Compositions Of Polyion Complex Polypeptide Hydrogels
- Technology Benefits
- Allows adjustment of gel stiffness independently of polymer concentration or crosslink densityForms hydrogels at low concentration in water (<10 wt%)Nontoxic and biodegradableTheir amphiphilic nature allows them to serve as effective carriers for deliver of both hydrophilic and hydrophobic moleculesGreat injectability allows for minimal invasive delivery
- Technology Application
- Thickeners/structuring agents in personal care productsControlled delivery of drugs and cells into tissuesTissue repair and engineering 3D printing of hydrogel networks
- Detailed Technology Description
- Researchers at UCLA have developed synthetic diblock copolypeptide hydrogels (DCHs) that incorporate oppositely charged ionic segments to form β-sheet structured, polyion complex (PIC) hydrogel assemblies when mixed in aqueous media. The observed chain conformation directed assembly was found to enable efficient hydrogel formation, and provided distinct and useful properties to these hydrogels, including self-healing after deformation, microporous architecture, and stability against dilution in aqueous media. The unique feature of using ordered chain conformations in PIC assemblies can be explored to create new supramolecular materials. In addition, while the stiffness of most hydrogels is mainly adjusted either by polymer concentration or crosslink density, DCH stiffness can also be tuned by these parameters, or by altering amino acid composition, hydrophilic to hydrophobic ratio, molecular weight, or block architecture of the copolymers. The ability to control nanoscale and bulk properties by molecular design, combined with DCH injectability and abundant sites for functionalization makes DCH innovative candidates for use as biomaterials.
- Others
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Background
Hydrogels are three-dimensional polymer networks that are capable of absorbing large amounts of water or biological fluids. Hydrogels can be classified in several ways depending on the constituents that form the polymeric network (neutral vs. ionic, natural vs. synthetic), mechanical and structural characteristics (i.e. degree of cross-linking, gel integrity), and method of cross-linking (chemical cross-linking vs. physical cross-linking). Protein and peptide based hydrogels are used for many applications, ranging from personal care products, food and cosmetic thickeners to support matrices for drug delivery and tissue replacement.
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Tech ID/UC Case
29013/2018-142-0
Related Cases
2018-142-0
- *Abstract
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UCLA researchers in the Department of Bioengineering have developed a new class of cell-compatible copolypeptide hydrogels that possess chain conformation directed polyion complex (PIC) supramolecular architectures.
- *Principal Investigator
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Name: Timothy Deming
Department:
Name: Yintao Sun
Department:
- Country/Region
- USA
