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paper (33) 33
textiles (32) 32
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compositions based thereon (29) 29
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apparatus specially adapted for the manufacture of carbonfilaments (16) 16
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chemical aspects of bandages, dressings, absorbent pads, orsurgical articles (15) 15
disinfection, sterilisation, or deodorisation of air (15) 15
materials for bandages, dressings, absorbent pads, or surgicalarticles (15) 15
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tissue engineering (14) 14
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fabrics made by such processes or apparatus, e.g. felts,non-woven fabrics (7) 7
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lace-making (7) 7
making textile fabrics, e.g. from fibres or filamentarymaterial (7) 7
materials science, biomaterials (7) 7
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humans (5) 5
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photoacoustic tomography and fiber-based lasers and supercontinuum sources (5) 5
reproducibility of results (5) 5
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special section on selected topics in biophotonics (5) 5
special section on selected topics in biophotonics: photoacoustic tomography and fiber-based lasers and supercontinuum sources (5) 5
textile fabrics (5) 5
tissue-engineering (5) 5
treatment of textiles or the like (5) 5
treatment, not provided for elsewhere in class d06, of fibres, threads, yarns,fabrics, feathers, or fibrous goods made from such materials (5) 5
collagen (4) 4
imaging (4) 4
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characterization and evaluation of materials (3) 3
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Advanced healthcare materials, ISSN 2192-2640, 4/2016, Volume 5, Issue 7, pp. 751 - 766
Textile technologies have recently attracted great attention as potential biofabrication tools for engineering tissue constructs. Using current textile... 
Textile technologies | Biofabrication | Fiber-based techniques | Tissue engineering | Scaffolds | Biomaterials
Journal Article
BIOMEDICAL MATERIALS, ISSN 1748-6041, 05/2019, Volume 14, Issue 3, p. 34104
To engineer functional tissue substitutes, it is required a multi-component, multi-scale approach that combines both physical, chemical and biological cues.... 
cell encapsulation | tissue engineering | MATERIALS SCIENCE, BIOMATERIALS | fiber-based techniques | III COLLAGEN | ENGINEERING, BIOMEDICAL | cell-laden fibers | SCAFFOLDS | multi-compartment fibers | biofunctional composite living sutures
Journal Article
Textile Research Journal, ISSN 0040-5175, 6/2014, Volume 84, Issue 10, pp. 1084 - 1094
Textile structures made of biocompatible, osteoconductive and resorbable chitosan-filaments provide excellent preconditions as scaffolds for Bone Tissue... 
chitosan | tissue engineering | biomaterials | fiber based scaffold | COLLAGEN | MATERIALS SCIENCE, TEXTILES | TISSUE | FIBROUS SCAFFOLDS | BONE | Textile fabrics | Usage | Research | Microscope and microscopy | Studies | Nonwoven fabrics | Porous materials | 3-D technology | Biocompatibility | Bones | Chitosan | Scaffolds | Net shape | Adjustable | Three dimensional | Textiles
Journal Article
Materials Science & Engineering C, ISSN 0928-4931, 01/2020, Volume 106, p. 110105
Journal Article
Advanced Healthcare Materials, ISSN 2192-2640, 10/2015, Volume 4, Issue 14, pp. 2050 - 2050
Hybrid hydrogel fibers were fabricated using hydrogel templates. On page 2146, D. Juncker, A. Khademhosseini, and co‐workers show how these fibers containing... 
tissue engineering | cell‐laden fibers | fiber‐based methods | sacrificial polymeric networks | bioprinting | Tissue engineering
Journal Article
by Wu, Yang and Han, Yi
10/2017, ISBN 0081009798
Tendons transfer forces from skeletal muscle to bone, and are crucial in all joint movement. The limitations of natural tendon grafts motivate the tissue... 
Functional | Tissue engineering | Fiber-based | Three-dimensional scaffolds | Tendon
Book Chapter
Journal Article