| scholarly article | Q13442814 |
| P356 | DOI | 10.1155/2012/149264 |
| P2093 | author name string | Vladimir Mironov | |
| Xuejun Wen | |||
| Vladimir Kasyanov | |||
| Fábio de Souza Azevedo | |||
| Frederico David Pereira | |||
| Jorge Vicente Lopes de Silva | |||
| Rodrigo A. Rezende | |||
| P2860 | cites work | Three-dimensional magnetic assembly of microscale hydrogels. | Q30459389 |
| Coaxial electrospinning of (fluorescein isothiocyanate-conjugated bovine serum albumin)-encapsulated poly(epsilon-caprolactone) nanofibers for sustained release. | Q33239280 | ||
| The evaluation of individual dispersion of single-walled carbon nanotubes using absorption and fluorescence spectroscopic techniques | Q33307734 | ||
| Nanotechnological strategies for engineering complex tissues | Q33760912 | ||
| Microintegrating smooth muscle cells into a biodegradable, elastomeric fiber matrix | Q33802398 | ||
| Organ printing: computer-aided jet-based 3D tissue engineering | Q34188710 | ||
| Nanotechnology: convergence with modern biology and medicine | Q34212582 | ||
| Three-dimensional tissue culture based on magnetic cell levitation. | Q34617745 | ||
| Organ printing: promises and challenges | Q34729579 | ||
| Nano-featured scaffolds for tissue engineering: a review of spinning methodologies | Q36437166 | ||
| Carbon nanotube applications for tissue engineering | Q36578293 | ||
| Mag-seeding of rat bone marrow stromal cells into porous hydroxyapatite scaffolds for bone tissue engineering. | Q50877214 | ||
| Microfluidic assembly of homogeneous and Janus colloid-filled hydrogel granules. | Q51125335 | ||
| Electrospun protein fibers as matrices for tissue engineering. | Q51466655 | ||
| Bioprinting is coming of age: Report from the International Conference on Bioprinting and Biofabrication in Bordeaux (3B'09). | Q53168602 | ||
| Design strategies of tissue engineering scaffolds with controlled fiber orientation | Q36828786 | ||
| Nanofabrication and microfabrication of functional materials for tissue engineering | Q36828810 | ||
| Nanofiber technology: designing the next generation of tissue engineering scaffolds. | Q36960693 | ||
| Nanotechnology in regenerative medicine: the materials side | Q37013393 | ||
| Nanotechnology in vascular tissue engineering: from nanoscaffolding towards rapid vessel biofabrication | Q37142650 | ||
| Nanotechnology for regenerative medicine | Q37354943 | ||
| Organ printing: tissue spheroids as building blocks | Q37379489 | ||
| Nanofibrous composites for tissue engineering applications | Q37668331 | ||
| Nanotechnologies in regenerative medicine | Q37760213 | ||
| Biofabrication: a 21st century manufacturing paradigm | Q37784651 | ||
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| Nanomechanics to drive stem cells in injured tissues: insights from current research and future perspectives. | Q37804863 | ||
| Nanomaterials for regenerative medicine | Q37823603 | ||
| Organ printing: from bioprinter to organ biofabrication line | Q37855022 | ||
| Fabrication of large pores in electrospun nanofibrous scaffolds for cellular infiltration: a review. | Q37929214 | ||
| Tissue engineering using magnetite nanoparticles. | Q37957328 | ||
| Functionalized nanostructures with application in regenerative medicine | Q38001430 | ||
| Novel methodology for fabrication of tissue-engineered tubular constructs using magnetite nanoparticles and magnetic force. | Q40356384 | ||
| Electrospinning collagen and elastin: preliminary vascular tissue engineering | Q40587302 | ||
| Functionality of endothelial cells on silk fibroin nets: comparative study of micro- and nanometric fibre size | Q42031685 | ||
| Effective cell-seeding technique using magnetite nanoparticles and magnetic force onto decellularized blood vessels for vascular tissue engineering | Q42826863 | ||
| Bioprinted nanoparticles for tissue engineering applications. | Q43273574 | ||
| In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application | Q43881769 | ||
| Controlled fabrication of a biological vascular substitute | Q44913261 | ||
| Fabrication and endothelialization of collagen-blended biodegradable polymer nanofibers: potential vascular graft for blood vessel tissue engineering. | Q45296411 | ||
| Magnetic reconstruction of three-dimensional tissues from multicellular spheroids | Q47355041 | ||
| Remote control of cellular behaviour with magnetic nanoparticles | Q47431939 | ||
| Magnetic nanoparticles for improving cell invasion in tissue engineering | Q48034949 | ||
| P275 | copyright license | Creative Commons Attribution 3.0 Unported | Q14947546 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P304 | page(s) | 1-10 | |
| P577 | publication date | 2012-01-01 | |
| P1433 | published in | Journal of nanotechnology | Q27723306 |
| P1476 | title | Nanotechnological Strategies for Biofabrication of Human Organs | |
| P478 | volume | 2012 |
| Q41704468 | Longitudinal Stretching for Maturation of Vascular Tissues Using Magnetic Forces. | cites work | P2860 |
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