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Cell Adhesion & Migration Volume 8, 2014 - Issue 1
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Commentary

Cell penetration to nanofibrous scaffolds

Forcespinning®, an alternative approach for fabricating 3D nanofibers

Michala Rampichová Laboratory of Tissue Engineering; Institute of Experimental Medicine; Academy of Science of the Czech Republic; Prague, Czech Republic; University Center for Energy Efficient Buildings (UCEEB); The Czech Technical University in Prague; Kladno, Czech RepublicCorrespondence[email protected]
,
Matej Buzgo Laboratory of Tissue Engineering; Institute of Experimental Medicine; Academy of Science of the Czech Republic; Prague, Czech Republic; University Center for Energy Efficient Buildings (UCEEB); The Czech Technical University in Prague; Kladno, Czech Republic
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Jiří Chvojka Technical University of Liberec; Faculty of Textile Engineering; Department of Nonwoven Textiles; Liberec, Czech Republic; Technical University of Liberec; Institute for Nanomaterials; Advanced technologies and Innovation; Liberec, Czech Republic
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Eva Prosecká Laboratory of Tissue Engineering; Institute of Experimental Medicine; Academy of Science of the Czech Republic; Prague, Czech Republic
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Olga Kofroňová Laboratory of Molecular Structure Characterization; Institute of Microbiology; Academy of Sciences of the Czech Republic; Prague, Czech Republic
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Evžen Amler Laboratory of Tissue Engineering; Institute of Experimental Medicine; Academy of Science of the Czech Republic; Prague, Czech Republic; University Center for Energy Efficient Buildings (UCEEB); The Czech Technical University in Prague; Kladno, Czech Republic; Institute of Biophysics; 2nd Faculty of Medicine; Charles University in Prague; Prague, Czech Republic; Czech Technical University in Prague; Faculty of Biomedical Engineering; Kladno, Czech Republic
Pages 36-41 | Received 04 Sep 2013, Accepted 10 Dec 2013, Published online: 01 Jan 2013

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Bülin Atıcı, Cüneyt H. Ünlü & Meltem Yanilmaz. (2022) A Review on Centrifugally Spun Fibers and Their Applications. Polymer Reviews 62:1, pages 1-64.
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M. Rampichová, E. Košt'áková Kuželová, E. Filová, J. Chvojka, J. Šafka, M. Pelcl, J. Daňková, E. Prosecká, M. Buzgo, M. Plencner, D. Lukáš & E. Amler. (2018) Composite 3D printed scaffold with structured electrospun nanofibers promotes chondrocyte adhesion and infiltration. Cell Adhesion & Migration 12:3, pages 271-285.
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Michala Rampichová, Matej Buzgo, Andrea Míčková, Karolína Vocetková, Věra Sovková, Věra Lukášová, Eva Filová, Franco Rustichelli & Evžen Amler. (2017) Platelet-functionalized three-dimensional poly-ε-caprolactone fibrous scaffold prepared using centrifugal spinning for delivery of growth factors. International Journal of Nanomedicine 12, pages 347-361.
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Articles from other publishers (25)

Deepa Kodali, Zaheeruddin Mohammed, Dilip Reddy Gunturu, Temesgen Samuel, Shaik Jeelani & Vijaya K. Rangari. (2023) Enhancement of Biocompatibility of Fish Scale-Based Hydroxyapatite-Infused Fibrous Scaffolds by Low-Temperature Plasma. JOM 75:7, pages 2174-2186.
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Deepak Kulkarni, Shubham Musale, Prabhakar Panzade, Ana Cláudia Paiva-Santos, Pratiksha Sonwane, Monika Madibone, Puja Choundhe, Prabhanjan Giram & Simona Cavalu. (2022) Surface Functionalization of Nanofibers: The Multifaceted Approach for Advanced Biomedical Applications. Nanomaterials 12:21, pages 3899.
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Aan Priyanto, Dian Ahmad Hapidin, Tri Suciati & Khairurrijal Khairurrijal. (2022) Current Developments on Rotary Forcespun Nanofibers and Prospects for Edible Applications. Food Engineering Reviews 14:3, pages 435-461.
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Aan Priyanto, Dian Ahmad Hapidin & Khairurrijal Khairurrijal. (2022) Potential Loading of Virgin Coconut Oil into Centrifugally‐Spun Nanofibers for Biomedical Applications. ChemBioEng Reviews 9:4, pages 393-408.
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Martin Philipp Dieterle, Thorsten Steinberg, Pascal Tomakidi, Jiri Nohava, Kirstin Vach, Simon Daniel Schulz, Elmar Hellwig & Susanne Proksch. (2022) Novel In Situ-Cross-Linked Electrospun Gelatin/Hydroxyapatite Nonwoven Scaffolds Prove Suitable for Periodontal Tissue Engineering. Pharmaceutics 14:6, pages 1286.
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Yishen Lu, Xianglong Li, Teng Hou & Bin Yang. (2021) Controlled Release of Tetracycline Hydrochloride Loaded Highly Absorbent Alginate Submicron Fibers from Centrifugally Spinning. Fibers and Polymers 23:1, pages 28-36.
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Mahdi Saeed, Saeed Beigi-Boroujeni, Sarah Rajabi, Golnaz Rafati Ashteiani, Maryam Dolatfarahi & Mutlu Özcan. (2021) A simple, green chemistry technology for fabrication of tissue-engineered scaffolds based on mussel-inspired 3D centrifugal spun. Materials Science and Engineering: C 121, pages 111849.
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Karolina Vocetkova, Vera Sovkova, Matej Buzgo, Vera Lukasova, Radek Divin, Michala Rampichova, Pavel Blazek, Tomas Zikmund, Jozef Kaiser, Zdenek Karpisek, Evzen Amler & Eva Filova. (2020) A Simple Drug Delivery System for Platelet-Derived Bioactive Molecules, to Improve Melanocyte Stimulation in Vitiligo Treatment. Nanomaterials 10:9, pages 1801.
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Shixuan Chen, Johnson V. John, Alec McCarthy, Mark A. Carlson, Xiaowei Li & Jingwei Xie. (2020) Fast transformation of 2D nanofiber membranes into pre-molded 3D scaffolds with biomimetic and oriented porous structure for biomedical applications. Applied Physics Reviews 7:2, pages 021406.
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Michala Rampichová, Vera Lukášová, Matej Buzgo, Karolína Vocetková, Vera Sovková, Veronika Blahnová, Evzen Amler & Eva Filová. (2020) Coaxial Nanofibrous Scaffold Prepared Using Centrifugal Spinning as a Drug Delivery System for Skeletal Tissue Engineering. Key Engineering Materials 834, pages 162-168.
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Vera Lukášová, Matej Buzgo, Evzen Amler, Eva Filová & Michala Rampichová. (2020) The Effect of Alternative Solvents on the Biocompatibility of Centrifugally Spun Poly-ε-Caprolactone. Key Engineering Materials 834, pages 155-161.
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Madhumita Patel, Hye Jin Hong & Won-Gun Koh. (2019) Micropatterned fibrous scaffolds for biomedical application. Journal of Industrial and Engineering Chemistry 80, pages 729-738.
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Maria P. Nikolova & Murthy S. Chavali. (2019) Recent advances in biomaterials for 3D scaffolds: A review. Bioactive Materials 4, pages 271-292.
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Alessandra Natale, Koen Vanmol, Aysu Arslan, Sandra Van Vlierberghe, Peter Dubruel, Jürgen Van Erps, Hugo Thienpont, Matij Buzgo, Joost Boeckmans, Joery De Kock, Tamara Vanhaecke, Vera Rogiers & Robim M. Rodrigues. (2019) Technological advancements for the development of stem cell-based models for hepatotoxicity testing. Archives of Toxicology 93:7, pages 1789-1805.
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V. Lukášová, M. Buzgo, K. Vocetková, V. Sovková, M. Doupník, E. Himawan, A. Staffa, R. Sedláček, H. Chlup, F. Rustichelli, E. Amler & M. Rampichová. (2019) Needleless electrospun and centrifugal spun poly-ε-caprolactone scaffolds as a carrier for platelets in tissue engineering applications: A comparative study with hMSCs. Materials Science and Engineering: C 97, pages 567-575.
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Yishen Lu, Xianglong Li, Teng Hou & Bin Yang. (2018) Centrifugally spun of alginate-riched submicron fibers from alginate/polyethylene oxide blends. Polymer Engineering & Science 58:9, pages 1644-1651.
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Tae In Hwang, Bikendra Maharjan, Arjun Prasad Tiwari, Sunny Lee, Mahesh Kumar Joshi, Chan Hee Park & Cheol Sang Kim. (2018) Facile fabrication of spongy nanofibrous scaffold for tissue engineering applications. Materials Letters 219, pages 119-122.
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M Rampichová, J Chvojka, V Jenčová, T Kubíková, Z Tonar, J Erben, M Buzgo, J Daňková, A Litvinec, K Vocetková, M Plencner, E Prosecká, V Sovková, V Lukášová, M Králíčková, D Lukáš & E Amler. (2018) The combination of nanofibrous and microfibrous materials for enhancement of cell infiltration and in vivo bone tissue formation . Biomedical Materials 13:2, pages 025004.
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Lukasova Vera, Buzgo Matej, Vocetkova Karolina, Kubíková Tereza, Tonar Zbyněk, Doupnik Miroslav, Blahnova Veronika, Litvinec Andrej, Sovkova Vera, Voltrová Barbora, Staffa Andrea, Svora Petr, Kralickova Milena, Amler Evzen, Filova Eva, Rustichelli Franco & Rampichova Michala. (2018) Osteoinductive 3D scaffolds prepared by blend centrifugal spinning for long-term delivery of osteogenic supplements. RSC Advances 8:39, pages 21889-21904.
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Wei Song, Liang Chen, Joseph Seta, David C. Markel, Xiaowei Yu & Weiping Ren. (2017) Corona Discharge: A Novel Approach To Fabricate Three-Dimensional Electrospun Nanofibers for Bone Tissue Engineering. ACS Biomaterials Science & Engineering 3:6, pages 1146-1153.
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K. Vocetkova, M. Buzgo, V. Sovkova, M. Rampichova, A. Staffa, E. Filova, V. Lukasova, M. Doupnik, F. Fiori & E. Amler. (2017) A comparison of high throughput core–shell 2D electrospinning and 3D centrifugal spinning techniques to produce platelet lyophilisate-loaded fibrous scaffolds and their effects on skin cells. RSC Advances 7:85, pages 53706-53719.
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Matej Buzgo, Michala Rampichova, Karolina Vocetkova, Vera Sovkova, Vera Lukasova, Miroslav Doupnik, Andrea Mickova, Franco Rustichelli & Evzen Amler. (2017) Emulsion centrifugal spinning for production of 3D drug releasing nanofibres with core/shell structure. RSC Advances 7:3, pages 1215-1228.
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Alex M. Jordan, Vidya Viswanath, Si-Eun Kim, Jonathan K. Pokorski & LaShanda T. J. Korley. (2016) Processing and surface modification of polymer nanofibers for biological scaffolds: a review. Journal of Materials Chemistry B 4:36, pages 5958-5974.
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MinSeong Kim & Geun Hyung Kim. (2015) Electrohydrodynamic direct printing of PCL/collagen fibrous scaffolds with a core/shell structure for tissue engineering applications. Chemical Engineering Journal 279, pages 317-326.
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Jakub Erben, Katerina Pilarova, Filip Sanetrnik, Jiri Chvojka, Vera Jencova, Lenka Blazkova, Jiri Havlicek, Ondrej Novak, Petr Mikes, Eva Prosecka, David Lukas & Eva Kuzelova Kostakova. (2015) The combination of meltblown and electrospinning for bone tissue engineering. Materials Letters 143, pages 172-176.
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