Bioresorbable Polymers
Bioresorbable polymers can transform the healing process by temporarily restoring functionality in targeted areas. After use, they resorb within the body without a trace, minimizing the need for follow up surgical procedures.
Medical Polymers
Poly-Med, Inc. provides fully traceable, implant-grade polymers that offer customized product solutions when an implant does not need to permanently remain in the body. The key trait for our materials is that they degrade within a physiological environment.
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MAX-PRENE®
Glycolide/Lactide copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This polymer family provides the recognized performance of PGLA copolymers tailored for the most demanding applications.
GLYCOPRENE®
Glycolide-based copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This polymer family provides similar performance to PGLA polymers, but with improved strength retention.
LACTOPRENE®
Lactide-based copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. Our Lactoprene® copolymers exhibit lower amounts of acid forming units and increased flexibility, as opposed to typical lactide-based homopolymers.
DIOXAPRENE®
Dioxanone-based polymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This polymer family provides the recognized performance of PDO based polymers. Polydioxanone polymers are utilized for their extended strength retention, coupled with flexibility.
STRATAPRENE®
High flexibility polyester copolymers for various applications, including extruded articles, solvent processing, molded applications, and 3D Printing. This polymer family provides long-lasting, elastic-like performance and enhanced toughness.
CAPROPRENE®
Caprolactone-based polymers and copolymers for various applications ranging from low-molecular weight, waxy copolymers for coating and drug delivery to high molecular weight extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing.
AQUAPRENE®
Hydrophilic, swellable copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This family of copolymers provides a wide range of strength retention and stiffness. In addition, this unique set of polymers provides a hydrophilic component that improves swellability and lubricity.
Engineering Polymers
Our materials offer distinct advantages by their unique properties, based on their composition, architecture, and desired performance.
Max-Prene®
Glycolide/Lactide copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This polymer family provides the recognized performance of PGLA copolymers tailored for the most demanding applications.
Dioxaprene®
Dioxanone-based polymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This polymer family provides the recognized performance of PDO based polymers. Polydioxanone polymers are utilized for their extended strength retention, coupled with flexibility.
A Wide Range of Medical Device Applications
If you have a device in mind that’s absorbable, we can help.
Request a QuoteHigh Performance Polymers
Our high performance polymers offer enhanced flexibility in polymer design and properties, providing enhanced options for virtually any implantable use.
Glycoprene®
Glycolide-based copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This polymer family provides similar performance to PGLA polymers, but with improved strength retention.
Lactoprene®
Lactide-based copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. Our Lactoprene® copolymers exhibit lower amounts of acid forming units and increased flexibility, as opposed to typical lactide-based homopolymers.
Osteoprene®
Lactide-based copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This polymer family provides long-lasting performance and lower amounts of acid forming units, as opposed to typical lactide-based homopolymers.
Aquaprene®
Hydrophilic, swellable copolymers for various applications, including extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing. This family of copolymers provides a wide range of strength retention and stiffness. In addition, this unique set of polymers provides a hydrophilic component that improves swellability and lubricity.
Strataprene®
High flexibility polyester copolymers for various applications, including extruded articles, solvent processing, molded applications, and 3D Printing. This polymer family provides long-lasting, elastic-like performance and enhanced toughness.
Caproprene®
Caprolactone-based polymers and copolymers for various applications ranging from low-molecular weight, waxy copolymers for coating and drug delivery to high molecular weight extruded articles, fiber extrusion, textiles, molded applications, and 3D Printing.
Work with us
We can help you develop a device or drug delivery system from polymer to finished good. Let's get started.
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Latest News
Foaming Technology for Tissue Engineering ScaffoldsJune 29, 2022 - 3:14 pmIntroduction: Tissue Scaffolds: Tissue engineering is a growing field that attempts to provide solutions for the regeneration of tissues that have been damaged due to disease or injury. To achieve this, tissue engineering scaffolds are regularly used to promote repair and regeneration of tissues. Scaffolds provide a three-dimensional (3D) construct and are designed to support […]