Poly (ε-caprolactone) - Based biomaterials for meniscus tissue engineering
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Publisher
AIP Publishing
Link
http://aip.scitation.org/doi/pdf/10.1063/5.0111407
Reference47 articles.
1. Bahcecioglu G., Hasirci N., and Hasirci V. Cell behavior on the alginate-coated PLLA/PLGA scaffolds. Int J Biol Macromol. (Elsevier, Amsterdam, 2018), pp. 444–450.
2. Bahcecioglu G., Hasirci N., Bilgen B., and Hasirci V. A 3D printed PCL/hydrogel construct with zone-specific biochemical composition mimicking that of the meniscus. Biofabrication. (IOP Publishing, Bristol, 2019), p. 025002.
3. Bahcecioglu G., Bilgen B., Hasirci N., and Hasirci V. Anatomical meniscus construct with zone specific biochemical composition and structural organization. Biomaterials. (Elsevier, Amsterdam, 2019), p. 119361.
4. Bahcecioglu G., Hasirci N., Bilgen B., Hasirci V. Hydrogels of agarose, and methacrylated gelatin and hyaluronic acid are more supportive for in vitro meniscus regeneration than three dimensional printed polycaprolactone scaffolds. Int J Biol Macromol. (Elsevier BV, Amsterdam, 2019), pp. 1152–1162.
5. Bansal S., Mandalapu S., and Aeppli C. Mechanical function near defects in an aligned nanofiber composite is preserved by inclusion of disorganized layers: Insight into meniscus structure and function. Acta Biomater. (Elsevier, Amsterdam, 2017), pp. 102–109.
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