Universum: технические науки

Poly(L-lactic glycolic acid

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Acknowledgements
Conflicts and interest

3.2.2.Poly(L-lactic glycolic acid:
The polylactic
and polglycolic acid that resulted in nanofibers was sub-
sequently used to transplant them to a surface with the
fibrous cells of the skin. The results were that the cells were
able to spread and form multiple layers after 28 days. In
other studies, the nature of water-repellent synthetic pol-
ymers and the absence of peptide infiltration affects cell
adhesion [2, 8, 9].

4. Conclusion
Polymers used in tissue regeneration, whether natural
or synthetic, must have several properties, including being
biologically renewable, biodegradable, biocompatible,
non-antigenic, non-toxic, blood compatible, and biological
functions. Because of these desirable properties, natural
and synthetic materials have been widely proposed as
scaffolding in tissue engineering applications and as a
vector for various drug delivery systems.
Acknowledgements
We would like to express my deep gratitude to Profes-
sor İdris Kabalci and Professor Ziyodulla Yusupov, for
their patient guidance, enthusiastic encouragement of
this work. My grateful thanks are also extended to
Mr. Youssouf Abakar Adam who is master student of
the department of Biomedical engineering of Karabuk
university for his help in finding materials, referances
and doing the data analysis.
Conflicts and interest
If you will face to any conflicts during the read this
work you should know they are only my mistakes which
come from my inexperience. I will be happy if you share
about your interests on the topic by this contact,
dilmurod.juraev.92@gmail.com .

References:
1. Aswathy S., U. Narendrakumar, and I. Manjubala, Commercial hydrogels for biomedical applications. Heliyon, 2020.
6(4): p. e03719.
2. Parisi O.I., M. Curcio, and F. Puoci, Polymer chemistry and synthetic polymers, in Advanced Polymers in Medicine.
2015, Springer. p. 1-31.
3. Ullah F., et al., Classification, processing and application of hydrogels: A review. Materials Science and Engineering:
C, 2015.
57
: p. 414-433.
4. Aramwit P., Introduction to biomaterials for wound healing, in Wound healing biomaterials. 2016, Elsevier. p. 3-38.
5. Ribeiro M.J.P., Desenvolvimento de novos biomateriais para aplicação como substitutos de pele. 2014.
6. Asadi N., et al., Common biocompatible polymeric materials for tissue engineering and regenerative medicine.
Materials Chemistry and Physics, 2019: p. 122528.
7. Samadian H., et al., Naturally occurring biological macromolecules-based hydrogels: Potential biomaterials for
peripheral nerve regeneration. International Journal of Biological Macromolecules, 2020.
8. Kumar N., H. Joisher, and A. Ganguly, Polymeric scaffolds for pancreatic tissue engineering: a review. The review
of diabetic studies: RDS, 2017. 14(4): p. 334.
9. Zhang Q., et al., Polymer scaffolds facilitate spinal cord injury repair. Acta biomaterialia, 2019. 88: p. 57-77.

№ 10 (91)
октябрь, 2021 г.
__________________________
Библиографическое описание: Кurbanov J.М., Barakaev N.R., Uzaydullaev А.О. QUALITATIVE PURIFICATION
OF POMEGRANATE JUICE USING ELECTROFLOTATION // Universum: технические науки : электрон. научн.
журн. 2021. 10(91). URL:
https://7universum.com/ru/tech/archive/item/12371

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