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- Category: Blog
- Biomedical Textiles: Poly-Med Research Published in Current Issue of In Vivo Journal
- Bioresorbable polymers changing the med device landscape
- Vertically Integrated Custom Device Development & Manufacturing
- Electrospinning Medical Device: Bioresorbable Electrospun Nonwovens From Concept to Product
- Bioresorbable Polymer Design: Advantages of a “Block Copolymer”
- Bioresorbable Polymer Processing: Keys from the Field
- Bioabsorbable Polymers: Drying Degradable Materials Appropriately
- Category: Uncategorized
- The Key Material Ingredients for Ortho Implants
- Innovative Iteration for Medical Device Design
- A Matter of Fact for Medical Device Materials
- Bioresorbable Polymer Extrusions of Yarns, Fibers, & Films for Implantable Medical Devices
- Absorbable Medical Devices as Implantable Tissue Scaffolds
- Bioresorbable Polymers for Implantable Medical Devices
- Biomedical Textiles as Implantable Medical Devices
- Polydioxanone (PDO) Polymer for Bioresorbable Medical Devices
- Bioresorbable Polymer Foams as Medical Devices
- Next Generation Bioresorbable Materials for 3D Printing Implantable Medical Devices
- 3D Printing for Implantable Medical Devices
- Poly-Med, Inc. Welcomes Governor Henry McMaster
- Analytical Testing for Bioabsorbable Polymer Medical Devices: In-Vitro Degradation Studies
- Bioabsorbable Polymers: Poly-Med Chairs Workshop on the Use of Absorbable Polymers for Medical Devices
- Dr. Shalaby honored with InnoVision Award – The Dr. Charles Townes Individual Achievement Award 2020
- Advanced Absorbable Materials for Combination Medical Devices
- Bioresorbable Polymer Composites as Implantable Medical Devices
- Bioresorbable Polymer Films as Degradable Barriers
- Medical-grade electrospinning for tissue engineering and regenerative medicine: a new tool for biomedical textiles
- Biomedical Textile Spotlight: Braiding Bioresorbables
- Bioabsorbable Polymers: PGLA and PolyDioxanone (PDO) as Workhorse Materials for Device Development
- Bioabsorbable Medical Device Manufacturing: Expectations For Working with Poly-Med, Inc.
- Biomedical Textile Specifications: A Review of FDA Guidance on Surgical Mesh Design
- Electrospinning for Bioabsorbable Medical Devices: Standardization for Fiber-Based Devices
- Biomedical Textile Processing: Heat Setting Impact on Materials Properties
- Design Considerations for Biomedical Textiles: Fiber vs. Yarn
- Poly-Med, Inc. Celebrates 25 Years of Innovation in South Carolina
- Resorbable Ligation Device Elicits Successful Preliminary Results
- Bioabsorbable Medical Device Manufacturing: Poly-Med Approach to Product Development
- Poly-Med Launches Poly-Med 3D
- Did you know Poly-Med, Inc. Provides Analytical Services?
- Electrospinning for Bioresorbable Medical Devices
- Biomedical Textile Constructs: Warp vs. Weft Knitting
- Independent Evaluation of Poly-Med’s Bioresorbable Medical Grade 3D Printing Filaments
- The PMI Perspective: Independent Evaluation of Poly-Med’s Bioresorbable Medical Grade 3D Printing Filaments
- 3D Printing of Medical Devices: Poly-Med’s Perspective on FDA Guidance
- Beyond the Product: The Importance of Packaging Design
- 2018 marks 25th Anniversary at Poly-Med
- Bioresorbable Polymers: How do they Degrade?
- Poly-Med a part of MADE in South Carolina
- Medical Device Daily Article: 3D Printing Perspective at MedTech
- ASTM Standards & Med Device Development
- Poly-Med team travels to The SiMT to tour 3D Printing facilities
- Filling the Gap: Tissue Adhesives & Surgical Sealants
- 3D Printing Bioresorbable Polymers for Medical Devices
- Bioresorbable Medical Devices: State of Art
- Poly-Med Welcomes Industry Leader to team
