Conductive hydrogels: mechanically robust hybrids for use as biomaterials

Macromolecular Bioscience
Rylie A GreenLaura A Poole-Warren

Abstract

A hybrid system for producing conducting polymers within a doping hydrogel mesh is presented. These conductive hydrogels demonstrate comparable electroactivity to conventional conducting polymers without requiring the need for mobile doping ions which are typically used in literature. These hybrids have superior mechanical stability and a modulus significantly closer to neural tissue than materials which are commonly used for medical electrodes. Additionally they are shown to support the attachment and differentiation of neural like cells, with improved interaction when compared to homogeneous hydrogels. The system provides flexibility such that biologic incorporation can be tailored for application.

References

Dec 18, 2001·Biosensors & Bioelectronics·Sean BrahimAnthony Guiseppi-Elie
Oct 30, 2004·Journal of Biomedical Materials Research. Part a·Dong-Hwan KimDavid C Martin
Dec 14, 2005·Biomaterials·William R Stauffer, Xinyan T Cui
Mar 29, 2006·Colloids and Surfaces. B, Biointerfaces·E M E KristensenH Siegbahn
Nov 30, 2006·Brain : a Journal of Neurology·G Foffani, A Priori
Jan 25, 2008·Journal of Materials Science. Materials in Medicine·R A GreenL A Poole-Warren
Jan 31, 2009·Biomaterials·Rachael T RichardsonStephen J O'Leary
Apr 21, 2009·Biomaterials·Rylie A GreenLaura A Poole-Warren
Sep 3, 2010·Journal of Neurophysiology·Daniel K FreemanShelley I Fried
Sep 10, 2010·Journal of the American Chemical Society·Soichiro SekineMatsuhiko Nishizawa
Feb 5, 2011·IEEE Transactions on Neural Systems and Rehabilitation Engineering : a Publication of the IEEE Engineering in Medicine and Biology Society·Subramaniam VenkatramanJose M Carmena
Feb 17, 2006·Advanced Materials·Mohammad Reza AbidianDavid C Martin
Mar 18, 2010·Science and Technology of Advanced Materials·Rylie A GreenPenny J Martens

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Citations

Jan 29, 2016·Acta Biomaterialia·Yibo WuPranav Soman
Aug 22, 2013·Drug Discovery Today·Catalina Vallejo-GiraldoManus J P Biggs
Sep 13, 2013·Journal of Biomedical Materials Research. Part a·Sungchul BaekLaura A Poole-Warren
Mar 13, 2014·IEEE Transactions on Neural Systems and Rehabilitation Engineering : a Publication of the IEEE Engineering in Medicine and Biology Society·Rachelle T HassaratiRylie A Green
Aug 8, 2015·Journal of Biomedical Materials Research. Part B, Applied Biomaterials·Rachelle T HassaratiRylie A Green
May 17, 2014·Biomaterials·Serge OstrovidovAli Khademhosseini
Dec 25, 2013·Acta Biomaterialia·G L Mario CheongRylie A Green
Jun 7, 2014·Frontiers in Neuroengineering·Ulises A Aregueta-RoblesRylie A Green
May 18, 2016·Acta Biomaterialia·Nandita BhagwatDavid C Martin
Oct 1, 2016·Scientific Reports·Cancan XuYi Hong
Oct 21, 2016·Frontiers in Neuroscience·Rachelle T HassaratiRylie A Green
Feb 16, 2017·Advanced Healthcare Materials·Josef GodingRylie Green
Jun 11, 2014·Advanced Healthcare Materials·Masato SasakiMatsuhiko Nishizawa
Jun 21, 2017·Science Advances·Jonathan RivnayGeorge G Malliaras
Jun 2, 2018·Advanced Materials·Sang Min WonJohn A Rogers
May 15, 2018·Journal of Neural Engineering·Robert K ShepherdDavid A X Nayagam
May 18, 2016·Macromolecular Bioscience·Alexander J PattonRylie A Green
Mar 29, 2014·Advanced Materials·Pouria FattahiMohammad Reza Abidian
Oct 12, 2013·Macromolecular Bioscience·Taylor WareWalter Voit
Nov 28, 2012·Advanced Healthcare Materials·Mohammad R AbidianMelanie G Urbanchek
Oct 17, 2018·Journal of Neural Engineering·Aline F RenzJanos Vörös
Jan 19, 2018·Journal of the Royal Society, Interface·Rachel Lev, Dror Seliktar
Oct 1, 2020·Advanced Healthcare Materials·Amy Gelmi, Carolyn E Schutt
Aug 24, 2017·Advanced Materials·Martin AntensteinerMohammad Reza Abidian
Dec 1, 2017·Frontiers in Neuroscience·Alejandro Barriga-RiveraGregg J Suaning
Jan 30, 2018·Frontiers in Neuroscience·Naomi A StaplesRylie A Green
Apr 10, 2019·Polymers·Monika Tomczykowa, Marta Eliza Plonska-Brzezinska
Aug 7, 2016·Journal of Materials Chemistry. B, Materials for Biology and Medicine·Xenofon StrakosasRoisin M Owens
Jul 7, 2015·Journal of Materials Chemistry. B, Materials for Biology and Medicine·J A GodingR A Green
Sep 29, 2015·Advanced Materials·Rylie Green, Mohammad Reza Abidian
Aug 29, 2018·Translational Stroke Research·Aswathi GopalakrishnanG K Rajanikant
Apr 8, 2020·Journal of Materials Chemistry. B, Materials for Biology and Medicine·Josef GodingRylie Green
Jun 2, 2018·Stem Cells International·Adegbenro Omotuyi John FakoyaJoshua Yusuf
Apr 16, 2018·Advanced Healthcare Materials·Metin UzSurya K Mallapragada
Apr 2, 2019·Nature Biomedical Engineering·Yuxin LiuZhenan Bao
Aug 21, 2013·Journal of Materials Chemistry. B, Materials for Biology and Medicine·Sungchul BaekLaura Poole-Warren
Sep 9, 2017·Journal of Neural Engineering·Aziliz LecomteChristian Bergaud

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