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Nanobioceramics for bone tissue engi...

Ghulāmī, Riz̤ā.

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Nanobioceramics for bone tissue engineering and regenerative biomedicine = tunable biological characteristics /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Nanobioceramics for bone tissue engineering and regenerative biomedicine/ by Reza Gholami, Seyed Morteza Naghib.
Reminder of title:	tunable biological characteristics /
Author:	Ghulāmī, Riz̤ā.
other author:	Naghib, Seyed Morteza.
Published:	Singapore :Springer Nature Singapore : : 2025.,
Description:	x, 282 p. :ill. (chiefly color), digital ;24 cm.
[NT 15003449]:	Introduction -- Bone -- Bone Cells -- Bone Extracellular Matrix -- Bone ECM Proteins Part I -- Bone ECM Proteins Part II -- Bioactivity and Osteogenic Features -- Nano-Bioceramics -- Composites for BTE.
Contained By:	Springer Nature eBook
Subject:	Bone regeneration. -
Online resource:	https://doi.org/10.1007/978-981-96-0041-0
ISBN:	9789819600410

Nanobioceramics for bone tissue engineering and regenerative biomedicine = tunable biological characteristics /
Ghulāmī, Riz̤ā.

Nanobioceramics for bone tissue engineering and regenerative biomedicinetunable biological characteristics /[electronic resource] :by Reza Gholami, Seyed Morteza Naghib. - Singapore :Springer Nature Singapore :2025. - x, 282 p. :ill. (chiefly color), digital ;24 cm. - Biological and medical physics, biomedical engineering,2197-5647. - Biological and medical physics, biomedical engineering..

Introduction -- Bone -- Bone Cells -- Bone Extracellular Matrix -- Bone ECM Proteins Part I -- Bone ECM Proteins Part II -- Bioactivity and Osteogenic Features -- Nano-Bioceramics -- Composites for BTE.

This book presents the tunable biological characteristics of nanobioceramics and focuses on some challenges in bone tissue engineering and regenerative medicine. Synthetic composite-based materials and scaffolds should be biodegradable, biocompatible and supply sufficient structural aid for cell migration, along with oxygen, waste, and nutrient carriage to accelerate bone regeneration process and remodeling in defects. These properties may be reached by functioning tunable physical features, including absorption rate, degradation rate, modulus, porosity, and swelling by adjustments with the addition of ceramic phases and copolymers as synthetic composite scaffolds. Synthetic bioceramics seek to imitate the natural hydroxyapatite (HA) crystal creation located in bone. These ceramics, particularly calcium phosphates, have exhibited great osteoinductivity, osteoconductivity, and biocompatibility. Lately, silicon-based glass-ceramics have been investigated as a substitution of calcium phosphates. Several members of this collection exhibit high bioactivity, have attractive mechanical strength, and are known to increase cell proliferation, adhesion, and mineralization of extracellular matrix. Moreover, antibacterial properties of some nanostructured bioceramics established significant interests in avoiding implants rejection in surgery and biomedicine.

ISBN: 9789819600410

Standard No.: 10.1007/978-981-96-0041-0doiSubjects--Topical Terms:

881883
Bone regeneration.

LC Class. No.: R857.T55

Dewey Class. No.: 610.28

Nanobioceramics for bone tissue engineering and regenerative biomedicine = tunable biological characteristics /
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505 0 $a Introduction -- Bone -- Bone Cells -- Bone Extracellular Matrix -- Bone ECM Proteins Part I -- Bone ECM Proteins Part II -- Bioactivity and Osteogenic Features -- Nano-Bioceramics -- Composites for BTE.
520 $a This book presents the tunable biological characteristics of nanobioceramics and focuses on some challenges in bone tissue engineering and regenerative medicine. Synthetic composite-based materials and scaffolds should be biodegradable, biocompatible and supply sufficient structural aid for cell migration, along with oxygen, waste, and nutrient carriage to accelerate bone regeneration process and remodeling in defects. These properties may be reached by functioning tunable physical features, including absorption rate, degradation rate, modulus, porosity, and swelling by adjustments with the addition of ceramic phases and copolymers as synthetic composite scaffolds. Synthetic bioceramics seek to imitate the natural hydroxyapatite (HA) crystal creation located in bone. These ceramics, particularly calcium phosphates, have exhibited great osteoinductivity, osteoconductivity, and biocompatibility. Lately, silicon-based glass-ceramics have been investigated as a substitution of calcium phosphates. Several members of this collection exhibit high bioactivity, have attractive mechanical strength, and are known to increase cell proliferation, adhesion, and mineralization of extracellular matrix. Moreover, antibacterial properties of some nanostructured bioceramics established significant interests in avoiding implants rejection in surgery and biomedicine.
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