Need for In Vivo Triggering of Homeostasis to Repair Irreversible Tissue Degeneration by Stem Cells through Innate and Invasive Regeneration Processes.

Q4 Biochemistry, Genetics and Molecular Biology
Journal of Stem Cells Pub Date : 2016-01-01
Jyothi S Navada, Prasad S Koka
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引用次数: 0

Abstract

The regeneration patterns are innate, inherited and evolutionarily conserved mechanisms. In every individual there are certain cells and signaling networks which work together to proliferate the desired tissue lineages to replace the dead, lost and injured counter parts. This homeostasis mechanism keeps functioning of the organ system intact. There are some tissues such as skin, gut, blood, respiratory tract, uterine endometrium, testis must perpetually renew the majority of cells. As the aging advances the turnover potentials decreases under normal circumstances, some of these respond inefficiently to regenerative pressures (eg: brain and heart) while other respond quite well. Therefore creating an optimized micro environment using external means through non-invasive or invasive procedures preferably minimally by utilizing appropriately subjected stem cells/stem cell secretome to induce regeneration at the target sites where it does not take place spontaneously.

Stem cell biology is one of the most attractive areas of biomedical research, as emerges for the execution of biotechnology towards the regenerative medicine continues to expand. The presumed potential of the stem cell populations with clonogenic capabilities are harnessed for the therapeutic applications. Advancements in the research technology and the idea of inducing innate regeneration by stem cell based approaches can generate the potential cure for many degenerative disorders, age related disabilities and accidental tissue damages.

需要在体内触发稳态修复不可逆组织退化的干细胞通过先天和侵入性再生过程。
再生模式是先天、遗传和进化保守的机制。每个人体内都有特定的细胞和信号网络,它们共同作用,增殖所需的组织谱系,以取代死亡、丢失和受伤的对应部分。这种体内平衡机制使器官系统的功能保持完整。还有一些组织如皮肤、肠道、血液、呼吸道、子宫内膜、睾丸等大部分细胞必须不断更新。在正常情况下,随着年龄的增长,细胞的周转率会下降,其中一些细胞对再生压力的反应效率较低(例如:大脑和心脏),而另一些细胞则反应良好。因此,利用外部手段通过非侵入性或侵入性程序创造一个优化的微环境,最好是最小限度地利用适当的干细胞/干细胞分泌组在非自发发生的目标部位诱导再生。干细胞生物学是生物医学研究中最具吸引力的领域之一,随着生物技术在再生医学领域的应用不断扩大。干细胞群具有克隆生成能力的假定潜力被用于治疗应用。研究技术的进步和通过干细胞诱导先天再生的想法可以为许多退行性疾病、年龄相关残疾和意外组织损伤提供潜在的治疗方法。
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
Journal of Stem Cells
Journal of Stem Cells Medicine-Transplantation
CiteScore
0.10
自引率
0.00%
发文量
1
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