Biblio

Author [ Title(Desc)] Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
3
Nowicki, M.A., Castro, N.J., Plesniak, M.W., and Zhang, L.Grace (2016). 3D printing of novel osteochondral scaffolds with graded microstructure.Nanotechnology27, 414001.
Komlev, V.S., Popov, V.K., Mironov, A.V., Fedotov, A.Yu, Teterina, A.Yu, Smirnov, I.V., Bozo, I.Y., Rybko, V.A., and Deev, R.V. (2015). 3D Printing of Octacalcium Phosphate Bone Substitutes.Front Bioeng Biotechnol3, 81.
Mironov, A.V., Grigoryev, A.M., Krotova, L.I., Skaletsky, N.N., Popov, V.K., and Sevastianov, V.I. (2016). 3D Printing of PLGA Scaffolds for Tissue Engineering.J Biomed Mater Res A.
Motealleh, A., Celebi-Saltik, B., Ermis, N., Nowak, S., Khademhosseini, A., and Kehr, N.Seda (2019). 3D printing of step-gradient nanocomposite hydrogels for controlled cell migration.Biofabrication.
Duttenhoefer, F., R de Freitas, L., Meury, T., Loibl, M., Benneker, L.M., Richards, R.G., Alini, M., and Verrier, S. (2013). 3D scaffolds co-seeded with human endothelial progenitor and mesenchymal stem cells: Evidence of prevascularisation within 7 days.Eur Cell Mater26, 49-65.
Chen, G., Dong, C., Yang, L., and Lv, Y. (2015). 3D Scaffolds with Different Stiffness but Same Microstructure for Bone Tissue Engineering.Acs Appl Mater Interfaces.
Campisi, M., Shin, Y., Osaki, T., Hajal, C., Chiono, V., and Kamm, R.D. (2018). 3D self-organized microvascular model of the human blood-brain barrier with endothelial cells, pericytes and astrocytes.Biomaterials180, 117-129.
Ma, Y., Lin, M., Huang, G., Li, Y., Wang, S., Bai, G., Lu, T.Jian, and Xu, F. (2018). 3D Spatiotemporal Mechanical Microenvironment: A Hydrogel-Based Platform for Guiding Stem Cell Fate.Adv Matere1705911.
Xu, Y., Shi, T., Xu, A., and Zhang, L. (2016). 3D spheroid culture enhances survival and therapeutic capacities of MSCs injected into ischemic kidney.J Cell Mol Med.
Giles, R.H., Ajzenberg, H., and Jackson, P.K. (2014). 3D spheroid model of mIMCD3 cells for studying ciliopathies and renal epithelial disorders.Nat Protoc9, 2725-2731.
de la Puente, P., Muz, B., Gilson, R.C., Azab, F., Luderer, M., King, J., Achilefu, S., Vij, R., and Azab, A.Kareem (2015). 3D tissue-engineered bone marrow as a novel model to study pathophysiology and drug resistance in multiple myeloma.Biomaterials73, 70-84.
Kunz, L., and Schroeder, T. (2019). A 3D Tissue-wide Digital Imaging Pipeline for Quantitation of Secreted Molecules Shows Absence of CXCL12 Gradients in Bone Marrow.Cell Stem Cell25, 846-854.e4.
Beigi, M.-H., Safaie, N., Nasr-Esfahani, M.-H., and Kiani, A. (2019). 3D Titania Nanofiber-Like Webs Induced by Plasma Ionization: A New Direction for Bioreactivity and Osteoinductivity Enhancement of Biomaterials.Sci Rep9, 17999.
Bongio, M., Lopa, S., Gilardi, M., Bersini, S., and Moretti, M. (2016). A 3D vascularized bone remodeling model combining osteoblasts and osteoclasts in a CaP nanoparticle-enriched matrix.Nanomedicine (Lond).
Kawaguchi, N., Hatta, K., and Nakanishi, T. (2013). 3D-Culture System for Heart Regeneration and Cardiac Medicine.Biomed Res Int2013, 895967.
Joshi, P., Yu, K.-N., Kang, S.-Y., Kwon, S.Joon, Kwon, P.S., Dordick, J.S., Kothapalli, C.R., and Lee, M.-Y. (2018). 3D-cultured neural stem cell microarrays on a micropillar chip for high-throughput developmental neurotoxicology.Exp Cell Res.
Mayr, C., Wagner, A., Stoecklinger, A., Jakab, M., Illig, R., Berr, F., Pichler, M., DI Fazio, P., Ocker, M., Neureiter, D., et al. (2015). 3-Deazaneplanocin A May Directly Target Putative Cancer Stem Cells in Biliary Tract Cancer.Anticancer Res35, 4697-705.
Kwon, D.Rak, Jung, S., Jang, J., Park, G.-Y., Moon, Y.Suk, and Lee, S.Chul (2020). A 3-Dimensional Bioprinted Scaffold With Human Umbilical Cord Blood-Mesenchymal Stem Cells Improves Regeneration of Chronic Full-Thickness Rotator Cuff Tear in a Rabbit Model.Am J Sports Med48, 947-958.
Park, J.Hong, Jung, S.Yeon, Lee, C.-K., Ban, M.Jin, Lee, S.Jin, Kim, H.Yeong, Oh, H.Ju, Kim, B.Kook, Park, H.Sang, Jang, S.-H., et al. (2019). A 3D-printed polycaprolactone/β-tricalcium phosphate mandibular prosthesis: A pilot animal study.Laryngoscope.
Fairag, R., Rosenzweig, D., Garcialuna, J.Luis Ramir, Weber, M.H., and Haglund, L. (2019). 3D-Printed Polylactic Acid (PLA) Scaffolds Promote Bone-like Matrix Deposition In-vitro.Acs Appl Mater Interfaces.
Chen, M., Vial, M.-L., and St John, J.A. (2019). 3D-tips: user-friendly mesh barrier pipette tips for 3D-spheroid culture.J Biol Eng13, 80.
Bae, I.Hwa, Lee, W.Sang, Yun, D.Ho, Han, Y.-H., and Lee, J.-S. (2014). 3-Hydroxy-3', 4'-dimethoxyflavone suppresses Bcl-w-induced invasive potentials and stemness in glioblastoma multiforme.Biochem Biophys Res Commun.
Wang, Y., Zhao, Z., Rege, S.V., Wang, M., Si, G., Zhou, Y., Wang, S., Griffin, J.H., Goldman, S.A., and Zlokovic, B.V. (2016). 3K3A-activated protein C stimulates postischemic neuronal repair by human neural stem cells in mice.Nat Med.
Ostrakhovitch, E.A., Akakura, S., Sanokawa-Akakura, R., and Tabibzadeh, S. (2019). 3-Mercaptopyruvate sulfurtransferase disruption in dermal fibroblasts facilitates adipogenic trans-differentiation.Exp Cell Res111683.
Quaade, M.Louise, Jensen, C.Harken, Andersen, D.Caroline, and Sheikh, S.Paludan (2016). A 3-month age difference profoundly alters the primary rat stromal vascular fraction phenotype.Acta Histochem.

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