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Literature DB >> 26934682

A Tissue-Penetrating Double Network Restores the Mechanical Properties of Degenerated Articular Cartilage.

Benjamin G Cooper^1,2, Rachel C Stewart^1,2, Deborah Burstein³, Brian D Snyder^1,2,4, Mark W Grinstaff⁵.

Abstract

Incorporation of an interpenetrating polymer network into an existing single polymer network enables augmentation of the original substrate's mechanical properties, and translation of this concept from purely synthetic materials to natural-synthetic hybrid systems provides the opportunity to reinforce mechanical properties of bulk biological substrates. In many disease states, the mechanical properties of bodily tissues deteriorate rendering them prone to further material failure. Herein, a tissue-supplementing technique is described in which an interpenetrating biomimetic hydrogel is polymerized in situ throughout cartilage tissue. The treatment restores the inferior compressive properties of osteoarthritic cartilage to that of healthy cartilage, preferentially localizing to weaker regions of tissue. Furthermore, the treatment technique preserves cartilage under harsh articulation conditions, showing promise as a materials-based treatment for early-stage osteoarthritis.

Entities: Chemical Disease Species

Keywords: biomaterials; cartilage; double networks; mechanical properties; polymers

Mesh：

Substances：
Hydrogels
Polymers

Year: 2016 PMID： 26934682 PMCID： PMC5726259 DOI： 10.1002/anie.201511767

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

44 in total

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Authors: Neel S Joshi; Prashant N Bansal; Rachel C Stewart; Brian D Snyder; Mark W Grinstaff
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Review 10. Osteoarthritis: new insights. Part 1: the disease and its risk factors.

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8 in total

Review 1. Active agents, biomaterials, and technologies to improve biolubrication and strengthen soft tissues.

Authors: Benjamin G Cooper; Ara Nazarian; Brian D Snyder; Mark W Grinstaff
Journal: Biomaterials Date: 2018-07-26 Impact factor: 12.479

2. Reinforcement of articular cartilage with a tissue-interpenetrating polymer network reduces friction and modulates interstitial fluid load support.

Authors: B G Cooper; T B Lawson; B D Snyder; M W Grinstaff
Journal: Osteoarthritis Cartilage Date: 2017-03-09 Impact factor: 6.576

3. Mechanical confinement via a PEG/Collagen interpenetrating network inhibits behavior characteristic of malignant cells in the triple negative breast cancer cell line MDA.MB.231.

Authors: Daniel S Reynolds; Kristen M Bougher; Justin H Letendre; Stephen F Fitzgerald; Undina O Gisladottir; Mark W Grinstaff; Muhammad H Zaman
Journal: Acta Biomater Date: 2018-07-18 Impact factor: 8.947

Review 4. Enhancing Biopolymer Hydrogel Functionality through Interpenetrating Networks.

Authors: Abhishek P Dhand; Jonathan H Galarraga; Jason A Burdick
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Authors: Martin Philipp Dieterle; Ayman Husari; Bernd Rolauffs; Thorsten Steinberg; Pascal Tomakidi
Journal: Expert Rev Mol Med Date: 2021-10-27 Impact factor: 5.600