This paper challenges the overparameterization paradigm in Machine Learning by contrasting the "Winning Ticket" phenomenon with the continuous topological adaptation observed in extreme hydrocephalus. While AI relies on post hoc pruning to find efficient subgraphs, biological systems demonstrate that sustained coherence is achieved through perpetual plasticity within a minimal structural configuration (F₌₈₍). We analyze the case of an individual with 90% brain volume reduction who maintains stable consciousness and functional independence. Unlike static neural networks that approximate sufficiency through pruning, the hydrocephalus case reveals a structural principle where inference and learning are inseparable and dynamically reconfigurable. This suggests that efficiency is not a result of removing excess, but a consequence of a system's ability to never rely on it, operating continuously above a minimal functional threshold Scientists research man missing 90% of his brain who leads a normal life, the remaining 10% is not a winning ticket, is "the single ticket" https: //www. cbc. ca/radio/asithappens/as-it-happens-thursday-edition-1. 3679117/scientists-research-man-missing-90-of-his-brain-who-leads-a-normal-life-1. 3679125
Claudio Bresciano (Sat,) studied this question.