Hydrogels in Biology and Medicine: From Molecular Principles to Bionanotechnology

Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived “intelligence”. They can be used as thin films, scaffolds, or nanoparticles in a wide range of biomedical and biological applications. Here we highlight recent developments in engineering uncrosslin...

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Published in:	Advanced materials (Weinheim) Vol. 18; no. 11; pp. 1345 - 1360
Main Authors:	Peppas, N. A., Hilt, J. Z., Khademhosseini, A., Langer, R.
Format:	Journal Article
Language:	English
Published:	Weinheim WILEY-VCH Verlag 06-06-2006 WILEY‐VCH Verlag
Subjects:	Biomedical materials Biosensors Cells Drug delivery Hydrogels Microfluidic systems Polymeric materials Tissue engineering
Online Access:	Get full text
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Abstract	Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived “intelligence”. They can be used as thin films, scaffolds, or nanoparticles in a wide range of biomedical and biological applications. Here we highlight recent developments in engineering uncrosslinked and crosslinked hydrophilic polymers for these applications. Natural, biohybrid, and synthetic hydrophilic polymers and hydrogels are analyzed and their thermodynamic responses are discussed. In addition, examples of the use of hydrogels for various therapeutic applications are given. We show how such systems' intelligent behavior can be used in sensors, microarrays, and imaging. Finally, we outline challenges for the future in integrating hydrogels into biomedical applications. The science and theory of hydrogels as well as their biomedical applications are reviewed. Their thermodynamic properties, theory, and types of hydrogels are discussed, and examples of their use for therapeutic and diagnostics applications are given. Future directions and challenges in the synthesis and use of hydrogels are also outlined. The figure shows the formation of a fluorescent hydrogel gradient using a microfluidic system (inlet channels diameter: 80 μm).
AbstractList	Abstract Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived “intelligence”. They can be used as thin films, scaffolds, or nanoparticles in a wide range of biomedical and biological applications. Here we highlight recent developments in engineering uncrosslinked and crosslinked hydrophilic polymers for these applications. Natural, biohybrid, and synthetic hydrophilic polymers and hydrogels are analyzed and their thermodynamic responses are discussed. In addition, examples of the use of hydrogels for various therapeutic applications are given. We show how such systems' intelligent behavior can be used in sensors, microarrays, and imaging. Finally, we outline challenges for the future in integrating hydrogels into biomedical applications. Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived intelligence. They can be used as thin films, scaffolds, or nanoparticles in a wide range of biomedical and biological applications. Here we highlight recent developments in engineering uncrosslinked and crosslinked hydrophilic polymers for these applications. Natural, biohybrid, and synthetic hydrophilic polymers and hydrogels are analyzed and their thermodynamic responses are discussed. In addition, examples of the use of hydrogels for various therapeutic applications are given. We show how such systems' intelligent behavior can be used in sensors, microarrays, and imaging. Finally, we outline challenges for the future in integrating hydrogels into biomedical applications. Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived “intelligence”. They can be used as thin films, scaffolds, or nanoparticles in a wide range of biomedical and biological applications. Here we highlight recent developments in engineering uncrosslinked and crosslinked hydrophilic polymers for these applications. Natural, biohybrid, and synthetic hydrophilic polymers and hydrogels are analyzed and their thermodynamic responses are discussed. In addition, examples of the use of hydrogels for various therapeutic applications are given. We show how such systems' intelligent behavior can be used in sensors, microarrays, and imaging. Finally, we outline challenges for the future in integrating hydrogels into biomedical applications. The science and theory of hydrogels as well as their biomedical applications are reviewed. Their thermodynamic properties, theory, and types of hydrogels are discussed, and examples of their use for therapeutic and diagnostics applications are given. Future directions and challenges in the synthesis and use of hydrogels are also outlined. The figure shows the formation of a fluorescent hydrogel gradient using a microfluidic system (inlet channels diameter: 80 μm).
Author	Langer, R. Peppas, N. A. Hilt, J. Z. Khademhosseini, A.
Author_xml	– sequence: 1 givenname: N. A. surname: Peppas fullname: Peppas, N. A. email: peppas@che.utexas.edu organization: Biomaterials, Drug Delivery, Bionanotechnology and Molecular Recognition Laboratories, Departments of Chemical Engineering, Biomedical Engineering, and Pharmaceutics, The University of Texas, Austin, TX 78712-0231, USA – sequence: 2 givenname: J. Z. surname: Hilt fullname: Hilt, J. Z. organization: Department of Chemical and Materials Engineering, University of Kentucky, Lexington, KY 40506-0046, USA – sequence: 3 givenname: A. surname: Khademhosseini fullname: Khademhosseini, A. organization: Harvard-Massachusetts Institute of Technology, Division of Health Science and Technology, Massachusetts Institute of Technology, Cambridge, MA 02139, USA – sequence: 4 givenname: R. surname: Langer fullname: Langer, R. email: rlanger@mit.edu organization: Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139, USA
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Notes	ArticleID:ADMA200501612 Work described in this review was supported in part by the NIH grants HL60435 (for RL) EB000246 and GM56321 (for NAP), the Draper laboratory, the Institute of Soldier Nanotechnology (DAAD-19-02D-002), NSF (DGE-03-33080, BES-97-06538 and CTS-03-29317), as well as the Fletcher S. Pratt Foundation. ark:/67375/WNG-WLXWM9HK-P istex:79974F1B57ACEF7EFEC5045A5E10141543FC35D0 Work described in this review was supported in part by the NIH grants HL60435 (for RL) EB000246 and GM56321 (for NAP), the Draper laboratory, the Institute of Soldier Nanotechnology (DAAD‐19‐02D‐002), NSF (DGE‐03‐33080, BES‐97‐06538 and CTS‐03‐29317), as well as the Fletcher S. Pratt Foundation. ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23
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By 1993; 26 2002; 17 1998; 281 2004; 20 2002; 18 2002; 19 2004; 29 1991; 12 2005; 331 2004; 25 2002; 13 2004; 4 2004; 3 1997; 2 1999; 40 1997; 6 2003; 55 1997; 8 1998; 19 2000; 16 2002; 83 1995; 25 2000; 404 1999; 57 2003; 49 2002; 91 1996; 68 2001; 57 2001; 58 1998; 14 1996; 17 2002; 74 2002; 373 2000; 67 2000; 65 2002; 78 2000; 72 1996; 93 1999; 22 2002; 3 2002; 4 2002; 81 1999; 20 2002; 82 2002; 80 2001; 22 2004; 50 2002; 63 2000; 104 1991; 63 2004; 56 1997; 34 1999; 35 2003; 24 2005; 4 1999; 32 2005; 6 1977; 11 1998; 70 2005; 17 2003; 21 1998; 9 2001; 101 2002; 59 1984; 20 1997; 351 2000; 9 2002; 54 2000; 41 2004; 68 2000; 50 2000; 51 1999; 88 2003; 15 2000; 1 2003; 19 1994; 28 1996; 37 1998; 42 1980; 210 2005; 22 1993; 4 2004; 76 1982; 28 2003; 91 2004; 71 1999; 15 1997; 13 2003; 9 2001; 19 2003; 4 1997; 16 1999; 10 2003; 5 2001; 17 2003; 125 1998; 53 2004; 86 2000; 28 1995; 16 2000; 21 1993; 260 1988; 240 1999; 8 2003; 75 2002; 27 1994; 9 1998; 37 1998; 39 2004; 19 2004; 16 2002; 23 1993; 11 2000; 33 1993; 10 2000; 192‐1 1996; 271 2005; 54 2001; 3 1999; 397 2003; 64 1996; 42 1998; 36 e_1_2_1_119_2 e_1_2_1_111_2 e_1_2_1_134_2 e_1_2_1_157_2 Merrill E. 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Snippet	Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived “intelligence”. They can be used as thin films,... Abstract Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived “intelligence”. They can be used as thin films,... Hydrophilic polymers are the center of research emphasis in nanotechnology because of their perceived intelligence. They can be used as thin films, scaffolds,...
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SubjectTerms	Biomedical materials Biosensors Cells Drug delivery Hydrogels Microfluidic systems Polymeric materials Tissue engineering
Title	Hydrogels in Biology and Medicine: From Molecular Principles to Bionanotechnology
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