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Design of chemobrionic and biochemobrionic scaffolds for bone tissue engineering
by
Demirel, Zeliha
, Taşdemir, Şeyma
, Imamoglu, Esra
, Morçimen, Zehra Gül
, Şendemir, Aylin
, Turunç, Ezgi
, Aslanbay Guler, Bahar
in
631/1647
/ 631/532
/ 631/80
/ 639/301
/ 692/308
/ Animals
/ Biocompatibility
/ Biocompatible Materials - chemistry
/ Biocompatible Materials - pharmacology
/ Biodegradation
/ Biomimetics
/ Bone and Bones - physiology
/ Bone growth
/ Bone Regeneration
/ Bones
/ Cell Differentiation
/ Cell growth
/ Cytotoxicity
/ Diatoms
/ Humanities and Social Sciences
/ Humans
/ Mineralization
/ Morphology
/ multidisciplinary
/ Organic chemicals
/ Osteogenesis
/ Osteogenesis - drug effects
/ Plankton
/ Regeneration
/ Science
/ Science (multidisciplinary)
/ Silica
/ Tissue engineering
/ Tissue Engineering - methods
/ Tissue Scaffolds - chemistry
2024
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Design of chemobrionic and biochemobrionic scaffolds for bone tissue engineering
by
Demirel, Zeliha
, Taşdemir, Şeyma
, Imamoglu, Esra
, Morçimen, Zehra Gül
, Şendemir, Aylin
, Turunç, Ezgi
, Aslanbay Guler, Bahar
in
631/1647
/ 631/532
/ 631/80
/ 639/301
/ 692/308
/ Animals
/ Biocompatibility
/ Biocompatible Materials - chemistry
/ Biocompatible Materials - pharmacology
/ Biodegradation
/ Biomimetics
/ Bone and Bones - physiology
/ Bone growth
/ Bone Regeneration
/ Bones
/ Cell Differentiation
/ Cell growth
/ Cytotoxicity
/ Diatoms
/ Humanities and Social Sciences
/ Humans
/ Mineralization
/ Morphology
/ multidisciplinary
/ Organic chemicals
/ Osteogenesis
/ Osteogenesis - drug effects
/ Plankton
/ Regeneration
/ Science
/ Science (multidisciplinary)
/ Silica
/ Tissue engineering
/ Tissue Engineering - methods
/ Tissue Scaffolds - chemistry
2024
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Design of chemobrionic and biochemobrionic scaffolds for bone tissue engineering
by
Demirel, Zeliha
, Taşdemir, Şeyma
, Imamoglu, Esra
, Morçimen, Zehra Gül
, Şendemir, Aylin
, Turunç, Ezgi
, Aslanbay Guler, Bahar
in
631/1647
/ 631/532
/ 631/80
/ 639/301
/ 692/308
/ Animals
/ Biocompatibility
/ Biocompatible Materials - chemistry
/ Biocompatible Materials - pharmacology
/ Biodegradation
/ Biomimetics
/ Bone and Bones - physiology
/ Bone growth
/ Bone Regeneration
/ Bones
/ Cell Differentiation
/ Cell growth
/ Cytotoxicity
/ Diatoms
/ Humanities and Social Sciences
/ Humans
/ Mineralization
/ Morphology
/ multidisciplinary
/ Organic chemicals
/ Osteogenesis
/ Osteogenesis - drug effects
/ Plankton
/ Regeneration
/ Science
/ Science (multidisciplinary)
/ Silica
/ Tissue engineering
/ Tissue Engineering - methods
/ Tissue Scaffolds - chemistry
2024
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Design of chemobrionic and biochemobrionic scaffolds for bone tissue engineering
Journal Article
Design of chemobrionic and biochemobrionic scaffolds for bone tissue engineering
2024
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Overview
Chemobrionic systems have attracted great attention in material science for development of novel biomimetic materials. This study aims to design a new bioactive material by integrating biosilica into chemobrionic structure, which will be called biochemobrionic, and to comparatively investigate the use of both chemobrionic and biochemobrionic materials as bone scaffolds. Biosilica, isolated from
Amphora sp
. diatom, was integrated into chemobrionic structure, and a comprehensive set of analysis was conducted to evaluate their morphological, chemical, mechanical, thermal, and biodegradation properties. Then, the effects of both scaffolds on cell biocompatibility and osteogenic differentiation capacity were assessed. Cells attached to the scaffolds, spread out, and covered the entire surface, indicating the absence of cytotoxicity. Biochemobrionic scaffold exhibited a higher level of mineralization and bone formation than the chemobrionic structure due to the osteogenic activity of biosilica. These results present a comprehensive and pioneering understanding of the potential of (bio)chemobrionics for bone regeneration.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
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