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Organic modeling

Cardiac models are amongst the most advanced in silico tools for bio-med-icine, and the above scenario is bound to become reality rather sooner than later. Both cellular and whole organ models have aheady matured to a level where they have started to possess predictive power. We will now address some aspects of single cell model development (the cars ), and then look at how virtual cells interact to simulate the spreading wave of electrical excitation in anatomically representative, virtual hearts (the traffic ). [Pg.135]

Interspecies Variations in Susceptibility. An Important assumption in the development of both the structure-potency model (eq, 1) and the structure-target-organ model (eq, 2) was that all of the test compounds were administered at equal daily... [Pg.83]

An examination of 5 occult sciences—astrology, the "I Ching", the Kabbalah, the Tarot, and alchemy—from a Jungian viewpoint. The author believes that the occult sciences reflect the structure of the unconscious mind and that this structure is a subtly organized model of the entire universe... [Pg.422]

The flux vector accounts for mass transport by both convection (i.e., blood flow, interstitial fluid flow) and conduction (i.e., molecular diffusion), whereas S describes membrane transport between adjacent compartments and irreversible elimination processes. For the three-subcompartment organ model presented in Figure 2, with concentration both space- and time-dependent, the conservation equations are... [Pg.89]

Estimation methods for tissue-to-blood partition coefficients (i.e., Rt) have been the most prolific, no doubt due to the need for this parameter in most organ models. Both in vitro and in vivo parameter estimation techniques are available. [Pg.93]

Distinguishing Between Blood Flow-Limited and Membrane-Limited Organ Models... [Pg.97]

The use of a membrane-limited two- or three-subcompartment organ model is indicated if tissue drug concentrations do not decline in parallel with drug concentrations in plasma or blood. A formal criterion has been given by Dedrick and Bischoff [10] such that if... [Pg.97]

R Bellman, JA Jacquez, R Kalaba. Some mathematical aspects of chemotherapy. I. One organ models. Bull Math Biophys 22 181-198, 1960. [Pg.100]

Catalysis, enzymatic, physical organic model systems and the problem of, 11,1 Catalysis, general base and nucleophilic, of ester hydrolysis and related reactions, 5,237 Catalysis, micellar, in organic reactions kinetic and mechanistic implications, 8,271 Catalysis, phase-transfer by quaternary ammonium salts, 15,267 Catalytic antibodies, 31,249... [Pg.336]

Electronically excited states of organic molecules, acid-base properties of, 12,131 Energetic tritium and carbon atoms, reactions of, with organic compounds, 2, 201 Enolisation of simple carbonyl compounds and related reactions, 18,1 Entropies of activation and mechanisms of reactions in solution, 1,1 Enzymatic catalysis, physical organic model systems and the problem of, 11, 1 Enzyme action, catalysis of micelles, membranes and other aqueous aggregates as models of, 17. 435... [Pg.337]

Enzymatic catalysis, physical organic model systems and the problem of, 11, 1... [Pg.301]

Physical Organic Model Systems and the Problem of Enzymatic Catalysis... [Pg.1]

PHYSICAL ORGANIC MODEL SYSTEMS ENZYMATIC CATALYSIS... [Pg.3]


See other pages where Organic modeling is mentioned: [Pg.3]    [Pg.141]    [Pg.517]    [Pg.519]    [Pg.134]    [Pg.137]    [Pg.75]    [Pg.95]    [Pg.96]    [Pg.97]    [Pg.480]    [Pg.480]    [Pg.636]    [Pg.363]   
See also in sourсe #XX -- [ Pg.43 , Pg.44 , Pg.45 , Pg.46 ]




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Adsorption model organic compounds

Adsorption of Model Organic Compounds on Surfactant Treated Cellulose Fibres

An NIH Model Organism for Biopharmaceutical and Biomedical Research The Lower Eukaryote Dictyostelium discoideum

Animal models, organ

Animal models, organ therapy

Cardiac organ models

Catalysis, enzymatic, physical organic model

Catalysis, enzymatic, physical organic model systems and the problem

Choosing Models in Organic Chemistry

Configuration mixing model: a general approach to organic reactivity

Data model organism

Electronegativity model, metal/organic

Enzyme catalysis, computer modeling physical organic chemistry, concepts

Equilibrium model for organic materials

Human organs, computer models

Hybrid inorganic-organic polymer model

Hybrid inorganic-organic polymer structural model

International Standards Organization/Open System Interconnect model

Laboratory model organisms

Living organisms modeling

Membrane organ models

Membrane transport organ models

Model Organic Species and Explosives with Clay Minerals

Model of natural organic matter

Model organism

Model organism

Model organisms used in forward chemical genomics

Modeling of Self-Organization in PEMs

Modelling organic molecules

Models organ system approach

Models organic matter interaction

Molecular modeling organic molecules

Molecular organization liquid crystal mechanical model

Organ clearance modeling

Organ modeling

Organ models

Organ models INDEX

Organ perfusion Brain model

Organ perfusion Kidney model

Organ perfusion Liver model

Organ perfusion Lung model

Organ transplantation animal models

Organic chemicals model world’ environment

Organic chemistry computer modelling

Organic chemistry fundamental reactions single-transition-state model

Organic liquid crystals, modelling

Organic matter isotopic mixing models

Organization Influence Model

Organization Swiss cheese model

Organized Media on Photochemical Reactions, A Model for the Influence of (Ramamurthy, Weiss, and Hammond)

Pyramidal organization model

Pyramidal organization model functions

Quantitative structure-activity relationship physical organic models

Reactivity, organic, a general approach to: the configuration mixing model

Schottky-Mott model metal/organic interfaces

Self-organization mesoscale model, 236

Solubility of Organic Molecules in Water Using a Surface Tension—Cavity Model System

Solvation, physical organic models

Strain, physical organic models

Supply chain organizations reference model

Synthesizer Model 440 multiple organic

TS Modelling of Organic Transformations

The Compartment Model of an Organism

The Sizes and Shapes of Organic Molecules. Molecular Models

Toward More Accurate Model Intermolecular Potentials for Organic Molecules

Whole-organ metabolic modeling

World Health Organization Model List of Essential Medicines

Yeast as a Model Organism for Genetic Studies and Recombinant DNA Technology

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