NANOFIBERS AND THEIR USE IN ENHANCING PARTICLE-BASED HYDROGEL SCAFFOLDS FOR REGENERATIVE MEDICINE AND TISSUE ENGINEERING

Organization Name

University of Virginia Patent Foundation

Inventor(s)

Christopher Bruce Highley of Crozet VA (US)

Jack Whitewolf of Charlottesville VA (US)

M. Gregory Grewal of Charlottesville VA (US)

NANOFIBERS AND THEIR USE IN ENHANCING PARTICLE-BASED HYDROGEL SCAFFOLDS FOR REGENERATIVE MEDICINE AND TISSUE ENGINEERING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240352410 titled 'NANOFIBERS AND THEIR USE IN ENHANCING PARTICLE-BASED HYDROGEL SCAFFOLDS FOR REGENERATIVE MEDICINE AND TISSUE ENGINEERING

Simplified Explanation

The patent application describes stable hydrogel systems with polymeric fibers and their method of preparation. These hydrogel systems offer improved stability without the need for covalent crosslinking between the fibers, making them suitable for various applications such as 3D printing, tissue engineering, regenerative medicine, drug delivery, and implantation.

• Hydrogel systems with polymeric fibers
• Improved stability without covalent crosslinking
• Suitable for 3D printing, tissue engineering, regenerative medicine, drug delivery, and implantation

Key Features and Innovation

- Stable hydrogel systems with polymeric fibers - Improved stability without covalent crosslinking - Versatile applications in various fields

Potential Applications

The technology can be applied in: - 3D printing - Tissue engineering - Regenerative medicine - Drug delivery - Implantation

Problems Solved

- Enhanced stability without the need for covalent crosslinking - Versatile applications in different fields

Benefits

- Improved stability of hydrogel systems - Diverse applications in various industries

Commercial Applications

Title: Innovative Hydrogel Systems with Polymeric Fibers for Enhanced Stability This technology can be utilized in: - Biomedical engineering - Pharmaceutical industry - Research and development sectors

Prior Art

Readers can explore prior research on hydrogel systems, polymeric fibers, and their applications in the fields mentioned in the patent application.

Frequently Updated Research

Researchers are continuously exploring new methods and applications for stable hydrogel systems with polymeric fibers, leading to advancements in various industries.

Questions about Hydrogel Systems with Polymeric Fibers

What are the potential challenges in scaling up the production of these hydrogel systems?

Scaling up production may require optimization of manufacturing processes and quality control measures to ensure consistency and reliability.

How do these hydrogel systems compare to traditional crosslinked hydrogels in terms of mechanical properties and stability?

These hydrogel systems offer improved stability without the need for covalent crosslinking, potentially providing better mechanical properties in certain applications.

Original Abstract Submitted

provided are stable hydrogels systems with polymeric fibers and method of preparation thereof. advantageously, the present hydrogel systems can have improved stability without the need of covalent crosslinking between the fibers. due to their unique mechanical properties and stability, the present hydrogel systems may be useful for a wide variety of applications, including 3d printing, tissue engineering, regenerative medicine, drug delivery, and implantation.