regenhu文献,regenhu生物3D打印机应用文献,3Ddiscovery文献

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regenhu 3Ddiscovery文献列表


Author

Title

Year

Journal/Proceedings

Reftype

DOI/URL

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

DOI URL 

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

DOI URL 

Caetano, G.F., Wang, W., Chiang, W.-H., Cooper, G., Diver, C., Blaker, J.J., Frade, M.A. and Bártolo, P.

3D-Printed Poly(?-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

DOI URL 

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

DOI URL 

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

DOI URL 

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

DOI URL 

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  

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

DOI URL 

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  

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

DOI URL 

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 

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 

Romanazzo, S., Vedicherla, S., Moran, C. and Kelly, D.J.

Meniscus ECMfunctionalised hydrogels containing infrapatellar fat padderived 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  

de Ruijter, M., Ribeiro, A., Dokter, I., Castilho, M. and Malda, J.

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

DOI URL 

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  

Schmieg, B., Schimek, A. and Franzreb, M.

Development and performance of a 3Dprintable PolyethylenglycolDiacrylate hydrogel suitable for enzyme entrapment and longterm biocatalytic applications

[Abstract] [BibTeX]

2018

Engineering in Life Sciences
Vol. 0(ja) 

article

DOI URL 

Shi, P., Tan, Y.S.E., Yeong, W.Y., Li, H.Y. and Laude, A.

A bilayer photoreceptorretinal tissue model with gradient cell density design: A study of microvalvebased bioprinting

[Abstract] [BibTeX]

2018

Journal of Tissue Engineering and Regenerative Medicine
Vol. 12(5), pp. 1297-1306 

article

DOI  

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  

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 

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

DOI URL 

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 

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  

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  

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

DOI 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 

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 

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  

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

DOI 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 

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  

Henriksson, I., Gatenholm, P. and H?gg, 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 

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  

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 

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 

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  

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  

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  

Mancini, I., Vindas Bola?os, 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  

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 

Nguyen, D., H?gg, 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  

Paxton, N.C., Smolan, W., B?ck, 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  

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

DOI URL 

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  

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  

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

DOI URL 

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  

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  

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  

Stichler, S., B?ck, 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  

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

DOI URL 

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

DOI URL 

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

DOI 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

DOI URL 

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

DOI 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  

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 

?vila, 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

DOI URL 

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 

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

DOI URL 

Carrel, J., Wiskott, A., Scherrer, S. and Durual, S.

Large Bone Vertical Augmentation Using a ThreeDimensional 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  

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 

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  

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 

Durual, S.

Impression 3D et régénération osseuse, un mariage plein d'avenir

[BibTeX]

2016

Biomateriaux Cliniques
Vol. 1BioMatériaux Cliniques, pp. 58-61 

article

URL 

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  

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  

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  

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 

H?kansson, K.M.O., Henriksson, I.C., de la Pe?a 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  

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

DOI URL 

H?lzl, 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 

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

DOI 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  

Khati, V., Kellom?ki, 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

 

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 

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  

Müller, M., ?ztürk, E., Arlov, ?., 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  

Ng, W.L., Wang, S., Yeong, W.Y. and Naing, M.W.

Skin Bioprinting: Impending Reality or Fantasy?

[Abstract] [BibTeX]

2016

Trends in Biotechnology
Vol. 34(9), pp. 689-699 

article

DOI  

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

DOI URL 

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

DOI URL 

Ozbolat, I.T., Moncal, K.K. and Gudapati, H.

Evaluation of bioprinter technologies

[Abstract] [BibTeX]

2016

Additive Manufacturing 

article

DOI 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

DOI URL 

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 

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

DOI URL 

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 

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  

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  

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 

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 

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

DOI 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 

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 URL 

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 

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  

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  

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 

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  

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

 

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  

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

DOI 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

DOI URL 

Knoll, S.

Niere aus dem Drucker? Sag niemals nie

[Abstract] [BibTeX]

2015

Medizin&Technik
Vol. 01(02), pp. 44-47 

article

URL 

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  

Markstedt, K., Mantas, A., Tournier, I., Martínez ?vila, H., H?gg, 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  

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

DOI URL 

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 

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  

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  

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  

Schuddeboom, M.

Biofabrication of Perfusable Liver Constructs

[BibTeX]

2015

School: Utrecht University - Faculty of Veterinary Medicine 

mastersthesis

URL 

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

 

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  

Chee Kai Chua, K.F.L.

3D Printing and Additive Manufacturing

[BibTeX]

2014

 

book

URL 

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

DOI URL 

Markstedt, K., Tournier, I., Mantas, A., H?gg, D. and Gatenholm, P.

3D BIOPRINTING OF LIVING TISSUE WITH NANOCELLULOSE “INK”- CELLINK

[Abstract] [BibTeX]

2014

 

poster

 

Rimann, M. and Graf-Hausner, U.

Bioprinting und in vitro-Modelle zur Wirkstoffentwicklung

[Abstract] [BibTeX]

2014

 

poster

URL 

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  

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  

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 

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 

Müller, M., Studer, D., Maniura-Weber, K. and Zenobi-Wong, M.

Novel bioprinted co-culture system fro investigating chondrogenesis

[BibTeX]

2012

 

poster