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Soft Materials Volume 11, 2013 - Issue 3
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Original Articles

Temperature-Responsive Graft Copolymer Hydrogels for Controlled Swelling and Drug Delivery

Derek J. Overstreet School of Biological and Health Systems Engineering, Arizona State University, Tempe, Arizona, USA
,
Ryan Y. McLemore School of Biological and Health Systems Engineering, Arizona State University, Tempe, Arizona, USA; Banner Good Samaritan Medical Center, Phoenix, Arizona, USA
,
Brandon D. Doan School of Biological and Health Systems Engineering, Arizona State University, Tempe, Arizona, USA
,
Amye Farag School of Biological and Health Systems Engineering, Arizona State University, Tempe, Arizona, USA
&
Brent L. Vernon School of Biological and Health Systems Engineering, Arizona State University, Tempe, Arizona, USACorrespondence[email protected]
Pages 294-304 | Received 03 Oct 2011, Accepted 09 Nov 2011, Published online: 22 Feb 2013

Citations (27)

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Maria Andrei, Gabriel Turturica, Paul O. Stanescu & Mircea Teodorescu. (2016) Thermosensitive injectable hydrogels from poly(N-isopropylacrylamide)–dextran aqueous solutions: Thermogelation and drug release properties. Soft Materials 14:3, pages 162-169.
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Mircea Teodorescu, Maria Andrei, Gabriel Turturicǎ, Paul O. Stǎnescu, Anamaria Zaharia & Andrei Sârbu. (2015) Novel Thermoreversible Injectable Hydrogel Formulations Based on Sodium Alginate and Poly(N-Isopropylacrylamide). International Journal of Polymeric Materials and Polymeric Biomaterials 64:15, pages 763-771.
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Articles from other publishers (25)

Yohannis Wondwosen Ahmed, Hsieh-Chih Tsai, Tsung-Yun Wu, Haile Fentahun Darge & Yu-Shuan Chen. (2023) Role of thermal and reactive oxygen species-responsive synthetic hydrogels in localized cancer treatment (bibliometric analysis and review). Materials Advances 4:23, pages 6118-6151.
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Mahdiyar Shahbazi, Henry Jäger, Rammile Ettelaie, Adeleh Mohammadi & Peyman Asghartabar Kashi. (2023) Multimaterial 3D printing of self-assembling smart thermo-responsive polymers into 4D printed objects: A review. Additive Manufacturing 71, pages 103598.
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Aniqa Junaid, Murtaza Najabat Ali, Mariam Mir & Sadia Hassan. (2022) A study on the thermal responsive behavior of hydrogel-based materials and their potential use in medical applications. Sensor Review 42:6, pages 657-668.
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Derek J. Overstreet, Elizabeth J. Lee, Amrita Pal & Brent L. Vernon. (2022) In situ crosslinking temperature‐responsive hydrogels with improved delivery, swelling, and elasticity for endovascular embolization . Journal of Biomedical Materials Research Part B: Applied Biomaterials 110:8, pages 1911-1921.
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John M. Heffernan, James B. McNamara, Brent L. Vernon, Shwetal Mehta & Rachael W. Sirianni. (2022) PNJ scaffolds promote microenvironmental regulation of glioblastoma stem-like cell enrichment and radioresistance. Biomaterials Science 10:3, pages 819-833.
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Mahsa Shirazi, Raana Aali Mohammadi, Roxana Moaaref, Fatemeh Kardani, Seifollah Jamalpour, Yusef Tamsilian & Alireza Kiasat. 2022. Medical Textiles from Natural Resources. Medical Textiles from Natural Resources 411 456 .
John M. Heffernan, Derek J. Overstreet, Brent L. Vernon, Ryan Y. McLemore, Tamas Nagy, Rex C. Moore, Vajra S. Badha, Erin P. Childers, Michael B. Nguyen, Daniel D. Gentry, Francis M. Calara, W. Brian Saunders, Tim Feltis & Alex C. McLaren. (2021) In vivo evaluation of temperature‐responsive antimicrobial‐loaded PNIPAAm hydrogels for prevention of surgical site infection . Journal of Biomedical Materials Research Part B: Applied Biomaterials 110:1, pages 103-114.
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Anatoliy Parfentievich Maletskyy, Yuriy Markovich Samchenko & Natalia Mikhailivna Bigun. 2021. Advances in Precision Medicine Oncology. Advances in Precision Medicine Oncology.
Shery Jacob, Anroop B. Nair, Jigar Shah, Nagaraja Sreeharsha, Sumeet Gupta & Pottathil Shinu. (2021) Emerging Role of Hydrogels in Drug Delivery Systems, Tissue Engineering and Wound Management. Pharmaceutics 13:3, pages 357.
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Amrita Pal, Cameron I. Smith, Joanna Palade, Supriya Nagaraju, Byron A. Alarcon-Benedetto, Jacquelyn Kilbourne, Alan Rawls, Jeanne Wilson-Rawls, Brent L. Vernon & Mehdi Nikkhah. (2020) Poly(N-isopropylacrylamide)-based dual-crosslinking biohybrid injectable hydrogels for vascularization. Acta Biomaterialia 107, pages 138-151.
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Derek J. Overstreet, Vajra S. Badha, John M. Heffernan, Erin P. Childers, Rex C. Moore, Brent L. Vernon & Alex C. McLaren. (2019) Temperature-responsive PNDJ hydrogels provide high and sustained antimicrobial concentrations in surgical sites. Drug Delivery and Translational Research 9:4, pages 802-815.
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Lilith M. Caballero Aguilar, Robert M. Kapsa, Cathal D. O'Connell, Sally L. McArthur, Paul R. Stoddart & Simon E. Moulton. (2019) Controlled release from PCL–alginate microspheres via secondary encapsulation using GelMA/HAMA hydrogel scaffolds . Soft Matter 15:18, pages 3779-3787.
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Sudipta Chatterjee & Patrick Chi-leung Hui. 2019. Hydrogels - Smart Materials for Biomedical Applications. Hydrogels - Smart Materials for Biomedical Applications.
John M. Heffernan, James B. McNamara, Sabine Borwege, Brent L. Vernon, Nader Sanai, Shwetal Mehta & Rachael W. Sirianni. (2017) PNIPAAm-co-Jeffamine® (PNJ) scaffolds as in vitro models for niche enrichment of glioblastoma stem-like cells. Biomaterials 143, pages 149-158.
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Maria Andrei, Paul O. Stǎnescu, Constantin Drǎghici & Mircea Teodorescu. (2017) Degradable thermosensitive injectable hydrogels with two-phase composite structure from aqueous solutions of poly(N-isopropylacrylamide-co-5,6-benzo-2-methylene-1,3-dioxepane)—poly(ethylene glycol) triblock copolymers and biopolymers. Colloid and Polymer Science 295:10, pages 1805-1816.
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James McMasters, Scott Poh, Jenny B. Lin & Alyssa Panitch. (2017) Delivery of anti-inflammatory peptides from hollow PEGylated poly(NIPAM) nanoparticles reduces inflammation in an ex vivo osteoarthritis model. Journal of Controlled Release 258, pages 161-170.
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Nezha Badi. (2017) Non-linear PEG-based thermoresponsive polymer systems. Progress in Polymer Science 66, pages 54-79.
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James McMasters & Alyssa Panitch. (2017) Collagen-binding nanoparticles for extracellular anti-inflammatory peptide delivery decrease platelet activation, promote endothelial migration, and suppress inflammation. Acta Biomaterialia 49, pages 78-88.
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Qinyuan Chai, Yang Jiao & Xinjun Yu. (2017) Hydrogels for Biomedical Applications: Their Characteristics and the Mechanisms behind Them. Gels 3:1, pages 6.
Crossref
Gabriel Turturicǎ, Maria Andrei, Paul O. Stǎnescu, Constantin Drǎghici, Dumitru Mircea Vuluga, Anamaria Zaharia, Andrei Sârbu & Mircea Teodorescu. (2016) ABA triblock copolymers of poly(N-isopropylacrylamide-co-5,6-benzo-2-methylene -1,3-dioxepane) (A) and poly(ethylene glycol) (B): synthesis and thermogelation and degradation properties in aqueous solutions. Colloid and Polymer Science 294:4, pages 743-753.
Crossref
Ali Navaei, Danh Truong, John Heffernan, Josh Cutts, David Brafman, Rachael W. Sirianni, Brent Vernon & Mehdi Nikkhah. (2016) PNIPAAm-based biohybrid injectable hydrogel for cardiac tissue engineering. Acta Biomaterialia 32, pages 10-23.
Crossref
John M. Heffernan, Derek J. Overstreet, Sanjay Srinivasan, Long D. Le, Brent L. Vernon & Rachael W. Sirianni. (2016) Temperature responsive hydrogels enable transient three-dimensional tumor cultures via rapid cell recovery . Journal of Biomedical Materials Research Part A 104:1, pages 17-25.
Crossref
Faheem Ullah, Muhammad Bisyrul Hafi Othman, Fatima Javed, Zulkifli Ahmad & Hazizan Md. Akil. (2015) Classification, processing and application of hydrogels: A review. Materials Science and Engineering: C 57, pages 414-433.
Crossref
James McMasters & Alyssa Panitch. (2015) Prevention of Collagen-Induced Platelet Binding and Activation by Thermosensitive Nanoparticles. The AAPS Journal 17:5, pages 1117-1125.
Crossref
Xiao Min Zhu, Ting Ting Zhao & Ran Huang. (2014) A Review on the Synthesis and Controlled Release Properties of Novel Responsive Carrier. Advanced Materials Research 1002, pages 1-6.
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