THEOREMS ON LINEAR SYSTEMS*

The differential equations for specific activities in a distributed tracer system, Equilibrium points for nonlinear compartmental models, On the visibility of leading eigenvalues in compartmental models, First-order chemical reaction networks. I: Theoretical considerations, Closed-loop stability of pharmacokinetic-pharmacodynamic models, On steady state inert gas exchange, On transient inert gas exchange, A state space transformation can yield identifiable models for tracer kinetic studies with enrichment data, Complexity and Stability in Compartmental Models, Estimation of the number of precursors in a sequence of first order reactions, On identifiability of impulse-response in compartmental systems, On the completely symmetric compartmental system, Compartmental analysis of dynamic nuclear medicine data: models and identifiability, Stability and structure of compartmental models of ecosystems, Optimal control in compartmental systems and its application to drug administration, Residence times in compartmental systems with and without inputs, A class of nonlinear compartmental models, Transient times in enzyme and coupled enzyme systems, Some results on linear stochastic multicompartmental systems, Linear compartmental systems. I: Kinetic analysis and derivation of their optimized symbolic equations, Compartmental systems with pipes, Structural properties of compartmental models, On washout in nonlinear compartmental systems, Can compartment models account for nonmonotonicity in pharmacokinetics?, Mean lifetime and first-passage time of the enzyme species involved in an enzyme reaction. Application to unstable enzyme systems, Four-state models and regulation of contraction of smooth muscle. I: Physical considerations, stability, and solutions, Four-state models and regulation of contraction of smooth muscle. II: Properties of the solutions and identification, A note on open linear systems, Expression for radiosensitivity based on the 'm targets - 1 hit' model including recovery of targets hit, The extrapolation number in the 'm targets-one hit' model, Estimate of FDG excretion by means of compartmental analysis and ant colony optimization of nuclear medicine data, Kinetic analysis of the mechanism of plasminogen activation by streptokinase, Passage time, resilience, and structure of compartmental models, Some equivalent compartmental models, Multiple zeros for eigenvalues and the multiplicity of traps of a linear compartmental system, Control and controllability in compartmental systems, Cellular systems. I: Stability of chemical systems, Cellular systems. II: Stability of compartmental systems, An integral equation approach to measuring turnover in nonsteady compartmental and distributed systems, Hidden oscillations in generalized linear mammillary compartmental models, Structural identification of large systems by reduction to subsystems: VLDL triglycerides, Direct and inverse regulation control in transformation systems, Steady state of stiff linear kinetic systems by a Markov matrix method, Qualitative analysis of a class of nonlinear compartmental systems: nonoscillation and asymptotic stability, Problems of determinacy in compartmental modeling with application to bilirubin kinetics, Sampling strategies for the identification of compartment models†, Some results about nonlinear chemical systems represented by trees and cycles, The unilateral circulation compartmental model, Roots of an irreducible continuant, A monotonicity theorem for compartmental systems, Path lengths and initial derivatives in arbitrary and Hessenberg compartmental systems, Transient phase kinetics of activation of human plasminogen, Hidden pools, hidden modes, and visible repeated eigenvalues in compartmental models, Mean residence time - Theoretical development, experimental determination, and practical use in tracer analysis, The role of nonreal eigenvalues in the identification of cycles in a compartmental system, Compartment analysis: An inverse problem, Which linear compartmental systems contain traps?, Compartmental matrices with single root and nonnegative nilpotent matrices, Residence times in compartmental systems and the moments of a certain distribution, Stochastic properties of compartment models†, New techniques for structural identifiability for large linear and nonlinear compartmental systems, Sampling and data analysis properties of Prony's method applied to model identification†, Extension of the theory of the multiple-indicator dilution technique to metabolic systems with an arbitrary number of rate constants, Parameter identification in n-compartment mamillary models, Linear n-compartment catenary models: Formulas to describe tracer amount in any compartment and identification of parameters from a concentration- time curve, Eigenvalues and structure of compartmental models, Compartmental graphs accounting for smoothing, integration and differentiation