Docket #: S07-019
Interpenetrating Network Hydrogels and their Photochemical Modification
An interdisciplinary team of Stanford University researchers have developed a novel interpenetrating polymer network hydrogel that is useful for a wide variety of medical, industrial and personal hygiene applications. The material is simultaneously mechanically strong, biocompatible, and highly water-absorbent. In addition, surface modifications can be used to attach biomolecules to the hydrogel.
Applications
- Ophthalmic Implants
Advantages
- Mechanically strong - high tensile and compressive strength
- Low coefficient of friction - high surface lubricity
- Hydrophilic:
- 60 - 90% water content
- high swellability
- High permeability
- Optical transparency
- Biocompatibility
Publications
- Tan XW et al. In vivo biocompatibility of two PEG/PAA interpenetrating polymer networks as corneal inlays following deep stromal pocket implantation. J Mater Sci Mater Med 2013 Apr; 24(4):967-977.
- Myung D, Koh W, Bakri A, Zhang F, Marshall A, Ko J, Noolandi J, Carrasco M, Cochran JR, Frank CW, Ta CN, "Design and fabrication of an artificial cornea based on a photolithographically patterned hydrogel construct." Biomed Microdevices 2007 Jan 20.
Related Links
Patents
- Published Application: 20080269370
- Issued: 8,821,583 (USA)
Similar Technologies
-
Injectable Supramolecular Hydrogels for Bioprinting, Wound Healing, and Drug Delivery S20-136Injectable Supramolecular Hydrogels for Bioprinting, Wound Healing, and Drug Delivery
-
Multi-Functional In Vivo Cardiovascular Imaging Using Near-Infrared II Fluorescence S12-195Multi-Functional In Vivo Cardiovascular Imaging Using Near-Infrared II Fluorescence
-
Neural device implantation for electrical stimulation of neural/biological tissue S18-050Neural device implantation for electrical stimulation of neural/biological tissue