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Complex biological systems undergoing pathological transition share an architecture that molecular models capture only partially: the difference between possible alterations and historically viable trajectories [16–25]. This work presents HDC–CBC/Bio as an exploratory volume of the Supplementary Structural & Interpretative Program of the HDC–CBC framework [10–15]. Its objective is not to formulate a biomedical theory, nor to apply correlational cosmology to cancer, but to analyze a structural analogy between correlational disequilibrium in the HDC–CBC framework and regime transitions in complex biological systems [13–15, 16–25].
The starting point is the architecture already developed in the corpus: irreducibility of correlation, non-permissiveness of the correlational space, historical admissibility, regime rupture and executable domain [10, 13–15]. HDC–CBC/Ib establishes that not every mathematically possible correlation is physically realizable, but only those satisfying criteria of compensation, stability and persistence [13]. HDC–CBC/Ic, in turn, formulates the Correlational Index as a structural index of historical admissibility, not as a free phenomenological parameter nor as a retrospective fitting device [14].
On this basis, the present volume proposes an analogical reading: in complex biological systems, especially in tumor evolution, not every conceivable molecular alteration generates a viable pathological regime [18, 22–25]. Only certain trajectories succeed in sustaining proliferation, adaptation, persistence, evasion of control and minimal functional stability [18–25]. This restriction may be interpreted, structurally, as a form of biological historical admissibility [14, 18–25].
The work develops a formal correspondence between correlational coherence and homeostasis, correlational rupture and loss of regulation, projected regime and observable phenotype, historical admissibility and viable biological trajectory, as well as between sectorial failure and therapeutic or progressive rupture [13–15, 18–29]. The analogy is formulated with explicit limits: no ontological equivalence between cosmology and biology is proposed, nor is it claimed that HDC–CBC causally explains cancer [1–15]. Only a structural language is proposed for comparing complex systems undergoing transition, selection and historical stabilization [16–25].
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Title HDC–CBC/Bio Correlational Disequilibrium, Historical Admissibility and Regime Transitions in Complex Biological Systems
Complex biological systems undergoing pathological transition share an architecture that molecular models capture only partially: the difference between possible alterations and historically viable trajectories [16–25]. This work presents HDC–CBC/Bio as an exploratory volume of the Supplementary Structural & Interpretative Program of the HDC–CBC framework [10–15]. Its objective is not to formulate a biomedical theory, nor to apply correlational cosmology to cancer, but to analyze a structural analogy between correlational disequilibrium in the HDC–CBC framework and regime transitions in complex biological systems [13–15, 16–25].
The starting point is the architecture already developed in the corpus: irreducibility of correlation, non-permissiveness of the correlational space, historical admissibility, regime rupture and executable domain [10, 13–15]. HDC–CBC/Ib establishes that not every mathematically possible correlation is physically realizable, but only those satisfying criteria of compensation, stability and persistence [13]. HDC–CBC/Ic, in turn, formulates the Correlational Index as a structural index of historical admissibility, not as a free phenomenological parameter nor as a retrospective fitting device [14].
On this basis, the present volume proposes an analogical reading: in complex biological systems, especially in tumor evolution, not every conceivable molecular alteration generates a viable pathological regime [18, 22–25]. Only certain trajectories succeed in sustaining proliferation, adaptation, persistence, evasion of control and minimal functional stability [18–25]. This restriction may be interpreted, structurally, as a form of biological historical admissibility [14, 18–25].
The work develops a formal correspondence between correlational coherence and homeostasis, correlational rupture and loss of regulation, projected regime and observable phenotype, historical admissibility and viable biological trajectory, as well as between sectorial failure and therapeutic or progressive rupture [13–15, 18–29]. The analogy is formulated with explicit limits: no ontological equivalence between cosmology and biology is proposed, nor is it claimed that HDC–CBC causally explains cancer [1–15]. Only a structural language is proposed for comparing complex systems undergoing transition, selection and historical stabilization [16–25].
Work type Technical
Tags obra científica o técnica (no divulgada)
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Identifier 2605155665609
Entry date May 15, 2026, 12:45 PM UTC
License Creative Commons Attribution-NonCommercial-ShareAlike 4.0
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Author 100.00 %. Holder Jordi Audet Palau. Date May 15, 2026.
Information available at https://www.safecreative.org/work/2605155665609-hdc-cbc-bio-correlational-disequilibrium-historical-admissibility-and-regime-transitions-in-complex-biological-systems
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