骨再生治疗生物材料设计的最新进展:综述

N. Yusop, Nurulhuda Athirah Hadri, Nursyahida Arifin, N. F. Ghazalli, R. Shaari, Khairul Bariah Ahmad Amin Noordin
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引用次数: 0

摘要

长寿与发病率和年龄相关疾病的增加有关,与组织退化和生物功能的逐渐丧失有关。骨是一个重要的器官,随着寿命的增加而逐渐退化。骨重塑阶段在维持骨的再生能力和维持其一生的稳定性和功能方面起着巨大的作用。因此,骨骼健康是老年人面临的主要挑战之一,因为与骨骼退化相关的损伤增加,如脆性和骨折风险。为了提高骨组织的再生功能,引入了骨组织工程(bone tissue engineering, BTE)这一专业领域,以改进目前治疗骨退行性疾病的策略。在BTE中进行的大多数研究都集中在关键部件的优化上,以产生新的骨形成,包括支架。支架在建立连接组织工程三位一体的主要元素的结构形式方面起着重要作用。迄今为止,从天然和合成材料到纳米复合材料,许多类型的生物材料已经在生物技术领域得到了探索。然而,理想的支架,表现出良好的生物相容性和机械性能,批准用于临床实践尚不存在。本文旨在介绍新骨生成支架的最新进展,重点介绍选择合适的骨修复生物材料的基本要素和策略。
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Recent Advances in Biomaterial Design for Bone Regenerative Therapy: A Mini Review
Longevity has been associated with morbidity and an increase in age-related illnesses, linked to tissue degeneration and gradual loss of biological functions. Bone is an important organ that gradually degenerates with increasing lifespan. The remodeling phase plays a huge role in maintaining the ability of bone to regenerate and maintain its stability and function throughout life. Hence, bone health represents one of the major challenges to elderly citizens due to the increase of injury associated with bone degeneration, such as fragility and risks of fractures. In the virtue of improving the regenerative function of bone tissues, a specialized field of bone tissue engineering (BTE) has been introduced to improve the current strategies in treating bone degenerative disorders. Most of the research performed in BTE focuses on the optimization of key components to generate new bone formation, including the scaffold. A scaffold plays a significant role in establishing the structural form that interconnects major elements of the tissue engineering triad. To date, many types of biomaterials have been explored in BTE, ranging from natural and synthetic materials to nanocomposites. However, ideal scaffolds that display excellent biocompatibility and mechanical properties, approved for clinical practices are yet available. This paper aims to describe the up-to-date advancements in scaffold for new bone generation, highlighting the essential elements and strategies in selecting suitable biomaterials for bone repair.
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来源期刊
Current Materials Science
Current Materials Science Materials Science-Materials Science (all)
CiteScore
0.80
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0.00%
发文量
38
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