This comparative study evaluates whether multiple independently developed biological computational twins — tissue regeneration (TCI), hair follicle synchronization (FCI), scorpion sensory degradation (PCI), and a CFTR-informed ion-channel model — exhibit shared coherence-collapse structure when expressed through dimensionless coupling formulations. Five candidate dimensionless groups are tested. Within each system, logistic phase boundaries are robust; cross-system collapse is partial (R² = 0.523). One formulation (Π₁) fails catastrophically, and absolute threshold transfer into CFTR biology fails without recalibration, correctly ranking severity but not clinical collapse points. The work introduces a falsifiable comparative architecture for studying propagation failure and recoverability across biological systems, and provides a missing second-order layer for DNA foundation models.
Thomas S. Mitchell (Wed,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: