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回复青春.
回复青春是一种假设中透过逆转或改变老化的过程,使衰老的个体恢复其年轻时所拥有各项生理特征的一种现象。在历史上很多人都希望可以恢复青春。恢复青春的核心概念为改变生命体年纪越老,健康会转坏的自然现象。依目前认知,人类成年后,器官逐步老化,迈向死亡,而童指的是童年,即未满13岁以下的儿童,所以字面要缩小身体上返老还童是不可能的,较合理的目标是回复青年。这种说法目前也只能是一种假想。科学家在动物实验结果证明透过热量控制可以延缓衰老,部分科学家更是大胆预测,只要人类掌握足以忽略或扭转衰老的技术,防止细胞衰老或修复衰老的细胞,即可防止甚至逆转人体老化和衰老来恢复青春。
另外达成长生不老或生命延续或许是不可能的,即使有可能,要达到此种状态可能也相当困难。科罗拉多大学波德分校研究员Jesse Kurland的博士论文指出,老化是个影响基因网络的复杂程序,因此改变单一或数个基因不能停止老化。[1][2]
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| 延续寿命的议题 | | |
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| 事件 |
- Timeline of senescence research
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| 人物 |
- William H. Andrews (biologist)
- Eric R. Braverman
- Aubrey de Grey
- Laura Deming
- Denham Harman
- Leonard Hayflick
- Saul Kent
- Cynthia Kenyon
- Dimu Kotsovsky
- Ray Kurzweil
- Ilya Mechnikov
- Liz Parrish
- Durk Pearson
- Mark Roth (scientist)
- Sandy Shaw (writer)
- Roy Walford
- Michael D. West
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| 组织 |
- 2045 Initiative
- American Academy of Anti-Aging Medicine
- AgeX Therapeutics
- Alliance for Aging Research
- Buck Institute for Research on Aging
- Altos Labs
- American Aging Association
- BioViva
- Calico (company)
- ERIBA
- 老人学研究组织
- Human Longevity
- Immortalist Society
- International_Longevity_Alliance
- 英科智能
- Life Extension Advocacy Foundation
- Life Extension Foundation
- Methuselah Foundation
- Max Planck Institute for Biology of Ageing
- National Institute on Aging
- SENS研究基金会
- Sierra Sciences
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| 书本 |
- Life Extension: A Practical Scientific Approach (1982)
- The 10% Solution for a Healthy Life (1993)
- The First Immortal (1998)
- Fantastic Voyage: Live Long Enough to Live Forever (2004)
- Ending Aging (2007)
- Lifespan: Why We Age – and Why We Don't Have To (2019)
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| 期刊 |
- Ageing Research Reviews
- Aging (journal)
- 细胞老化
- 实验老人学
- 神经生物中的老化
- 回复青春研究
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| 分类 | |
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- ^ Rachel Sauer. Bad news for Boomers: There’s no magic cure for aging. Colorado Arts and Sciences Magazine. University of Colorado Boulder. [2023-09-13]. (原始内容存档于2023-08-28).
- ^ Jesse V Kurland; Alicia A Cutler; Nicole Dalla Betta; Tiffany Antwine; Jacob T Stanley, Ashleigh Van Deusen, Brad Pawlikowski, Monica Hall, Alan Russell, Mary Ann Allen, Robin Dowell, Bradley Olwin. Aging disrupts gene expression timing during muscle regeneration. Stem Cell Reports. 2023-07-13, 18 (6): 1325–1339 [2023-09-13]. PMID 37315524. doi:10.1016/j.stemcr.2023.05.005. (原始内容存档于2023-06-24).
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