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Journal of Biomaterials Science, Polymer Edition Volume 22, 2011 - Issue 13
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Articles

Proliferation of Chondrocytes on a 3-D Modelled Macroporous Poly(Hydroxyethyl Methacrylate)–Gelatin Cryogel

Deepti Singh Department of Biological Sciences and Bioengineering, Indian Institute of Technology Kanpur, 208016-Kanpur, India; Dr. MGR Educational and Research Institute, Madurayvol, Chennai-91/Birla Institute of Technology, Goa, India
,
Anuj Tripathi Department of Biological Sciences and Bioengineering, Indian Institute of Technology Kanpur, 208016-Kanpur, India
,
Vijayashree Nayak Dr. MGR Educational and Research Institute, Madurayvol, Chennai-91/Birla Institute of Technology, Goa, India
&
Ashok Kumar Department of Biological Sciences and Bioengineering, Indian Institute of Technology Kanpur, 208016-Kanpur, India. [email protected]
Pages 1733-1751 | Published online: 02 Apr 2012

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Deepti Singh, Sun Mi Zo, Dolly Singh & Sung Soo Han. (2019) Interpenetrating alginate on gelatin–poly(2-hydroxyethyl methacrylate) as a functional polymeric matrix for cartilage tissue engineering. International Journal of Polymeric Materials and Polymeric Biomaterials 68:10, pages 551-563.
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Kemal Çetin, Hüseyin Alkan, Nilay Bereli & Adil Denizli. (2017) Molecularly imprinted cryogel as a pH-responsive delivery system for doxorubicin. Journal of Macromolecular Science, Part A 54:8, pages 502-508.
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Tarun Garg & Amit K Goyal. (2014) Biomaterial-based scaffolds – current status and future directions. Expert Opinion on Drug Delivery 11:5, pages 767-789.
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Deepti Singh, Sun Mi Zo, Ashok Kumar & Sung Soo Han. (2013) Engineering three-dimensional macroporous hydroxyethyl methacrylate-alginate-gelatin cryogel for growth and proliferation of lung epithelial cells. Journal of Biomaterials Science, Polymer Edition 24:11, pages 1343-1359.
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Articles from other publishers (34)

Akanksha Pandey, Pramod Kumar Sharma, Rishabha Malviya & Kalpana Rahate. (2023) Pectin/Pectin Derivatives as Potential Scaffolds for the Tissue Engineering Applications. The Natural Products Journal 13:6.
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Didem DEMİR KARAKUŞ, Seda CEYLAN & Nimet BÖLGEN. (2023) Composite Cryogels for Drug Delivery Applications: A Preliminary Study with Dye as a Model Drug. Journal of the Turkish Chemical Society Section B: Chemical Engineering 6:1, pages 17-26.
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Gülşen Bayrak, Işık Perçin, Aysun Kılıç Süloğlu & Adil Denizli. (2021) Amino acid functionalized macroporous gelatin cryogels: Characterization and effects on cell proliferation. Process Biochemistry 110, pages 100-109.
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Namdev More, Deepak Ranglani, Shubham Kharche, Mounika Choppadandi, Sumanta Ghosh, Sumedh Vaidya & Govinda Kapusetti. (2021) Current challenges in identification of clinical characteristics and detection of COVID-19: A comprehensive review. Measurement: Sensors 16, pages 100052.
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Irina N. Savina, Mohamed Zoughaib & Abdulla A. Yergeshov. (2021) Design and Assessment of Biodegradable Macroporous Cryogels as Advanced Tissue Engineering and Drug Carrying Materials. Gels 7:3, pages 79.
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Simonida Lj. Tomić, Jasmina Nikodinović-Runić, Marija Vukomanović, Marija M. Babić & Jovana S. Vuković. (2021) Novel Hydrogel Scaffolds Based on Alginate, Gelatin, 2-Hydroxyethyl Methacrylate, and Hydroxyapatite. Polymers 13:6, pages 932.
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Tanushree Vishnoi. 2021. 3D Printing in Medicine and Surgery. 3D Printing in Medicine and Surgery 171 197 .
Pallavi Kulkarni, Rohit Parkale, Surbhi Khare, Prasoon Kumar & Neha Arya. 2021. Immobilization Strategies. Immobilization Strategies 85 139 .
Namdev More, Akshay Srivastava & Govinda Kapusetti. (2020) Graphene Oxide Reinforcement Enhances the Piezoelectric and Mechanical Properties of Poly(3-hydroxybutyrate- co -3-hydroxy valerate)-Based Nanofibrous Scaffolds for Improved Proliferation of Chondrocytes and ECM Production . ACS Applied Bio Materials 3:10, pages 6823-6835.
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Mehdi Razavi, Yang Qiao & Avnesh S. Thakor. (2019) Three‐dimensional cryogels for biomedical applications. Journal of Biomedical Materials Research Part A 107:12, pages 2736-2755.
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Anuj Tripathi & Jose Savio Melo. (2019) Cryostructurization of polymeric systems for developing macroporous cryogel as a foundational framework in bioengineering applications. Journal of Chemical Sciences 131:9.
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Adnan Memic, Thibault Colombani, Loek J. Eggermont, Mahboobeh Rezaeeyazdi, Joseph Steingold, Zach J. Rogers, Kasturi Joshi Navare, Halimatu S. Mohammed & Sidi A. Bencherif. (2019) Latest Advances in Cryogel Technology for Biomedical Applications. Advanced Therapeutics 2:4, pages 1800114.
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Abiy Wubneh, Eleni K. Tsekoura, Cagri Ayranci & Hasan Uludağ. (2018) Current state of fabrication technologies and materials for bone tissue engineering. Acta Biomaterialia 80, pages 1-30.
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Dianjun Qi, Shaohua Wu, Mitchell A. Kuss, Wen Shi, Soonkyu Chung, Paul T. Deegan, Alexey Kamenskiy, Yini He & Bin Duan. (2018) Mechanically robust cryogels with injectability and bioprinting supportability for adipose tissue engineering. Acta Biomaterialia 74, pages 131-142.
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Adegbenro Omotuyi John Fakoya, David Adeiza Otohinoyi & Joshua Yusuf. (2018) Current Trends in Biomaterial Utilization for Cardiopulmonary System Regeneration. Stem Cells International 2018, pages 1-32.
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T. Sedlačík, O. K. Acar, H. Studenovská, I. Kotelnikov, J. Kučka, Z. Konečná, T. Zikmund, J. Kaiser, G. T. Kose & F. Rypáček. (2018) Chondrogenic potential of macroporous biodegradable cryogels based on synthetic poly(α-amino acids). Soft Matter 14:2, pages 228-238.
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Katherine R. Hixon, Tracy Lu & Scott A. Sell. (2017) A comprehensive review of cryogels and their roles in tissue engineering applications. Acta Biomaterialia 62, pages 29-41.
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Kumar Abhinav Dubey, Chandrashekhar V Chaudhari, Yatendra Kumar Bhardwaj & Lalit Varshney. 2017. Advances in Biomaterials for Biomedical Applications. Advances in Biomaterials for Biomedical Applications 1 44 .
Ruchi Mishra, Sumrita Bhat & Ashok Kumar. 2016. Supermacroporous Cryogels. Supermacroporous Cryogels 219 254 .
Deepti Singh, Dolly Singh & Sung Soo Han. 2015. Encyclopedia of Biomedical Polymers and Polymeric Biomaterials. Encyclopedia of Biomedical Polymers and Polymeric Biomaterials 3360 3376 .
Akhilesh Kumar Shakya, Rikard Holmdahl, Kutty Selva Nandakumar & Ashok Kumar. (2013) Polymeric cryogels are biocompatible, and their biodegradation is independent of oxidative radicals. Journal of Biomedical Materials Research Part A 102:10, pages 3409-3418.
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Dmitriy Berillo & Natalia Volkova. (2014) Preparation and physicochemical characteristics of cryogel based on gelatin and oxidised dextran. Journal of Materials Science 49:14, pages 4855-4868.
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Deepti Singh, Anuj Tripathi, SunMi Zo, Dolly Singh & Sung Soo Han. (2014) Synthesis of composite gelatin-hyaluronic acid-alginate porous scaffold and evaluation for in vitro stem cell growth and in vivo tissue integration. Colloids and Surfaces B: Biointerfaces 116, pages 502-509.
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Timo Aberle, Katrin Franke, Elke Rist, Karin Benz & Burkhard Schlosshauer. (2014) Cell-Type Specific Four-Component Hydrogel. PLoS ONE 9:1, pages e86740.
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Saet Byul Ki, Deepti Singh, Seong Cheol Kim, Tae Won Son & Sung Soo Han. (2013) Effect of cross-linkers in fabrication of carrageenan-alginate matrices for tissue engineering application. Biotechnology and Applied Biochemistry 60:6, pages 589-595.
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LU WANG, YANNI CHEN, JUN QIAN, YANYAN TAN, SHAOHUA HUANGFU, YIJIANG DING, SHUQING DING & BIN JIANG. (2013) A BOTTOM-UP METHOD TO BUILD 3D SCAFFOLDS WITH PREDEFINED VASCULAR NETWORK. Journal of Mechanics in Medicine and Biology 13:05, pages 1340008.
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Sumrita Bhat, Lars Lidgren & Ashok Kumar. (2013) In Vitro Neo-Cartilage Formation on a Three-Dimensional Composite Polymeric Cryogel Matrix. Macromolecular Bioscience 13:7, pages 827-837.
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Soon Mo Choi, Deepti Singh, Yong Woo Cho, Tae Hwan Oh & Sung Soo Han. (2012) Three-dimensional porous HPMA-co-DMAEM hydrogels for biomedical application. Colloid and Polymer Science 291:5, pages 1121-1133.
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Anuj Tripathi, Jose Savio Melo & Stanislaus Francis D'Souza. 2013. Nanomaterials in Drug Delivery, Imaging, and Tissue Engineering. Nanomaterials in Drug Delivery, Imaging, and Tissue Engineering 443 492 .
Sidi A. BencherifThomas M. BraschlerPhilippe Renaud. (2013) Advances in the design of macroporous polymer scaffolds for potential applications in dentistry. Journal of Periodontal & Implant Science 43:6, pages 251.
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Timothy M. A. Henderson, Katharina Ladewig, David N. Haylock, Keith M. McLean & Andrea J. O'Connor. (2013) Cryogels for biomedical applications. Journal of Materials Chemistry B 1:21, pages 2682.
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Linda Elowsson, Harald Kirsebom, Virginie Carmignac, Madeleine Durbeej & Bo Mattiasson. (2012) Porous protein-based scaffolds prepared through freezing as potential scaffolds for tissue engineering. Journal of Materials Science: Materials in Medicine 23:10, pages 2489-2498.
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Hardeep Singh & Lakshmi S. Nair. 2012. Integrated Biomaterials for Biomedical Technology. Integrated Biomaterials for Biomedical Technology 359 396 .
Nianli Zhang & David H. Kohn. (2012) Using polymeric materials to control stem cell behavior for tissue regeneration. Birth Defects Research Part C: Embryo Today: Reviews 96:1, pages 63-81.
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