regenHU提供的3D生物打印解决方案,应用文献列表200+
时间:2020-02-20 阅读:8744
regenHU提供XIAN进的3D生物打印解决方案,发表文献列表200+
共同塑造生物医学的未来!
自2007年以来,regenHU一直致力于其工程技术,以帮助科学界提供XIAN进的3D生物打印解决方案。
regenHU的生物打印机为组织工程,再生医学和药物发现领域的科学进步提供了广泛的专业生物打印机。
使用regenHU生物打印机发现约200种科学出版物
Author | Title | Year | Journal/Proceedings | Reftype | DOI/URL |
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Daskalakis, E., Aslan, E., Liu, F., Cooper, G., Weightman, A., Koç, B., Blunn, G. and Bartolo, P.J. | Composite Scaffolds for Large Bone Defects [Abstract] [BibTeX] | 2020 | Progress in Digital and Physical Manufacturing, pp. 250-257 | inproceedings | |
Bertana, V., Catania, F., Cocuzza, M., Ferrero, S., Scaltrito, L. and Pirri, C. | Medical and biomedical applications of 3D and 4D printed polymer nanocomposites [Abstract] [BibTeX] | 2020 | 3D and 4D Printing of Polymer Nanocomposite Materials, pp. 325 - 366 | incollection | DOIURL |
Freeman, FE, Browe, DC, Nulty, J, Von Euw, S, Grayson, WL and Kelly, DJ | Biofabrication of multiscale bone extracellular matrix scaffolds for bone tissue engineering. [Abstract] [BibTeX] | 2019 | European Cells & Materials | article | DOIURL |
Loai, S., Kingston, B.R., Wang, Z., Philpott, D.N., Tao, M. and Cheng, H.-L.M. | Clinical Perspectives on 3D Bioprinting Paradigms for Regenerative Medicine [BibTeX] | 2019 | Regen Med Front. Vol. 1(e190004), pp. e190004 | article | DOIURL |
Geetha Bai, R., Muthoosamy, K., Manickam, S. and Hilal-Alnaqbi, A. | Graphene-based 3D scaffolds in tissue engineering: fabrication, applications, and future scope in liver tissue engineering [Abstract] [BibTeX] | 2019 | International journal of nanomedicine Vol. 14(31413573), pp. 5753-5783 | article | URL |
Zhuang, P., Ng, W.L., An, J., Chua, C.K. and Tan, L.P. | Layer-by-layer ultraviolet assisted extrusion-based (UAE) bioprinting of hydrogel constructs with high aspect ratio for soft tissue engineering applications [Abstract] [BibTeX] | 2019 | PLOS ONE Vol. 14(6), pp. 1-21 | article | DOI |
Noor, N., Shapira, A., Edri, R., Gal, I., Wertheim, L. and Dvir, T. | 3D Printing of Personalized Thick and Perfusable Cardiac Patches and Hearts [Abstract] [BibTeX] | 2019 | Advanced Science Vol. 0(0), pp. 1900344 | article | DOI |
Markstedt, K., Håkansson, K., Toriz, G. and Gatenholm, P. | Materials from trees assembled by 3D printing – Wood tissue beyond nature limits [Abstract] [BibTeX] | 2019 | Applied Materials Today Vol. 15, pp. 280 - 285 | article | DOIURL |
Huang, B., Vyas, C., Roberts, I., Poutrel, Q.-A., Chiang, W.-H., Blaker, J.J., Huang, Z. and Bártolo, P. | Fabrication and characterisation of 3D printed MWCNT composite porous scaffolds for bone regeneration [Abstract] [BibTeX] | 2019 | Materials Science and Engineering: C Vol. 98, pp. 266 - 278 | article | DOIURL |
Gonzalez-Fernandez, T., Rathan, S., Hobbs, C., Pitacco, P., Freeman, F., Cunniffe, G., Dunne, N., McCarthy, H., Nicolosi, V., O'Brien, F. and Kelly, D. | Pore-forming bioinks to enable Spatio-temporally defined gene delivery in bioprinted tissues [Abstract] [BibTeX] | 2019 | Journal of Controlled Release | article | DOIURL |
Gloria, A., Frydman, B., Lamas, M.L., Serra, A.C., Martorelli, M., Coelho, J.F., Fonseca, A.C. and Domingos, M. | The influence of poly(ester amide) on the structural and functional features of 3D additive manufactured poly(ε-caprolactone) scaffolds [Abstract] [BibTeX] | 2019 | Materials Science and Engineering: C Vol. 98, pp. 994 - 1004 | article | DOIURL |
Apelgren, P., Karabulut, E., Amoroso, M., Mantas, A., Martínez Ávila, H., Kölby, L., Kondo, T., Toriz, G. and Gatenholm, P. | In Vivo Human Cartilage Formation in Three-Dimensional Bioprinted Constructs with a Novel Bacterial Nanocellulose Bioink [Abstract] [BibTeX] | 2019 | ACS Biomater. Sci. Eng. Vol. 5(5), pp. 2482-2490 | article | DOI |
Mehrotra, S., Moses, J.C., Bandyopadhyay, A. and Mandal, B.B. | 3D Printing/Bioprinting Based Tailoring of in Vitro Tissue Models: Recent Advances and Challenges [Abstract] [BibTeX] | 2019 | ACS Appl. Bio Mater. Vol. 2(4), pp. 1385-1405 | article | DOI |
Allig, S., Mayer, M., Arrizabalaga, O., Ritter, S., Schroeder, I. and Thielemann, C. | Effect of extrusion-based bioprinting on neurospheres [BibTeX] | 2019 | GSI-FAIR SCIENTIFIC REPORT 2017School: University of Applied Sciences, BioMEMS Lab, Aschaffenburg, Germany | techreport | URL |
Marques, C.F., Diogo, G.S., Pina, S., Oliveira, J.M., Silva, T.H. and Reis, R.L. | Collagen-based bioinks for hard tissue engineering applications: a comprehensive review [Abstract] [BibTeX] | 2019 | Journal of Materials Science: Materials in Medicine Vol. 30(3), pp. 32 | article | DOI |
Zhou, M., Lee, B.H., Tan, Y.J. and Tan, L.P. | Microbial transglutaminase induced controlled crosslinking of gelatin methacryloyl to tailor rheological properties for 3D printing [Abstract] [BibTeX] | 2019 | Biofabrication Vol. 11(2), pp. 025011 | article | DOI |
Rotbaum, Y., Puiu, C., Rittel, D. and Domingos, M. | Quasi-static and dynamic in vitro mechanical response of 3D printed scaffolds with tailored pore size and architectures [Abstract] [BibTeX] | 2019 | Materials Science and Engineering: C Vol. 96, pp. 176 - 182 | article | DOIURL |
Pedrotty, D.M., Volodymyr, K., Erdem, K., Sugrue Alan, M., Christopher, L., Vaidya Vaibhav, R., McLeod Christopher, J., Asirvatham Samuel, J., Paul, G. and Suraj, K. | Three-Dimensional Printed Biopatches With Conductive Ink Facilitate Cardiac Conduction When Applied to Disrupted Myocardium [BibTeX] | 2019 | Circulation: Arrhythmia and Electrophysiology Vol. 12(3), pp. e006920 | article | DOI |
Jiang, T., Munguía López, J., Flores-Torres, S., Kort-Mascort, J. and Kinsella, J. | Extrusion bioprinting of soft materials: An emerging technique for biological model fabrication [BibTeX] | 2019 | Applied Physics Reviews Vol. 6, pp. 011310 | article | DOI |
Filardo, G., Petretta, M., Cavallo, C., Roseti, L., Durante, S., Albisinni, U. and Grigolo, B. | Patient-specific meniscus prototype based on 3D bioprinting of human cell-laden scaffold [Abstract] [BibTeX] | 2019 | Bone & Joint Research Vol. 8(2), pp. 101-106 | article | DOI |
Athanasiadis, M., Pak, A., Afanasenkau, D. and Minev, I.R. | Direct Writing of Elastic Fibers with Optical, Electrical, and Microfluidic Functionality [Abstract] [BibTeX] | 2019 | Advanced Materials Technologies Vol. 0(0), pp. 1800659 | article | DOI |
Sharma, A., Desando, G., Petretta, M., Chawla, S., Bartolotti, I., Manferdini, C., Paolella, F., Gabusi, E., Trucco, D., Ghosh, S. and Lisignoli, G. | Investigating the Role of Sustained Calcium Release in Silk-Gelatin-Based Three-Dimensional Bioprinted Constructs for Enhancing the Osteogenic Differentiation of Human Bone Marrow Derived Mesenchymal Stromal Cells [BibTeX] | 2019 | ACS Biomater. Sci. Eng. | article | DOI |
Pan, H.M., Chen, S., Jang, T.-S., Han, W.T., Jung, H.-d., Li, Y. and Song, J. | Plant seed-inspired cell protection, dormancy, and growth for large-scale biofabrication [Abstract] [BibTeX] | 2019 | Biofabrication Vol. 11(2), pp. 025008 | article | DOI |
Dooley, M., Prasopthum, A., Liao, Z., Sinjab, F., McLaren, J., Rose, F.R.A.J., Yang, J. and Notingher, I. | Spatially-offset Raman spectroscopy for monitoring mineralization of bone tissue engineering scaffolds: feasibility study based on phantom samples [Abstract] [BibTeX] | 2019 | Biomed. Opt. Express Vol. 10(4), pp. 1678-1690 | article | DOIURL |
Zhang, D., Peng, E., Borayek, R. and Ding, J. | Controllable Ceramic Green-Body Configuration for Complex Ceramic Architectures with Fine Features [Abstract] [BibTeX] | 2019 | Advanced Functional Materials Vol. 0(0), pp. 1807082 | article | DOI |
Rathan, S., Dejob, L., Schipani, R., Haffner, B., Möbius, M.E. and Kelly, D.J. | Fiber Reinforced Cartilage ECM Functionalized Bioinks for Functional Cartilage Tissue Engineering [Abstract] [BibTeX] | 2019 | Advanced Healthcare Materials Vol. 0(0), pp. 1801501 | article | DOI |
Alison, L., Menasce, S., Bouville, F., Tervoort, E., Mattich, I., Ofner, A. and Studart, A.R. | 3D printing of sacrificial templates into hierarchical porous materials [Abstract] [BibTeX] | 2019 | Scientific Reports Vol. 9(1), pp. 409 | article | DOI |
Yilmaz, B, Tahmasebifar, A and Baran, ET | Bioprinting Technologies in Tissue Engineering [BibTeX] | 2019 | Adv Biochem Eng Biotechnol | article | DOI |
Xu, Y., Peng, J., Richards, G., Lu, S. and Eglin, D. | Optimization of electrospray fabrication of stem cell–embedded alginate–gelatin microspheres and their assembly in 3D-printed poly(ε-caprolactone) scaffold for cartilage tissue engineering [Abstract] [BibTeX] | 2019 | Journal of Orthopaedic Translation Vol. 18, pp. 128 - 141 | article | DOIURL |
Wang, W., Junior, J.R.P., Nalesso, P.R.L., Musson, D., Cornish, J., Mendonça, F., Caetano, G.F. and Bártolo, P. | Engineered 3D printed poly(ɛ-caprolactone)/graphene scaffolds for bone tissue engineering [Abstract] [BibTeX] | 2019 | Materials Science and Engineering: C Vol. 100, pp. 759 - 770 | article | DOIURL |
Wang, W., Huang, B., Byun, J.J. and Bártolo, P. | Assessment of PCL/carbon material scaffolds for bone regeneration [Abstract] [BibTeX] | 2019 | Journal of the Mechanical Behavior of Biomedical Materials Vol. 93, pp. 52 - 60 | article | DOIURL |
Valot, L., Martinez, J., Mehdi, A. and Subra, G. | Chemical insights into bioinks for 3D printing [Abstract] [BibTeX] | 2019 | Chem. Soc. Rev. Vol. 48, pp. 4049-4086 | article | DOI |
Tondera, C., Akbar, T.F., Thomas, A.K., Lin, W., Werner, C., Busskamp, V., Zhang, Y. and Minev, I.R. | Highly Conductive, Stretchable, and Cell-Adhesive Hydrogel by Nanoclay Doping [Abstract] [BibTeX] | 2019 | Small Vol. 0(0), pp. 1901406 | article | DOI |
Shen, J., Wang, W., Zhai, X., Chen, B., Qiao, W., Li, W., Li, P., Zhao, Y., Meng, Y., Qian, S., Liu, X., Chu, P.K. and Yeung, K.W. | 3D-printed nanocomposite scaffolds with tunable magnesium ionic microenvironment induce in situ bone tissue regeneration [Abstract] [BibTeX] | 2019 | Applied Materials Today Vol. 16, pp. 493 - 507 | article | DOIURL |
Schipani, R., Nolan, D.R., Lally, C. and Kelly, D.J. | Integrating finite element modelling and 3D printing to engineer biomimetic polymeric scaffolds for tissue engineering [Abstract] [BibTeX] | 2019 | Connective Tissue Research Vol. 0(0), pp. 1-16 | article | DOI |
Roopavath, U.K., Soni, R., Mahanta, U., Deshpande, A.S. and Rath, S.N. | 3D printable SiO2 nanoparticle ink for patient specific bone regeneration [Abstract] [BibTeX] | 2019 | RSC Adv. Vol. 9, pp. 23832-23842 | article | DOI |
Romanazzo, S., Nemec, S. and Roohani, I. | iPSC Bioprinting: Where are We at? [Abstract] [BibTeX] | 2019 | Materials Vol. 12(15) | article | DOIURL |
Prendergast, M.E. and Burdick, J.A. | Recent Advances in Enabling Technologies in 3D Printing for Precision Medicine [Abstract] [BibTeX] | 2019 | Advanced Materials Vol. 0(0), pp. 1902516 | article | DOI |
Mestre, R., Patiño, T., Barceló, X., Anand, S., Pérez-Jiménez, A. and Sánchez, S. | Force Modulation and Adaptability of 3D-Bioprinted Biological Actuators Based on Skeletal Muscle Tissue [Abstract] [BibTeX] | 2019 | Advanced Materials Technologies Vol. 4(2), pp. 1800631 | article | DOI |
Marchiori, G., Berni, M., Boi, M., Petretta, M., Grigolo, B., Bellucci, D., Cannillo, V., Garavelli, C. and Bianchi, M. | Design of a novel procedure for the optimization of the mechanical performances of 3D printed scaffolds for bone tissue engineering combining CAD, Taguchi method and FEA [Abstract] [BibTeX] | 2019 | Medical Engineering & Physics Vol. 69, pp. 92 - 99 | article | DOIURL |
Li, J., Liu, X., Crook, J. and Wallace, G. | 3D graphene-containing structures for tissue engineering [Abstract] [BibTeX] | 2019 | Materials Today Chemistry Vol. 14, pp. 100199 | article | DOIURL |
Kleger, N., Cihova, M., Masania, K., Studart, A.R. and Löffler, J.F. | 3d printing of salt as a template for magnesium with structured porosity [Abstract] [BibTeX] | 2019 | advanced materials Vol. 0(0), pp. 1903783 | article | DOI |
Kjar, A. and Huang, Y. | Application of Micro-Scale 3D Printing in Pharmaceutics [Abstract] [BibTeX] | 2019 | Pharmaceutics Vol. 11(8) | article | DOIURL |
Fenton, O.S., Paolini, M., Andresen, J.L., Müller, F.J. and Langer, R. | Outlooks on Three-Dimensional Printing for Ocular Biomaterials Research [Abstract] [BibTeX] | 2019 | Journal of Ocular Pharmacology and Therapeutics Vol. 0(0), pp. null | article | DOI |
Derr, K., Zou, J., Luo, K., Song, M.J., Sittampalam, G.S., Zhou, C., Michael, S., Ferrer, M. and Derr, P. | Fully 3D Bioprinted Skin Equivalent Constructs with Validated Morphology and Barrier Function [Abstract] [BibTeX] | 2019 | Tissue Engineering Part C: Methods Vol. 0(ja), pp. null | article | DOI |
Daly, A.C. and Kelly, D.J. | Biofabrication of spatially organised tissues by directing the growth of cellular spheroids within 3D printed polymeric microchambers [Abstract] [BibTeX] | 2019 | Biomaterials Vol. 197, pp. 194 - 206 | article | DOIURL |
Creusen, G., Roshanasan, A., Garcia Lopez, J., Peneva, K. and Walther, A. | Bottom-up design of model network elastomers and hydrogels from precise star polymers [Abstract] [BibTeX] | 2019 | Polym. Chem., pp. - | article | DOI |
Costa, P.F. | Translating Biofabrication to the Market [Abstract] [BibTeX] | 2019 | Trends in Biotechnology | article | DOIURL |
Cofiño, C., Perez-Amodio, S., Semino, C.E., Engel, E. and Mateos-Timoneda, M.A. | Development of a Self-Assembled Peptide/Methylcellulose-Based Bioink for 3D Bioprinting [Abstract] [BibTeX] | 2019 | Macromolecular Materials and Engineering Vol. 0(0), pp. 1900353 | article | DOI |
Cernencu, A.I., Lungu, A., Stancu, I.-C., Serafim, A., Heggset, E., Syverud, K. and Iovu, H. | Bioinspired 3D printable pectin-nanocellulose ink formulations [Abstract] [BibTeX] | 2019 | Carbohydrate Polymers Vol. 220, pp. 12 - 21 | article | DOIURL |
Caetano, G., Wang, W., Murashima, A., Passarini, J.R., Bagne, L., Leite, M., Hyppolito, M., Al-Deyab, S., El-Newehy, M., Bártolo, P. and Frade, M.A.C. | Tissue Constructs with Human Adipose-Derived Mesenchymal Stem Cells to Treat Bone Defects in Rats [Abstract] [BibTeX] | 2019 | Materials Vol. 12(14) | article | DOIURL |
Azim, N., Hart, C., Sommerhage, F., Aubin, M., Hickman, J.J. and Rajaraman, S. | Precision Plating of Human Electrogenic Cells on Microelectrodes Enhanced With Precision Electrodeposited Nano-Porous Platinum for Cell-Based Biosensing Applications [Abstract] [BibTeX] | 2019 | Journal of Microelectromechanical Systems Vol. 28(1), pp. 50-62 | article | DOIURL |
Angelopoulos, I., Allenby, M.C., Lim, M. and Zamorano, M. | Engineering inkjet bioprinting processes toward translational therapies [Abstract] [BibTeX] | 2019 | Biotechnology and Bioengineering Vol. 0(0) | article | DOI |
Almeida, H.A., Costa, A.F., Ramos, C., Torres, C., Minondo, M., Bártolo, P.J., Nunes, A., Kemmoku, D. and da Silva, J.V.L. | Additive Manufacturing Systems for Medical Applications: Case Studies [Abstract] [BibTeX] | 2019 | Additive Manufacturing -- Developments in Training and Education, pp. 187-209 | inbook | DOIURL |
Khaled, S.A., Alexander, M.R., Irvine, D.J., Wildman, R.D., Wallace, M.J., Sharpe, S., Yoo, J. and Roberts, C.J. | Extrusion 3D Printing of Paracetamol Tablets from a Single Formulation with Tunable Release Profiles Through Control of Tablet Geometry [Abstract] [BibTeX] | 2018 | AAPS PharmSciTech Vol. 19(8), pp. 3403-3413 | article | DOI |
Zamani, Y., Mohammadi, J., Amoabediny, G., Visscher, D.O., Helder, M.N., Zandieh-Doulabi, B. and Klein-Nulend, J. | Enhanced osteogenic activity by MC3T3-E1 pre-osteoblasts on chemically surface-modified poly(upepsilon-caprolactone) 3D-printed scaffolds compared to RGD immobilized scaffolds [Abstract] [BibTeX] | 2018 | Biomedical Materials Vol. 14(1), pp. 015008 | article | DOI |
Li, H., Tan, Y.J. and Li, L. | A strategy for strong interface bonding by 3D bioprinting of oppositely charged κ-carrageenan and gelatin hydrogels [Abstract] [BibTeX] | 2018 | Carbohydrate Polymers Vol. 198, pp. 261-269 | article | URL |
Petta, D., Armiento, A.R., Grijpma, D., Alini, M., Eglin, D. and D'Este, M. | 3D bioprinting of a hyaluronan bioink through enzymatic-and visible light-crosslinking [Abstract] [BibTeX] | 2018 | Biofabrication Vol. 10(4), pp. 044104 | article | DOI |
García-Lizarribar, A., Fernández-Garibay, X., Velasco-Mallorquí, F., G. Castaño, A., Samitier, J. and Ramón-Azcón, J. | Composite Biomaterials as Long-Lasting Scaffolds for 3D Bioprinting of Highly Aligned Muscle Tissue [BibTeX] | 2018 | Macromolecular Bioscience Vol. 18, pp. 1800167 | article | DOI |
Gleadall, A., Visscher, D., Yang, J., Thomas, D. and Segal, J. | Review of additive manufactured tissue engineering scaffolds: relationship between geometry and performance [Abstract] [BibTeX] | 2018 | Burns & Trauma Vol. 6(1), pp. 19 | article | DOI |
Gullo, M.R., Koeser, J., Ruckli, O., Eigenmann, A. and Hradetzky, D. | Rapid Prototyping Method for 3D Printed Biomaterial Constructs with Vascular Structures [Abstract] [BibTeX] | 2018 | 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), pp. 5729-5732 | inproceedings | DOI |
Gill, E.L., Li, X., Birch, M.A. and Huang, Y.Y.S. | Multi-length scale bioprinting towards simulating microenvironmental cues [Abstract] [BibTeX] | 2018 | Bio-Design and Manufacturing Vol. 1(2), pp. 77-88 | article | DOI |
Choudhury, D., Anand, S. and Win Naing, M. | The Arrival of Commercial Bioprinters - Towards 3D Bioprinting Revolution! [BibTeX] | 2018 | International Journal of Bioprinting Vol. 4 | article | DOI |
Agarwala, S., Lee, J.M., Ng, W.L., Layani, M., Yeong, W.Y. and Magdassi, S. | A novel 3D bioprinted flexible and biocompatible hydrogel bioelectronic platform [Abstract] [BibTeX] | 2018 | Biosensors and Bioelectronics Vol. 102(Supplement C), pp. 365 - 371 | article | DOIURL |
Monzón, M., Liu, C., Ajami, S., Oliveira, M., Donate, R., Ribeiro, V. and Reis, R.L. | Functionally graded additive manufacturing to achieve functionality specifications of osteochondral scaffolds [BibTeX] | 2018 | Bio-Design and Manufacturing Vol. 1(1), pp. 69-75 | article | DOI |
Tognato, R., Armiento, A.R., Bonfrate, V., Levato, R., Malda, J., Alini, M., Eglin, D., Giancane, G. and Serra, T. | A Stimuli-Responsive Nanocomposite for 3D Anisotropic Cell-Guidance and Magnetic Soft Robotics [Abstract] [BibTeX] | 2018 | Adv. Funct. Mater. Vol. 29(9), pp. 1804647 | article | DOI |
Schaffner, M., Faber, J.A., Pianegonda, L., Rühs, P.A., Coulter, F. and Studart, A.R. | 3D printing of robotic soft actuators with programmable bioinspired architectures [Abstract] [BibTeX] | 2018 | Nature Communications Vol. 9(1), pp. 878 | article | DOI |
Raghunath, M., Rimann, M., Kopanska, K. and Laternser, S. | TEDD Annual Meeting with 3D Bioprinting Workshop [Abstract] [BibTeX] | 2018 | CHIMIA Vol. 72CHIMIA International Journal for Chemistry, pp. 76-79 | article | URL |
Prasopthum, A., Shakesheff, K.M. and Yang, J. | Direct three-dimensional printing of polymeric scaffolds with nanofibrous topography [Abstract] [BibTeX] | 2018 | Biofabrication Vol. 10(2), pp. 025002 | article | DOI |
Allig, S., Mayer, M. and Thielemann, C. | Workflow for bioprinting of cell-laden bioink [BibTeX] | 2018 | Lekar a Technika Vol. 48, pp. 46-51 | article | URL |
Wang, H., das Neves Domingos, M.A. and Scenini, F. | Advanced mechanical and thermal characterization of 3D bioextruded poly(ε-caprolactone)-based composites [Abstract] [BibTeX] | 2018 | Rapid Prototyping Journal Vol. 0(ja), pp. 00-00 | article | DOI |
Visscher, D.O., Gleadall, A., Buskermolen, J.K., Burla, F., Segal, J., Koenderink, G.H., Helder, M.N. and van Zuijlen, P.P.M. | Design and fabrication of a hybrid alginate hydrogel/poly(ε-caprolactone) mold for auricular cartilage reconstruction [Abstract] [BibTeX] | 2018 | Journal of Biomedical Materials Research Part B: Applied Biomaterials Vol. 0(0) | article | DOI |
Shi, P., Tan, Y.S.E., Yeong, W.Y., Li, H.Y. and Laude, A. | A bilayer photoreceptor‐retinal tissue model with gradient cell density design: A study of microvalve‐based bioprinting [Abstract] [BibTeX] | 2018 | Journal of Tissue Engineering and Regenerative Medicine Vol. 12(5), pp. 1297-1306 | article | DOI |
Schmieg, B., Schimek, A. and Franzreb, M. | Development and performance of a 3D‐printable Polyethylenglycol‐Diacrylate hydrogel suitable for enzyme entrapment and long‐term biocatalytic applications [Abstract] [BibTeX] | 2018 | Engineering in Life Sciences Vol. 0(ja) | article | DOIURL |
de Ruijter Mylène, Alexandre, R., Inge, D., Miguel, C. and Jos, M. | Simultaneous Micropatterning of Fibrous Meshes and Bioinks for the Fabrication of Living Tissue Constructs [Abstract] [BibTeX] | 2018 | Advanced Healthcare Materials Vol. 0(0), pp. 1800418 | article | DOIURL |
Romanazzo, S., Vedicherla, S., Moran, C. and Kelly, D.J. | Meniscus ECM‐functionalised hydrogels containing infrapatellar fat pad‐derived stem cells for bioprinting of regionally defined meniscal tissue [Abstract] [BibTeX] | 2018 | Journal of Tissue Engineering and Regenerative Medicine Vol. 12(3), pp. e1826-e1835 | article | DOI |
Rayate, A. and Jain, P.K. | A Review on 4D Printing Material Composites and Their Applications [Abstract] [BibTeX] | 2018 | Materials Today: Proceedings Vol. 5(9, Part 3), pp. 20474 - 20484 | article | DOIURL |
Pereira, F.D.A.S., Parfenov, V., Khesuani, Y.D., Ovsianikov, A. and Mironov, V. | Commercial 3D Bioprinters [Abstract] [BibTeX] | 2018 | 3D Printing and Biofabrication, pp. 535-549 | inbook | DOI |
Peiffer, Q.C. | Biofabrication: Tools for new therapeutics in regenerative medicine and drug delivery [Abstract] [BibTeX] | 2018 | School: Queensland University of Technology | mastersthesis | DOIURL |
Park, H.S., Lee, J.S., Jung, H., Kim, D.Y., Kim, S.W., Sultan, M.T. and Park, C.H. | An omentum-cultured 3D-printed artificial trachea: in vivo bioreactor [Abstract] [BibTeX] | 2018 | Artificial Cells, Nanomedicine, and Biotechnology Vol. 46(sup3), pp. S1131-S1140 | article | DOI |
Ng, W.L., Qi, J.T.Z., Yeong, W.Y. and Naing, M.W. | Proof-of-concept: 3D bioprinting of pigmented human skin constructs [Abstract] [BibTeX] | 2018 | Biofabrication Vol. 10(2), pp. 025005 | article | URL |
Ng, W.L., Goh, M.H., Yeong, W.Y. and Naing, M.W. | Applying macromolecular crowding to 3D bioprinting: fabrication of 3D hierarchical porous collagen-based hydrogel constructs [Abstract] [BibTeX] | 2018 | Biomater. Sci. Vol. 6, pp. 562-574 | article | DOIURL |
Mouser, V.H.M., Levato, R., Mensinga, A., Dhert, W.J.A., Gawlitta, D. and Malda, J. | Bio-ink development for three-dimensional bioprinting of hetero-cellular cartilage constructs [Abstract] [BibTeX] | 2018 | Connective Tissue Research Vol. 0(0), pp. 1-15 | article | DOI |
Liu, F., Hinduja, S. and Bártolo, P. | User interface tool for a novel plasma-assisted bio-additive extrusion system [Abstract] [BibTeX] | 2018 | Rapid Prototyping Journal Vol. 24(2), pp. 368-378 | article | DOI |
Lim, S.H., Kathuria, H., Tan, J.J.Y. and Kang, L. | 3D printed drug delivery and testing systems — a passing fad or the future? [Abstract] [BibTeX] | 2018 | Advanced Drug Delivery Reviews Vol. 132, pp. 139 - 168 | article | DOIURL |
Li, H., Tan, Y.J., Liu, S. and Li, L. | Three-Dimensional Bioprinting of Oppositely Charged Hydrogels with Super Strong Interface Bonding [Abstract] [BibTeX] | 2018 | ACS Applied Materials & Interfaces Vol. 10(13), pp. 11164-11174 | article | DOI |
Li, H., Tan, C. and Li, L. | Review of 3D printable hydrogels and constructs [Abstract] [BibTeX] | 2018 | Materials & Design Vol. 159, pp. 20 - 38 | article | DOIURL |
Lee, M., Bae, K., Guillon, P., Chang, J., Arlov, Ø. and Zenobi-Wong, M. | Exploitation of Cationic Silica Nanoparticles for Bioprinting of Large-Scale Constructs with High Printing Fidelity [Abstract] [BibTeX] | 2018 | ACS Applied Materials & Interfaces Vol. 10(44), pp. 37820-37828 | article | DOI |
Laternser, S., Keller, H., Leupin, O., Rausch, M., Graf-Hausner, U. and Rimann, M. | A Novel Microplate 3D Bioprinting Platform for the Engineering of Muscle and Tendon Tissues [Abstract] [BibTeX] | 2018 | SLAS TECHNOLOGY: Translating Life Sciences Innovation Vol. 0(0), pp. 2472630318776594 | article | DOIURL |
Kuzmenko, V., Karabulut, E., Pernevik, E., Enoksson, P. and Gatenholm, P. | Tailor-made conductive inks from cellulose nanofibrils for 3D printing of neural guidelines [Abstract] [BibTeX] | 2018 | Carbohydrate Polymers Vol. 189, pp. 22 - 30 | article | DOIURL |
Kumari, S., Bargel, H., Anby, M.U., Lafargue, D. and Scheibel, T. | Recombinant Spider Silk Hydrogels for Sustained Release of Biologicals [Abstract] [BibTeX] | 2018 | ACS Biomaterials Science & Engineering Vol. 4(5), pp. 1750-1759 | article | DOI |
Kokkinis, D., Bouville, F. and Studart, A.R. | 3D Printing of Materials with Tunable Failure via Bioinspired Mechanical Gradients [Abstract] [BibTeX] | 2018 | Advanced Materials Vol. 30(19), pp. 1705808 | article | DOI |
Khaled, S.A., Alexander, M.R., Wildman, R.D., Wallace, M.J., Sharpe, S., Yoo, J. and Roberts, C.J. | 3D extrusion printing of high drug loading immediate release paracetamol tablets [Abstract] [BibTeX] | 2018 | International Journal of Pharmaceutics Vol. 538(1), pp. 223 - 230 | article | DOIURL |
Kelder, C., Bakker, A.D., Klein-Nulend, J. and Wismeijer, D. | The 3D Printing of Calcium Phosphate with K-Carrageenan under Conditions Permitting the Incorporation of Biological Components—A Method [Abstract] [BibTeX] | 2018 | Journal of Functional Biomaterials Vol. 9(4) | article | DOIURL |
Huang, Y.-A., Ho, C.T., Lin, Y.-H., Lee, C.-J., Ho, S.-M., Li, M.-C. and Hwang, E. | Nanoimprinted Anisotropic Topography Preferentially Guides Axons and Enhances Nerve Regeneration [Abstract] [BibTeX] | 2018 | Macromolecular Bioscience Vol. 0(0), pp. 1800335 | article | DOI |
Gungor-Ozkerim, P.S., Inci, I., Zhang, Y.S., Khademhosseini, A. and Dokmeci, M.R. | Bioinks for 3D bioprinting: an overview [Abstract] [BibTeX] | 2018 | Biomater. Sci. Vol. 6, pp. 915-946 | article | DOI |
Gretzinger, S., Beckert, N., Gleadall, A., Lee-Thedieck, C. and Hubbuch, J. | 3D bioprinting – Flow cytometry as analytical strategy for 3D cell structures [Abstract] [BibTeX] | 2018 | Bioprinting Vol. 11, pp. e00023 | article | DOIURL |
Fortunato, G.M., Maria, C.D., Eglin, D., Serra, T. and Vozzi, G. | An ink-jet printed electrical stimulation platform for muscle tissue regeneration [Abstract] [BibTeX] | 2018 | Bioprinting Vol. 11, pp. e00035 | article | DOIURL |
Firth, J., Basit, A.W. and Gaisford, S. | The Role of Semi-Solid Extrusion Printing in Clinical Practice [Abstract] [BibTeX] | 2018 | 3D Printing of Pharmaceuticals, pp. 133-151 | inbook | DOI |
Daly, A.C., Pitacco, P., Nulty, J., Cunniffe, G.M. and Kelly, D.J. | 3D printed microchannel networks to direct vascularisation during endochondral bone repair [Abstract] [BibTeX] | 2018 | Biomaterials Vol. 162, pp. 34 - 46 | article | DOIURL |
Couck, S., Saint-Remi, J.C., der Perre, S.V., Baron, G.V., Minas, C., Ruch, P. and Denayer, J.F. | 3D-printed SAPO-34 monoliths for gas separation [Abstract] [BibTeX] | 2018 | Microporous and Mesoporous Materials Vol. 255(Supplement C), pp. 185 - 191 | article | DOIURL |
Chinga-Carrasco, G. | Potential and Limitations of Nanocelluloses as Components in Biocomposite Inks for Three-Dimensional Bioprinting and for Biomedical Devices [Abstract] [BibTeX] | 2018 | Biomacromolecules Vol. 19(3), pp. 701-711 | article | DOI |
Caetano, G.F., Wang, W., Chiang, W.-H., Cooper, G., Diver, C., Blaker, J.J., Frade, M.A. and Bártolo, P. | 3D-Printed Poly(ɛ-caprolactone)/Graphene Scaffolds Activated with P1-Latex Protein for Bone Regeneration [Abstract] [BibTeX] | 2018 | 3D Printing and Additive Manufacturing Vol. 0(0), pp. null | article | DOIURL |
Bastola, A., Paudel, M. and Li, L. | Development of hybrid magnetorheological elastomers by 3D printing [Abstract] [BibTeX] | 2018 | Polymer Vol. 149, pp. 213 - 228 | article | DOIURL |
Banerjee, H. and Ren, H. | Electromagnetically Responsive Soft-Flexible Robots and Sensors for Biomedical Applications and Impending Challenges [Abstract] [BibTeX] | 2018 | Electromagnetic Actuation and Sensing in Medical Robotics, pp. 43-72 | inbook | DOI |
Aied, A., Song, W., Wang, W., Baki, A. and Sigen, A. | 3D Bioprinting of stimuli-responsive polymers synthesised from DE-ATRP into soft tissue replicas [Abstract] [BibTeX] | 2018 | Bioprinting | article | DOIURL |
Suntornnond, R., Tan, E., An, J. and Chua, C. | A highly printable and biocompatible hydrogel composite for direct printing of soft and perfusable vasculature-like structures [Abstract] [BibTeX] | 2017 | Scientific Reports Vol. 7(16902) | article | DOIURL |
Schroeder, T.B.H., Guha, A., Lamoureux, A., VanRenterghem, G., Sept, D., Shtein, M., Yang, J. and Mayer, M. | An electric-eel-inspired soft power source from stacked hydrogels [Abstract] [BibTeX] | 2017 | Nature Vol. 552, pp. 214 | article | DOI |
Nguyen, D., Hägg, D., Forsman, A., Ekholm, J., Nimkingratana, P., Brantsing, C., Kalogeropoulos, T., Zaunz, S., Concaro, S., Brittberg, M., Lindahl, A., Gatenholm, P., Enejder, A. and Simonsson, S. | Cartilage Tissue Engineering by the 3D Bioprinting of iPS Cells in a Nanocellulose/Alginate Bioink [Abstract] [BibTeX] | 2017 | Scientific Reports Vol. 7Scientific Reports | article | DOI |
Freeman, F.E. and Kelly, D.J. | Tuning Alginate Bioink Stiffness and Composition for Controlled Growth Factor Delivery and to Spatially Direct MSC Fate within Bioprinted Tissues [Abstract] [BibTeX] | 2017 | Scientific Reports Vol. 7(1), pp. 17042 | article | DOI |
Levato, R., Webb, W.R., Otto, I.A., Mensinga, A., Zhang, Y., van Rijen, M., van Weeren, R., Khan, I.M. and Malda, J. | The bio in the ink: cartilage regeneration with bioprintable hydrogels and articular cartilage-derived progenitor cells [BibTeX] | 2017 | Acta Biomaterialia Vol. 61(Supplement C), pp. 41-53 | article | URL |
Bertlein, S., Brown, G., Lim, K., Jungst, T., Boeck, T., Blunk, T., Tessmar, J., J. Hooper, G., Woodfield, T. and Groll, J. | Thiol-Ene Clickable Gelatin: A Platform Bioink for Multiple 3D Biofabrication Technologies [Abstract] [BibTeX] | 2017 | Advanced Materials | article | DOI |
Mancini, I., Vindas Bolaños, R., Brommer, H., Castilho, M., Ribeiro, A., van Loon, J., Mensinga, A., Rijen, M., Malda, J. and van Weeren, P. | Fixation of hydrogel constructs for cartilage repair in the equine model: a challenging issue [Abstract] [BibTeX] | 2017 | Tissue Engineering Part C: Methods | article | DOI |
Cunniffe, G., Gonzalez-Fernandez, T., Daly, A., Nelson Sathy, B., Jeon, O., Alsberg, E. and J. Kelly, D. | Three-Dimensional Bioprinting of Polycaprolactone Reinforced Gene Activated Bioinks for Bone Tissue Engineering [Abstract] [BibTeX] | 2017 | Tissue Engineering Part ATissue Engineering Part A | article | DOI |
Abbadessa, A., Landín, M., Oude Blenke, E., Hennink, W.E. and Vermonden, T. | Two-component thermosensitive hydrogels: Phase separation affecting rheological behavior [Abstract] [BibTeX] | 2017 | European Polymer Journal Vol. 92(Supplement C), pp. 13-26 | article | URL |
D'Amora, U., D'Este, M., Eglin, D., Safari, F., Sprecher, C., Gloria, A., De Santis, R., Alini, M. and Ambrosio, L. | Collagen Density Gradient on 3D Printed Poly(ε-Caprolactone) Scaffolds for Interface Tissue Engineering [BibTeX] | 2017 | Journal of tissue engineering and regenerative medicine Vol. 12 | article | DOI |
Bastola, A.K., Hoang, V.T. and Li, L. | A novel hybrid magnetorheological elastomer developed by 3D printing [Abstract] [BibTeX] | 2017 | Materials & Design Vol. 114(Supplement C), pp. 391-397 | article | URL |
Zeng, Q., Macri, L., Prasad, A., Clark, R., Zeugolis, D., Hanley, C., Garcia, Y., Pandit, A., Leavesley, D., Stupar, D., Fernandez, M., Fan, C. and Upton, Z. | 6.20 Skin Tissue Engineering☆ [Abstract] [BibTeX] | 2017 | Comprehensive Biomaterials II\, pp. 334 - 382 | incollection | DOIURL |
Thamm, C., DeSimone, E. and Scheibel, T. | Characterization of Hydrogels Made of a Novel Spider Silk Protein eMaSp1s and Evaluation for 3D Printing [Abstract] [BibTeX] | 2017 | Macromolecular Bioscience Vol. 17(11), pp. 1700141-n/a | article | DOIURL |
Sultan, S., Siqueira, G., Zimmermann, T. and Mathew, A.P. | 3D printing of nano-cellulosic biomaterials for medical applications [Abstract] [BibTeX] | 2017 | Current Opinion in Biomedical Engineering Vol. 2(Supplement C), pp. 29 - 34 | article | DOIURL |
Stichler, S., Böck, T., Paxton, N.C., Bertlein, S., Levato, R., Schill, V., Smolan, W., Malda, J., Tessmar, J., Blunk, T. and Groll, J. | Double printing of hyaluronic acid / poly(glycidol) hybrid hydrogels with poly(ε-caprolactone) for MSC chondrogenesis [Abstract] [BibTeX] | 2017 | Biofabrication | article | DOI |
Sommer, M.R., Alison, L., Minas, C., Tervoort, E., Ruhs, P.A. and Studart, A.R. | 3D printing of concentrated emulsions into multiphase biocompatible soft materials [Abstract] [BibTeX] | 2017 | Soft Matter Vol. 13, pp. 1794-1803 | article | DOI |
Siqueira, G., Kokkinis, D., Libanori, R., Hausmann, M.K., Gladman, A.S., Neels, A., Tingaut, P., Zimmermann, T., Lewis, J.A. and Studart, A.R. | Cellulose Nanocrystal Inks for 3D Printing of Textured Cellular Architectures [Abstract] [BibTeX] | 2017 | Advanced Functional Materials Vol. 27(12), pp. 1604619-n/a | article | DOI |
Schaffner, M., Rühs, P.A., Coulter, F., Kilcher, S. and Studart, A.R. | 3D printing of bacteria into functional complex materials [Abstract] [BibTeX] | 2017 | Science Advances Vol. 3(12) | article | DOIURL |
Ribeiro, A., Blokzijl, M.M., Levato, R., Visser, C.W., Castilho, M., Hennink, W.E., Vermonden, T. and Malda, J. | Assessing bioink shape fidelity to aid material development in 3D bioprinting [Abstract] [BibTeX] | 2017 | Biofabrication | article | DOI |
Reitmaier, S., Kovtun, A., Schuelke, J., Kanter, B., Lemm, M., Hoess, A., Heinemann, S., Nies, B. and Ignatius, A. | Strontium(II) and mechanical loading additively augment bone formation in calcium phosphate scaffolds [Abstract] [BibTeX] | 2017 | Journal of Orthopaedic Research, pp. n/a-n/a | article | DOI |
Peng, W., Datta, P., Ayan, B., Ozbolat, V., Sosnoski, D. and Ozbolat, I.T. | 3D bioprinting for drug discovery and development in pharmaceutics [Abstract] [BibTeX] | 2017 | Acta Biomaterialia Vol. 57, pp. 26 - 46 | article | DOIURL |
Paxton, N.C., Smolan, W., Böck, T., Melchels, F.P.W., Groll, J. and Juengst, T. | Proposal to Assess Printability of Bioinks for Extrusion-Based Bioprinting and Evaluation of Rheological Properties Governing Bioprintability [Abstract] [BibTeX] | 2017 | Biofabrication | article | DOI |
Mouser, V.H.M., Abbadessa, A., Levato, R., Hennink, W.E., Vermonden, T., Gawlitta, D. and Malda, J. | Development of a thermosensitive HAMA-containing bio-ink for the fabrication of composite cartilage repair constructs [Abstract] [BibTeX] | 2017 | Biofabrication Vol. 9(1), pp. 015026 | article | URL |
Lorson, T., Jaksch, S., Lübtow, M.M., Jüngst, T., Groll, J., Lühmann, T. and Luxenhofer, R. | A Thermogelling Supramolecular Hydrogel with Sponge-Like Morphology as a Cytocompatible Bioink [Abstract] [BibTeX] | 2017 | Biomacromolecules Vol. 18(7), pp. 2161-2171 | article | DOI |
Ligon, S.C., Liska, R., Stampfl, J., Gurr, M. and Mülhaupt, R. | Polymers for 3D Printing and Customized Additive Manufacturing [Abstract] [BibTeX] | 2017 | Chemical Reviews Vol. 117(15), pp. 10212-10290 | article | DOI |
Liao, Z., Sinjab, F., Nommeots-Nomm, A., Jones, J., Ruiz-Cantu, L., Yang, J., Rose, F. and Notingher, I. | Feasibility of Spatially Offset Raman Spectroscopy for in Vitro and in Vivo Monitoring Mineralization of Bone Tissue Engineering Scaffolds [Abstract] [BibTeX] | 2017 | Analytical Chemistry Vol. 89(1), pp. 847-853 | article | DOI |
Kuzmenko, V. | Cellulose-derived conductive nanofibrous materials for energy storage and tissue engineering Applications [BibTeX] | 2017 | School: Department of Microtechnology and Nanoscience CHALMERS UNIVERSITY OF TECHNOLOGY | phdthesis | URL |
Huang, Y., Zhang, X.-F., Gao, G., Yonezawa, T. and Cui, X. | 3D bioprinting and the current applications in tissue engineering [Abstract] [BibTeX] | 2017 | Biotechnology Journal Vol. 12(8), pp. 1600734-n/a | article | DOI |
Henriksson, I., Gatenholm, P. and Hägg, D.A. | Increased lipid accumulation and adipogenic gene expression of adipocytes in 3D bioprinted nanocellulose scaffolds [Abstract] [BibTeX] | 2017 | Biofabrication Vol. 9(1), pp. 015022 | article | URL |
DeSimone, E., Schacht, K., Pellert, A. and Scheibel, T. | Recombinant spider silk-based bioinks [Abstract] [BibTeX] | 2017 | Biofabrication Vol. 9(4), pp. 044104 | article | URL |
Dalton, P.D. | Melt electrowriting with additive manufacturing principles [Abstract] [BibTeX] | 2017 | Current Opinion in Biomedical Engineering Vol. 2(Supplement C), pp. 49 - 57 | article | DOIURL |
Choi, Y., Yi, H., Kim, S. and Cho, D. | 3D Cell Printed Tissue Analogues: A New Platform for Theranostics [Abstract] [BibTeX] | 2017 | Theranostics | article | URL |
Charbe, N.B., McCarron, P.A., Lane, M.E. and Tambuwala, M.M. | Application of three-dimensional printing for colon targeted drug delivery systems [Abstract] [BibTeX] | 2017 | International Journal of Pharmaceutical Investigation Vol. 7(2), pp. 47-59 | article | URL |
Borovjagin, A.V., Ogle, B.M., Berry, J.L. and Zhang, J. | From Microscale Devices to 3D Printing [Abstract] [BibTeX] | 2017 | Circulation Research Vol. 120(1), pp. 150-165 | article | DOIURL |
Baumann, B., Jungst, T., Stichler, S., Feineis, S., Wiltschka, O., Kuhlmann, M., Lindén, M. and Groll, J. | Control of Nanoparticle Release Kinetics from 3D Printed Hydrogel Scaffolds [Abstract] [BibTeX] | 2017 | Angewandte Chemie International Edition, pp. n/a-n/a | article | DOI |
Aljohani, W., Ullah, M.W., Zhang, X. and Yang, G. | Bioprinting and its applications in tissue engineering and regenerative medicine [Abstract] [BibTeX] | 2017 | International Journal of Biological Macromolecules | article | DOIURL |
Bastola, A., Hoang Tan, V. and Lin, L. | Magnetorheological Elastomer: A novel approach of synthesis [Abstract] [BibTeX] | 2016 | 2ND INTERNATIONAL CONFERENCE IN SPORTS SCIENCE & TECHNOLOGY, At NTU, Singapore | conference | URL |
Durual, S. | Impression 3D et régénération osseuse, un mariage plein d'avenir [BibTeX] | 2016 | Biomateriaux Cliniques Vol. 1BioMatériaux Cliniques, pp. 58-61 | article | URL |
Gudapati, H., Dey, M. and Ozbolat, I. | A comprehensive review on droplet-based bioprinting: Past, present and future. [Abstract] [BibTeX] | 2016 | Biomaterials Vol. 102, pp. 20-42 | article | URL |
Sears, N.A., Seshadri, D.R., Dhavalikar, P.S. and Cosgriff-Hernandez, E. | A Review of Three-Dimensional Printing in Tissue Engineering [Abstract] [BibTeX] | 2016 | Tissue Engineering Part B: Reviews Vol. 22(4), pp. 298-310 | article | DOI |
Wang, W., Caetano, G., Chiang, W.-H., Sousa, A.L., Blaker, J., Frade, M.A.R.C.O., Frade, C. and Jorge Bártolo, P. | Morphological, mechanical and biological assessment of PCL/pristine graphene scaffolds for bone regeneration [Abstract] [BibTeX] | 2016 | International Journal of Bioprinting Vol. 2, pp. 95-105 | article | URL |
Visscher, D.O., Bos, E.J., Peeters, M., Kuzmin, N.V., Groot, M.L., Helder, M.N. and van Zuijlen, P.P.M. | Cartilage Tissue Engineering: Preventing Tissue Scaffold Contraction Using a 3D-Printed Polymeric Cage. [Abstract] [BibTeX] | 2016 | Tissue engineering Part C, Methods Vol. 22, pp. 573-84 | article | URL |
Stichler, S., Jungst, T., Schamel, M., Zilkowski, I., Kuhlmann, M., Bock, T., Blunk, T., Tessmar, J. and Groll, J. | Thiol-ene Clickable Poly(glycidol) Hydrogels for Biofabrication. [Abstract] [BibTeX] | 2016 | Annals of biomedical engineering | article | URL |
Kesti, M., Fisch, P., Pensalfini, M., Mazza, E. and Zenobi-Wong, M. | Guidelines for standardization of bioprinting: a systematic study of process parameters and their effect on bioprinted structures [Abstract] [BibTeX] | 2016 | BioNanoMaterials Vol. 17(3-4), pp. 193-204 | article | DOI |
Durual, S. | Emergence d'une nouvelle génération de substituts osseux synthétiques imprimés en 3D [BibTeX] | 2016 | BIOMATERIAUX D’AUJOURD’HUI ET DE DEMAINBI Vol. Hors-sérieJournal de parodontologie et d'implantologie orale, pp. 63-67 | article | URL |
Khati, V., Kellomäki, M. and Anderson, H.S. | Development of a Robust Decellularized Extracellular Matrix Bioink for 3D Bioprinting [Abstract] [BibTeX] | 2016 | School: Tampere University of Technology | mastersthesis | |
Wu, C., Wang, B., Zhang, C., Wysk, R.A. and Chen, Y.-W. | Bioprinting: an assessment based on manufacturing readiness levels [Abstract] [BibTeX] | 2016 | Critical Reviews in Biotechnology Vol. 0(0), pp. 1-22 | article | DOI |
Wang, W.G., Chang, W.H. and Bartolo, P.J. | Design, fabrication and evaluation of pcl-graphene scaffolds for bone regeneration [Abstract] [BibTeX] | 2016 | Proceedings of the 2nd International Conference on Progress in Additive Manufacturing (Pro-AM 2016) | conference | DOI |
Visscher, D.O., Farré-Guasch, E., Helder, M.N., Gibbs, S., Forouzanfar, T., van Zuijlen, P.P. and Wolff, J. | Advances in Bioprinting Technologies for Craniofacial Reconstruction [Abstract] [BibTeX] | 2016 | Trends in Biotechnology Vol. 34(9), pp. 700-710 | article | DOI |
Suntornnond, R., Tan, E.Y.S., An, J. and Chua, C.K. | A Mathematical Model on the Resolution of Extrusion Bioprinting for the Development of New Bioinks [Abstract] [BibTeX] | 2016 | Materials Vol. 9(9), pp. 756 | article | DOIURL |
Suntornnond, R., An, J. and Chua, C.K. | A Preliminary Study on the Extrusion Resolution of Pluronic F127 for Bioprinting Thermo-responsive Hydrogel Constructs [Abstract] [BibTeX] | 2016 | Proceedings of the 2nd International Conference on Progress in Additive Manufacturing (Pro-AM 2016) | conference | URL |
Sommer, M.R., Schaffner, M., Carnelli, D. and Studart, A.R. | 3D Printing of Hierarchical Silk Fibroin Structures [Abstract] [BibTeX] | 2016 | ACS Applied Materials & Interfaces Vol. 8(50), pp. 34677-34685 | article | DOI |
Ruiz-Cantu, L., Gleadall, A., Faris, C., Segal, J., Shakesheff, K. and Yang, J. | Characterisation of the surface structure of 3D printed scaffolds for cell infiltration and surgical suturing [Abstract] [BibTeX] | 2016 | Biofabrication Vol. 8(1), pp. 015016 | article | URL |
Raphael, B., Khalil, T., Workman, V.L., Smith, A., Brown, C.P., Streulli, C., Saiani, A. and Domingos, M. | 3D cell bioprinting of self-assembling peptide-based hydrogels [Abstract] [BibTeX] | 2016 | Materials Letters | article | DOIURL |
Passamai, V.E., Dernowsek, J.A., Nogueira, J., Lara, V., Vilalba, F., Mironov, V.A., Rezende, R.A. and da Silva, J.V. | From 3D Bioprinters to a fully integrated Organ Biofabrication Line [Abstract] [BibTeX] | 2016 | Journal of Physics: Conference Series Vol. 705(1), pp. 012010 | article | URL |
Ozbolat, I.T., Peng, W. and Ozbolat, V. | Application areas of 3D bioprinting [Abstract] [BibTeX] | 2016 | Drug Discovery Today Vol. 21(8), pp. 1257-1271 | article | DOIURL |
Ozbolat, I.T., Moncal, K.K. and Gudapati, H. | Evaluation of bioprinter technologies [Abstract] [BibTeX] | 2016 | Additive Manufacturing | article | DOIURL |
Ozbolat, I.T. and Hospodiuk, M. | Current advances and future perspectives in extrusion-based bioprinting [Abstract] [BibTeX] | 2016 | Biomaterials Vol. 76, pp. 321-343 | article | DOIURL |
Ng, W.L., Yeong, W.Y. and Naing, M.W. | Polyelectrolyte gelatin-chitosan hydrogel optimized for 3D bioprinting in skin tissue engineering [Abstract] [BibTeX] | 2016 | International Journal of Bioprinting Vol. 2(1) | article | DOIURL |
Müller, M., Öztürk, E., Arlov, Ø., Gatenholm, P. and Zenobi-Wong, M. | Alginate Sulfate--Nanocellulose Bioinks for Cartilage Bioprinting Applications [Abstract] [BibTeX] | 2016 | Annals of Biomedical Engineering, pp. 1-14 | article | DOI |
Minas, C., Carnelli, D., Tervoort, E. and Studart, A.R. | 3D Printing of Emulsions and Foams into Hierarchical Porous Ceramics [Abstract] [BibTeX] | 2016 | Advanced Materials Vol. 28(45), pp. 9993-9999 | article | DOI |
Melchels, F.P.W., Blokzijl, M.M., Levato, R., Peiffer, Q.C., de Ruijter, M., Hennink, W.E., Vermonden, T. and Malda, J. | Hydrogel-based reinforcement of 3D bioprinted constructs [Abstract] [BibTeX] | 2016 | Biofabrication Vol. 8(3), pp. 035004 | article | URL |
Hou, X., Liu, S., Wang, M., Wiraja, C., Huang, W., Chan, P., Tan, T. and Xu, C. | Layer-by-Layer 3D Constructs of Fibroblasts in Hydrogel for Examining Transdermal Penetration Capability of Nanoparticles [Abstract] [BibTeX] | 2016 | Journal of Laboratory Automation | article | DOIURL |
Hölzl, K., Lin, S., Tytgat, L., Vlierberghe, S.V., Gu, L. and Ovsianikov, A. | Bioink properties before, during and after 3D bioprinting [Abstract] [BibTeX] | 2016 | Biofabrication Vol. 8(3), pp. 032002 | article | URL |
Heinzelmann, E. | Olten Meeting 2015 Antibiotics and Bioprinting for a better life [Abstract] [BibTeX] | 2016 | CHIMIA International Journal for Chemistry Vol. 70(1), pp. 112-115 | article | DOIURL |
Håkansson, K.M.O., Henriksson, I.C., de la Peña Vázquez, C., Kuzmenko, V., Markstedt, K., Enoksson, P. and Gatenholm, P. | Solidification of 3D Printed Nanofibril Hydrogels into Functional 3D Cellulose Structures [Abstract] [BibTeX] | 2016 | Advanced Materials Technologies Vol. 1(7), pp. 1600096-n/a | article | DOI |
Gu, B.K., Choi, D.J., Park, S.J., Kim, M.S., Kang, C.M. and Kim, C.-H. | 3-dimensional bioprinting for tissue engineering applications [Abstract] [BibTeX] | 2016 | Biomaterials Research Vol. 20(1), pp. 12 | article | DOI |
Gross, B., Lockwood, S.Y. and Spence, D.M. | Recent Advances in Analytical Chemistry by 3D Printing [BibTeX] | 2016 | Analytical Chemistry Vol. 0(0) | article | DOI |
Geven, M.A., Sprecher, C., Guillaume, O., Eglin, D. and Grijpma, D.W. | Micro-porous composite scaffolds of photo-crosslinked poly(trimethylene carbonate) and nano-hydroxyapatite prepared by low-temperature extrusion-based additive manufacturing [Abstract] [BibTeX] | 2016 | Polymers for Advanced Technologies | article | DOI |
Daly, A.C., Cunniffe, G.M., Sathy, B.N., Jeon, O., Alsberg, E. and Kelly, D.J. | 3D Bioprinting of Developmentally Inspired Templates for Whole Bone Organ Engineering [Abstract] [BibTeX] | 2016 | Advanced Healthcare Materials Vol. 5(18), pp. 2353-2362 | article | DOI |
Daly, A.C., Critchley, S.E., Rencsok, E.M. and Kelly, D.J. | A comparison of different bioinks for 3D bioprinting of fibrocartilage and hyaline cartilage [Abstract] [BibTeX] | 2016 | Biofabrication Vol. 8(4), pp. 045002 | article | URL |
Carrel, J., Wiskott, A., Scherrer, S. and Durual, S. | Large Bone Vertical Augmentation Using a Three‐Dimensional Printed TCP/HA Bone Graft: A Pilot Study in Dog Mandible [Abstract] [BibTeX] | 2016 | Clinical Implant Dentistry and Related Research Vol. 18(6), pp. 1183-1192 | article | DOI |
Caetano, G., Violante, R., Sant’Ana, A.B., Murashima, A.B., Domingos, M., Gibson, A., Bártolo, P. and Frade, M.A. | Cellularized versus decellularized scaffolds for bone regeneration [Abstract] [BibTeX] | 2016 | Materials Letters Vol. 182, pp. 318-322 | article | DOIURL |
Ávila, H.M., Schwarz, S., Rotter, N. and Gatenholm, P. | 3D bioprinting of human chondrocyte-laden nanocellulose hydrogels for patient-specific auricular cartilage regeneration [Abstract] [BibTeX] | 2016 | Bioprinting Vol. 1–2, pp. 22-35 | article | DOIURL |
Arslan-Yildiz, A., Assal, R.E., Chen, P., Guven, S., Inci, F. and Demirci, U. | Towards artificial tissue models: past, present, and future of 3D bioprinting [Abstract] [BibTeX] | 2016 | Biofabrication Vol. 8(1), pp. 014103 | article | URL |
Abbadessa, A., Mouser, V.H.M., Blokzijl, M.M., Gawlitta, D., Dhert, W.J.A., Hennink, W.E., Malda, J. and Vermonden, T. | A Synthetic Thermosensitive Hydrogel for Cartilage Bioprinting and Its Biofunctionalization with Polysaccharides [Abstract] [BibTeX] | 2016 | Biomacromolecules Vol. 17(6), pp. 2137-2147 | article | DOI |
Abbadessa, A., Blokzijl, M., Mouser, V., Marica, P., Malda, J., Hennink, W. and Vermonden, T. | A thermo-responsive and photo-polymerizable chondroitin sulfate-based hydrogel for 3D printing applications [Abstract] [BibTeX] | 2016 | Carbohydrate Polymers Vol. 149, pp. 163-174 | article | DOIURL |
Kokkinis, D., Schaffner, M. and Studart, A.R. | Multimaterial magnetically assisted 3D printing of composite materials [BibTeX] | 2015 | Nature Communications Vol. 6, pp. 8643 | article | DOI |
Rimann, M., Bono, E., Annaheim, H., Bleisch, M. and Graf-Hausner, U. | Standardized 3D Bioprinting of Soft Tissue Models with Human Primary Cells. [Abstract] [BibTeX] | 2015 | Journal of laboratory automation Vol. 21, pp. 496-509 | article | DOI |
Ho, C.M.B., Ng, S.H. and Yoon, Y.-J. | A review on 3D printed bioimplants [Abstract] [BibTeX] | 2015 | International Journal of Precision Engineering and Manufacturing Vol. 16(5), pp. 1035-1046 | article | DOI |
Moussa, M., Carrel, J.-P., Scherrer, S., Cattani-Lorente, M., Wiskott, A. and Durual, S. | Medium-Term Function of a 3D Printed TCP/HA Structure as a New Osteoconductive Scaffold for Vertical Bone Augmentation: A Simulation by BMP-2 Activation [Abstract] [BibTeX] | 2015 | Materials Vol. 8Materials, pp. 2174 | article | DOIURL |
Markstedt, K., Mantas, A., Tournier, I., Martínez Ávila, H., Hägg, D. and Gatenholm, P. | 3D Bioprinting Human Chondrocytes with Nanocellulose-Alginate Bioink for Cartilage Tissue Engineering Applications [Abstract] [BibTeX] | 2015 | Biomacromolecules Vol. 16(5), pp. 1489-1496 | article | DOI |
Knoll, S. | Niere aus dem Drucker? Sag niemals nie [Abstract] [BibTeX] | 2015 | Medizin&Technik Vol. 01(02), pp. 44-47 | article | URL |
Rimann, M., Laternser, S., Keller, H., Leupin, O. and Graf-Hausner, U. | 3D Bioprinted Muscle and Tendon Tissues for Drug Development [BibTeX] | 2015 | CHIMIA International Journal for Chemistry Vol. 69(1), pp. 65-67 | article | DOI |
Horvath, L., Umehara, Y., Jud, C., Blank, F., Petri-Fink, A. and Rothen-Rutishauser, B. | Engineering an in vitro air-blood barrier by 3D bioprinting. [Abstract] [BibTeX] | 2015 | Scientific reports Vol. 5, pp. 7974 | article | |
Tan, E.Y.S. and Yeong, W.Y. | Concentric bioprinting of alginate-based tubular constructs using multi-nozzle extrusion-based technique [Abstract] [BibTeX] | 2015 | International Journal of Bioprinting Vol. 1, pp. 49-56 | article | |
Schuddeboom, M. | Biofabrication of Perfusable Liver Constructs [BibTeX] | 2015 | School: Utrecht University - Faculty of Veterinary Medicine | mastersthesis | URL |
Schacht, K., Jüngst, T., Schweinlin, M., Ewald, A., Groll, J. and Scheibel, T. | Biofabrication of Cell-Loaded 3D Spider Silk Constructs [Abstract] [BibTeX] | 2015 | Angewandte Chemie International Edition Vol. 54(9), pp. 2816-2820 | article | DOI |
Müller, M., Becher, J., Schnabelrauch, M. and Zenobi-Wong, M. | Nanostructured Pluronic hydrogels as bioinks for 3D bioprinting [Abstract] [BibTeX] | 2015 | Biofabrication Vol. 7(3), pp. 035006 | article | URL |
Khaled, S.A., Burley, J.C., Alexander, M.R., Yang, J. and Roberts, C.J. | 3D printing of tablets containing multiple drugs with defined release profiles [Abstract] [BibTeX] | 2015 | International Journal of Pharmaceutics Vol. 494(2), pp. 643-650 | article | DOIURL |
Khaled, S.A., Burley, J.C., Alexander, M.R., Yang, J. and Roberts, C.J. | 3D printing of five-in-one dose combination polypill with defined immediate and sustained release profiles [Abstract] [BibTeX] | 2015 | Journal of Controlled Release Vol. 217, pp. 308-314 | article | DOIURL |
Kesti, M., Eberhardt, C., Pagliccia, G., Kenkel, D., Grande, D., Boss, A. and Zenobi-Wong, M. | Bioprinting Complex Cartilaginous Structures with Clinically Compliant Biomaterials [Abstract] [BibTeX] | 2015 | Advanced Functional Materials Vol. 25(48), pp. 7406-7417 | article | DOI |
Hockaday, L. | 3D Bioprinting: A Deliberate Business [BibTeX] | 2015 | Genetic Engineering & Biotechnology News Vol. 35(1), pp. 14-17 | article | DOI |
Graf-Hausner, U., Rimann, M., Bono, E., Laternser, S. and Bleisch, M. | A novel multiwell device for drug development with bioprinted 3D human tendon and skeletal muscle tissues [Abstract] [BibTeX] | 2015 | poster | URL | |
Chee Kai Chua, K.F.L. | 3D Printing and Additive Manufacturing [BibTeX] | 2014 | book | URL | |
Rimann, M. and Graf-Hausner, U. | Bioprinting und in vitro-Modelle zur Wirkstoffentwicklung [Abstract] [BibTeX] | 2014 | poster | URL | |
Markstedt, K., Tournier, I., Mantas, A., Hägg, D. and Gatenholm, P. | 3D BIOPRINTING OF LIVING TISSUE WITH NANOCELLULOSE “INK”- CELLINK [Abstract] [BibTeX] | 2014 | poster | ||
Kesti, M., Müller, M., Becher, J., Schnabelrauch, M., D’Este, M., Eglin, D. and Zenobi-Wong, M. | A versatile bioink for three-dimensional printing of cellular scaffolds based on thermally and photo-triggered tandem gelation [Abstract] [BibTeX] | 2014 | Acta Biomaterialia Vol. 11, pp. 162-172 | article | DOIURL |
Carrel, J.-P., Wiskott, A., Moussa, M., Rieder, P., Scherrer, S. and Durual, S. | A 3D printed TCP/HA structure as a new osteoconductive scaffold for vertical bone augmentation [Abstract] [BibTeX] | 2014 | Clinical Oral Implants Research Vol. 27(1), pp. 55-62 | article | DOI |
Rezende, R.A., Selishchev, S.V., Kasyanov, V.A., da Silva, J.V.L. and Mironov, V.A. | An Organ Biofabrication Line: Enabling Technology for Organ Printing. Part II: from Encapsulators to Biofabrication Line [Abstract] [BibTeX] | 2013 | Biomedical Engineering Vol. 47(4), pp. 213-218 | article | DOI |
Müller, M., Becher, J., Schnabelrauch, M. and Zenobi-Wong, M. | Printing thermoresponsive reverse molds for the creation of patterned two-component hydrogels for 3D cell culture. [Abstract] [BibTeX] | 2013 | Journal of visualized experiments : JoVE, pp. 1-9 | article | URL |
RegenHU | Product information: 3D organomimetic models for tissue engineering [BibTeX] | 2013 | Biotechnology Journal Vol. 8(3), pp. 283-283 | article | DOI |
Müller, M., Studer, D., Maniura-Weber, K. and Zenobi-Wong, M. | Novel bioprinted co-culture system fro investigating chondrogenesis [BibTeX] | 2012 | poster | ||
Graf-Hausner, U., Rimann, M. and Annaheim, H. | Skin Bioprinting: an innovative approach to produce standardized skin models on demand [Abstract] [BibTeX] | 2012 | poster | URL | |
Bleisch, M., Kuster, M., Thurner, M., Meier, C., Bossen, A. and Graf-Hausner, U. | Organomimetic skin model production based on a novel bioprinting technology [Abstract] [BibTeX] | 2012 | poster | URL |