Developing integrative computational models of pulmonary structure

## Abstract **Summary:** The advent of high‐throughput combinatorial synthesis techniques in drug discovery has stimulated efforts to apply these techniques to the discovery of biomaterials. To be of practical utility, combinatorial approaches to biomaterials design require (i) the availability of

An extensive program was conducted to develop and validate computer models for the deformation of structures in jointed rock. Both discrete element and "nite element models were investigated. The program comprised a sequence of seven calculational and experimental studies. In the "nal step, model pr

## Abstract A standardized formal theory of development/evolution, characterization and design of a wide variety of computational algorithms emanating from a generalized time weighted residual philosophy for dynamic analysis is first presented with subsequent emphasis on detailed formulations of a

A software package 'Nodus' for simulation and development of compartmental models of neurons is described. Passive or excitable membranes with voltage dependent ion conductances or synaptic conductances can be modeled. Detailed simulations ofmorphology and electrophysiology of neurons are possible.

An assumption of the classical three-compartment lung model is that the physiologic shunt fraction (Q/Q) remains constant with changes in cardiac output (Ql). As a result, when Qt decreases, both the arterial Oz tension (P,oJ and the mixed venous 02 tension (P,",) must also decrease. Yet observation