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Meeting MS&T23: Materials Science & Technology
Symposium 3D Printing of Biomaterials and Devices
Sponsorship ACerS Bioceramics Division
Organizer(s) Sahar Vahabzadeh, Northern Illinois University
Susmita Bose, Washington State University
Amit Bandyopadhyay, Washington State University
Scope 3D Printing (3DP) or additive manufacturing (AM) provides unique opportunities to process biomaterials and devices that are not achievable by conventional manufacturing technologies. As a result, 3DP/AM is transforming the technology platform, impacting various disciplines, including biomaterials and biomedical devices. In addition, 3DP or AM adds another dimension to this field of research addressing the clinical need for patient-specific devices. This symposium will cover both oral and poster presentations to understand processing-structure-property-application relationships involving 3DP / AM of biomaterials under in vitro, in vivo, and in silico environments.

Suggested topical areas include, but are not limited to

Biomaterials for tissue engineering

3DP of ceramic and metallic biomaterials

3DP of polymers and hydrogels

3DP in bone and dental tissue engineering

3DP in soft tissue engineering

3DP of materials for drug delivery

3DP of nano biomaterials

Surface modification of biomaterials and biomedical devices via 3D Printing

Bioprinting and biplotting

3DP of microelectronics for biomedical applications

Mechanical properties of 3D printed biomaterials

Modeling and simulation of 3D printed biomaterials and devices

Patient-specific devices

Abstracts Due 05/08/2023
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

3D Biofabrication Strategies for Highly-aligned Fibrous Soft Tissues
3D Printed Biodegradable Polyester Scaffolds that Address Wound Biofilms and Bacterial Colonization
3D Printing of Design-specific PEEK-based Standalone Bioactive Implants
An Additive Manufacturing-oriented Design Approach: Hip Joint Case Study
Bone Tissue Engineering under Fluid Flow Conditions for Development of Invitro Testbeds of Cancer Metastasis
C-1: 3D Bioprinting for Ophthalmic Applications
C-2: Core/shell PCL/PLGA for Controlled Release of Antibiotic and Tissue Engineering
C-4: Measurement of Volumetric Tribo-corrosion of Zirconia-toughened Alumina (ZTA)-Ti6Al4V-Hydroxyapatite (HA) Composite Femoral Heads Articulating Against Ultra-high Molecular Weight Polyethylene (UHMWPE)
C-5: Release of Natural Medicines from 3D Printed CaP for Bone Tissue Engineering Applications
C-6: Synergistic Effects of Carvacrol and Curcumin Nanoparticle on 3D Printed Scaffold for Bone Tissue Engineering
Effect of Release of Garlic Extract from CaP Bone Grafts for Bone Tissue Engineering Applications
Engineered Living Material with pH-responsive Shape-morphing Capability Fabricated by 3D Printing
Engineering Porosity for the Stiffness-Matching of Nickel-Titanium Mandibular Graft Fixation Plates
Impact of Fluid Flow on Bone Metastasis of Prostate Cancer: Invitro Testbeds of Bone Metastasis
In Vivo and In Vitro Bio-corrosion of Zirconia-toughened Alumina (ZTA)-Ti6Al4V-Hydroxyapatite (HA) Load-bearing Articulation Implant Surfaces
Multi-axis Melt Electrowriting Fabrication of Membranes with Curving Surfaces Using Novel Biomaterials
Multifunctional Peptide Design for Functional Biomaterials
Polymer Additive Manufacturing for Micro Medical Device Applications
Silica-Doped 3D Printed Scaffold Loaded with Carvacrol Nanoparticles for Bone Tissue Engineering
Three-Dimensional Printing of Low Viscosity Bioinks Utilizing a Gelatin Printing Support Bath
Utilizing Chaotic Advection to Bioprint Hydrogel Sheets with User-Defined, High-Resolution Internal Cell Layers


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