Biological aging is continuous. Its clinical measurement is not. Epigenetic clocks derived from DNA methylation now estimate biological age with high precision, but methylation assays are practically sampled once per year at most. Over the same interval, the interventions these clocks are designed to evaluate — nutrition, sleep, exercise, pharmacological gerotherapeutics — operate on timescales of hours to days. This six-order-of-magnitude mismatch has left individual-scale geroprotection clinically unfalsifiable. We present TCP-BioSync, a framework that closes the gap by mathematically binding clinical-grade molecular diagnostics to continuous smartphone-derived physiological signals. The core construct is an ontological binding operator ⊗ with three provable properties — baseline preservation, monotonicity, and boundedness — under which three real-time aging indices arise: a metabolic energy index (MELI) tied to mitochondrial markers, an inflammaging index (RIAI) tied to chronic inflammation and senescent-cell clearance, and Live ΔmAge, a continuous-time extension of Horvath-family epigenetic clocks. A SHA-256 hash chain (Trust Code Package, TCP) secures every committed measurement, conferring medical-record–grade integrity. A pre-registered Monte Carlo validation (N = 1,000 in-silico subjects; seed 42; 3.6 × 10⁶ total engine evaluations) demonstrated construct validity between molecular baseline and physiological output at |r| = 0.85, test–retest reliability at ICC(A,1) = 0.81, biologically coherent age-cohort stratification, and 100 % hash-chain integrity. The framework's principal empirical prediction — that continuous physiological velocity, integrated over clinically relevant windows, reconstructs discrete methylation-age change — is directly testable in a subsequent prospective cohort study; the design, institutional review, and registration of such a study is outside the scope of this methodological preprint and will be reported separately. The complete reference implementation is released as open-source Python with zero external dependencies. TCP-BioSync provides, to our knowledge, the first operationally defined bridge between intermittent molecular diagnostics and continuous digital physiology that is simultaneously mathematically rigorous, empirically testable, and cryptographically secured. Keywords biological age; epigenetic clock; digital biomarkers; remote photoplethysmography; heart rate variability; hallmarks of aging; ontological binding; computational geroscience; Horvath clock; hash-chain integrity; precision medicine; Yamanaka factors; inflammaging; DunedinPACE.
Sang hyun Park (Sat,) studied this question.