Pharmacodynamics Dose-Response Inversion L1-404

Computational BiologyPharmacodynamicsδ=3 · standardL_DAG = 2📋 Stub — not mineable

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Unclaimed Principle — open for contribution

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Forward model E

E = E_{0} + E_{m} a x \cdot C \cdot \cdot n / (E C 50 \cdot \cdot n + C \cdot \cdot n) (s i g m o i d a l E ma x / H i l l e q u a t i o n)

Pharmacodynamics Dose-Response Inversion: PD model fitting: estimate E_max, EC50, and Hill coefficient from dose-effect data using Emax model. The forward operator produces the measurement through a 3-node primitive DAG (M.hill.emax_model…); recovery is posed as a parameter_estimation problem. Difficulty tier delta=3 with effective condition number kappa_eff~20; inter_individual_variability_PD, time_delay_effect_site_equilibration set the accuracy floor at the Omega boundary. See the forward_model field for the closed-form equation.

L-DAG

N.pointwise -> O.nls.pd_fit -> S.bayesian.pd_posterior

N.pointwiseO.nls.pd_fitS.bayesian.pd_posterior

Well-posedness W

Existence:: true
Uniqueness:: true
Stability:: conditional
κ:: 500

Existence of the recovered PD_parameter_vector is guaranteed within the declared Omega bounds. Uniqueness holds on the measurement-supported subspace; out-of-support modes are controlled by declared priors. Stability is conditionally stable (kappa_eff ~= 20); inter_individual_variability_PD dominates the stability cliff; the remaining mismatch parameters contribute higher-order bias terms. Lognormal sets the irreducible data-fidelity floor.

Solvability C

Solver class:: statistical [NLS_Levenberg_Marquardt or Bayesian_PD]
Convergence rate q:: 2
Complexity:: O(N_doses * N_params) per fit per iteration

Specs (0)

No L2 specs registered yet for this principle.