Development and testing of new biologically-based polymers as advanced biocompatible contact lenses | |
Bertozzi, Carolyn R. | |
Lawrence Berkeley National Laboratory | |
关键词: Biomolecular Hydrogels Biocompatible Contact Lens Materials; Biological Materials; Polymers; Carbohydrates; 59 Basic Biological Sciences; | |
DOI : 10.2172/775141 RP-ID : LBNL--46168 RP-ID : AC03-76SF00098 RP-ID : 775141 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
Nature has evolved complex and elegant materials well suited to fulfill a myriad of functions. Lubricants, structural scaffolds and protective sheaths can all be found in nature, and these provide a rich source of inspiration for the rational design of materials for biomedical applications. Many biological materials are based in some fashion on hydrogels, the crosslinked polymers that absorb and hold water. Biological hydrogels contribute to processes as diverse as mineral nucleation during bone growth and protection and hydration of the cell surface. The carbohydrate layer that coats all living cells, often referred to as the glycocalyx, has hydrogel-like properties that keep cell surfaces well hydrated, segregated from neighboring cells, and resistant to non-specific protein deposition. With the molecular details of cell surface carbohydrates now in hand, adaptation of these structural motifs to synthetic materials is an appealing strategy for improving biocompatibility. The goal of this collaborative project between Prof. Bertozzi's research group, the Center for Advanced Materials at Lawrence Berkeley National Laboratory and Sunsoft Corporation was the design, synthesis and characterization of novel hydrogel polymers for improved soft contact lens materials. Our efforts were motivated by the urgent need for improved materials that allow extended wear, and essential feature for those whose occupation requires the use of contact lenses rather than traditional spectacles. Our strategy was to transplant the chemical features of cell surface molecules into contact lens materials so that they more closely resemble the tissue in which they reside. Specifically, we integrated carbohydrate molecules similar to those found on cell surfaces, and sulfoxide materials inspired by the properties of the carbohydrates, into hydrogels composed of biocompatible and manufacturable substrates. The new materials were characterized with respect to surface and bulk hydrophilicity, and n on-specific protein adsorption, properties which are thought to correlate with comfort in the eye. The outcome of these studies was the discovery of a new material that is superior to present commercial materials. Contact lenses composed of a sulfoxide acrylate and 2-(hydroxyethyl)methacrylate are presently undergoing clinical evaluation at Sunsoft and, if successful, these novel lenses should be commercially available within the next two years.
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