-models for regenerative medicine based on selforganizing systems
Soft spherical polymeric devices for the incorporation of cells and
therapeutic molecules Cornea Regeneration by Regenerative Medicine
Designed Multifunctional 3D printed Biomedical Structures 3D printing of silk fibroin for tissue engineering
Wednesday 14, March
A new approach for electrochemical assessment of metallic biomaterials
Gene Therapy Approaches to Bone Regeneration
Biomimetic and Bioactive self-assembled nanoparticles for drug delivery and Regenerative Medicine
Optoregulated Cellular Microenvironments. Patients’ comorbidities effect bone healing and counteracting them may be used for bone engineering
The quest of selectivity in Nanomedicine design
