Multiscale and multidisciplinary analysis of aging processes in bone.

IF 4.1 Q2 GERIATRICS & GERONTOLOGY
Linda Ravazzano, Graziana Colaianni, Anna Tarakanova, Yu-Bai Xiao, Maria Grano, Flavia Libonati
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引用次数: 0

Abstract

The world population is increasingly aging, deeply affecting our society by challenging our healthcare systems and presenting an economic burden, thus turning the spotlight on aging-related diseases: exempli gratia, osteoporosis, a silent disease until you suddenly break a bone. The increase in bone fracture risk with age is generally associated with a loss of bone mass and an alteration in the skeletal architecture. However, such changes cannot fully explain increased fragility with age. To successfully tackle age-related bone diseases, it is paramount to comprehensively understand the fundamental mechanisms responsible for tissue degeneration. Aging mechanisms persist at multiple length scales within the complex hierarchical bone structure, raising the need for a multiscale and multidisciplinary approach to resolve them. This paper aims to provide an overarching analysis of aging processes in bone and to review the most prominent outcomes of bone aging. A systematic description of different length scales, highlighting the corresponding techniques adopted at each scale and motivating the need for combining diverse techniques, is provided to get a comprehensive description of the multi-physics phenomena involved.

Abstract Image

骨骼老化过程的多尺度和多学科分析。
世界人口老龄化日益严重,对我们的社会造成了深刻的影响,给我们的医疗保健系统带来了挑战,也带来了经济负担,因此,与老龄化相关的疾病成为人们关注的焦点:例如,骨质疏松症,这是一种无声无息的疾病,直到你突然骨折。随着年龄的增长,骨折风险的增加通常与骨量的减少和骨骼结构的改变有关。然而,这些变化并不能完全解释随年龄增长而增加的脆弱性。要成功应对与年龄相关的骨病,最重要的是全面了解导致组织退化的基本机制。老化机制在复杂的分层骨骼结构中的多个长度尺度上持续存在,因此需要采用多尺度和多学科的方法来解决这些问题。本文旨在对骨的衰老过程进行总体分析,并回顾骨衰老最突出的结果。本文系统地描述了不同的长度尺度,强调了在每个尺度上采用的相应技术,并说明了结合多种技术的必要性,以全面描述所涉及的多物理现象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
8.90
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0.00%
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