1.
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Büyüköz, Melda, author.
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Preparation and characterization of polymeric scaffolds for nerve tissue engineering applications /
by
Tamburacı, Sedef, author.
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Natural and synthetic silica incorporated chitosan composite scaffolds for bone tissue engineering
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by
Şahin, Erdem.
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El Yazması
Alıntı:
Tissue scaffolds.
by
Karadaş, Özge, author.
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El Yazması
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differentiation of stem cells on 3D scaffolds prepared by using filter paper, on the other hand, was demonstrated
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Kara Özenler, Aylin, author.
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El Yazması
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technology enables the development of personalized scaffolds. In addition, biological scaffolds obtained by
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Şirvanlıoğlu, Berna, author.
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El Yazması
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scaffolds capable of promoting natural tissue regeneration while providing robust structural support
7.
by
Altan, Zeynep, author.
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El Yazması
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attention. Biomimetic scaffolds have been started to use in dental tissue engineering and regeneration due
by
Güzelgülgen, Meltem, author.
Format:
El Yazması
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scaffolds did not show any cytotoxic effect on NIH-3T3 and SaOS-2 cells. The optimum results were achieved
by
Firik, Tuğba, author.
Format:
El Yazması
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Intestinal tissue engineering is a subfield of tissue engineering, which utilizes biomaterials to
by
Türker, Esra, author.
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El Yazması
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biological substituents. Three dimensional (3D) supporting structures, namely scaffolds obtained from
by
Özcan, Selçuk.
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El Yazması
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act as local scaffolds for enhanced osteoconduction, providing fast bone apposition and cementless
by
Zeybek, Nüket, author.
Format:
El Yazması
Alıntı:
foams with promising properties could be synthesized. Besides, to develop a more effective tissue
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