Sign Up to like & get
recommendations!
0
Published in 2018 at "Methods in molecular biology"
DOI: 10.1007/7651_2017_35
Abstract: In tissue engineering, decellularized scaffolds have been proved to have remarkable capacity to promote regeneration in various organs such as kidney, heart, lung, and liver. Marrying the field of cryobiology and reproductive medicine resulted in…
read more here.
Keywords:
decellularized tissue;
ovarian tissue;
tissue;
transplantation ... See more keywords
Sign Up to like & get
recommendations!
0
Published in 2020 at "European Polymer Journal"
DOI: 10.1016/j.eurpolymj.2020.109693
Abstract: Abstract Additive manufacturing (AM) of tissue scaffolds provides medical professionals and patients with personalized treatment options, which align with patients’ specific physiology and provide a more efficient and precise manufacturing process. Vat photopolymerization (VP) AM…
read more here.
Keywords:
vat photopolymerization;
photopolymerization liquid;
liquid biodegradable;
tissue scaffolds ... See more keywords
Sign Up to like & get
recommendations!
1
Published in 2022 at "Polymers"
DOI: 10.3390/polym14030566
Abstract: The repair of large-area irregular bone defects is one of the complex problems in orthopedic clinical treatment. The bone repair scaffolds currently studied include electrospun membrane, hydrogel, bone cement, 3D printed bone tissue scaffolds, etc.,…
read more here.
Keywords:
bone tissue;
printed polymer;
bone;
tissue scaffolds ... See more keywords
Sign Up to like & get
recommendations!
1
Published in 2022 at "Polymers"
DOI: 10.3390/polym14245460
Abstract: Due to their commercial availability, superior processability, and biocompatibility, polymers are frequently used to build three-dimensional (3D) porous scaffolds. The main issues limiting the widespread clinical use of monophasic polymer scaffolds in the bone healing…
read more here.
Keywords:
polymer;
tissue scaffolds;
manufacturing polymer;
additive manufacturing ... See more keywords