The body’s biological processes for quickly and efficiently restoring tissue integrity and cellular homeostasis following physiological damage or stress. These mechanisms represent an enhanced, often pharmacologically or nutritionally induced, capacity for regeneration that surpasses baseline recovery rates. Clinically, this translates to faster healing, reduced downtime, and improved structural resilience at the cellular level, which is a critical aspect of longevity.
Origin
The concept combines “accelerated” (from Latin accelerare, to hasten) and “repair mechanisms” (referring to the biological processes of tissue regeneration and DNA repair). Within the longevity and performance space, it refers to targeted interventions designed to upregulate innate physiological recovery pathways. This term is an applied concept in regenerative medicine and high-performance endocrinology, emphasizing proactive restoration.
Mechanism
The process often involves the modulation of key anabolic hormones and growth factors, such as IGF-1 and Growth Hormone, which drive protein synthesis and cellular proliferation. It relies on activating sirtuins and AMPK pathways to clear damaged components via autophagy and enhance mitochondrial biogenesis. Optimizing the signaling cascade reduces the inflammatory phase of healing and shifts the balance toward rapid tissue remodeling and structural matrix deposition, facilitating rapid functional return.
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