Show/Hide Menu
Hide/Show Apps
Logout
Türkçe
Türkçe
Search
Search
Login
Login
OpenMETU
OpenMETU
About
About
Open Science Policy
Open Science Policy
Open Access Guideline
Open Access Guideline
Postgraduate Thesis Guideline
Postgraduate Thesis Guideline
Communities & Collections
Communities & Collections
Help
Help
Frequently Asked Questions
Frequently Asked Questions
Guides
Guides
Thesis submission
Thesis submission
MS without thesis term project submission
MS without thesis term project submission
Publication submission with DOI
Publication submission with DOI
Publication submission
Publication submission
Supporting Information
Supporting Information
General Information
General Information
Copyright, Embargo and License
Copyright, Embargo and License
Contact us
Contact us
Collagen and polyester-based scaffolds for tissue engineering
Date
2009-03-22
Author
Hasyrcy, V.
Kenar, H.
Yucel, D.
Zorlutuna, P.
Yylgor, P.
KÖSE, GAMZE
Hasyrcy, N.
Metadata
Show full item record
This work is licensed under a
Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License
.
Item Usage Stats
257
views
0
downloads
Cite This
URI
https://hdl.handle.net/11511/68405
Collections
Biomaterials and Tissue Engineering Application and Research Center (BİOMATEN), Conference / Seminar
Suggestions
OpenMETU
Core
Collagen matrices for guided tissue engineering
Ber, Suzan; Hasırcı, Vasıf Nejat; Toner, Mehmet; Department of Biotechnology (2002)
Collagen/PEO/gold nanofibrous matrices for skin tissue engineering
Akturk, Omer; Keskin, Dilek (The Scientific and Technological Research Council of Turkey, 2016-01-01)
As a novel approach in skin tissue engineering, gold nanoparticles (AuNPs) were synthesized and incorporated at different concentrations into collagen/PEO nanofibrous matrices in this study. The group containing 14.27 ppm AuNPs (CM-Au) had the best nanofibrous morphology. CM-Au was cross-linked with glutaraldehyde vapor (CM-AuX). All groups were disrupted in collagenase in 2 h, but cross-linked groups and Matriderm (R) resisted hydrolytic degradation for 7 and 14 days, respectively. Due to its small pores a...
Collagen-based meniscus tissue engineering: design and application
Halili Ndreu, Albana; Hasırcı, Nesrin; Hasırcı, Vasıf Nejat; Department of Biotechnology (2011)
Meniscus is a wedge shaped structure, with a convex base attached to a flat tibial surface, and with a concave femoral surface, on which femur and tibia articulate. It has several functions including joint lubrication, shock absorption, load transmission and joint stability. Various methods were tried to treat meniscal tears but each has its own drawbacks. Tissue engineering seems to be a promising solution that avoids all the problems associated with the other approaches. In this study, a three dimensional...
Collagen and Carboxymethyl Cellulose Bilayers for Skin Tissue Repair
Bektaş, Cemile; Kımız, Ilgın; Şendemir Ürkmez, Aylin; Hasırcı, Vasıf Nejat; Hasırcı, Nesrin (2015-08-30)
Collagen-based scaffolds for cornea tissue engineering
Vrana, Nihal Engin; Hasırcı, Vasıf Nejat; Department of Biotechnology (2006)
In this study, collagen based scaffolds were prepared for cornea tissue engineering. Three different cell carriers (rat tail collagen foam, insoluble collagen foam and patterned collagen film) were produced using two different collagen sources. Scaffolds were designed to mimic the unique topographical features of the corneal stroma. A novel crosslinking method was developed to achieve constant foam thickness. All scaffolds were tested with the primary cells of the native corneal stroma, human keratocytes. A...
Citation Formats
IEEE
ACM
APA
CHICAGO
MLA
BibTeX
V. Hasyrcy et al., “Collagen and polyester-based scaffolds for tissue engineering,” 2009, vol. 237, p. 0, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/68405.