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Mathematical Modeling in Experimental Nutrition

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Cover of 'Mathematical Modeling in Experimental Nutrition'

Table of Contents

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    Book Overview
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    Chapter 1 Balancing needs, efficiency, and functionality in the provision of modeling software: a perspective of the NIH WinSAAM Project.
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    Chapter 2 Compartmental Modeling of Human Lactation
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    Chapter 3 Modeling Protein Turnover: A Module for Teaching Modeling
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    Chapter 4 Developing and Testing Integrated Multicompartment Models to Describe a Single-Input Multiple-Output Study Using the SAAM II Software System
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    Chapter 5 Compartmental Models: Theory and Practice Using the SAAM II Software System
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    Chapter 6 Approaches to Population Kinetic Analysis with Application to Metabolic Studies
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    Chapter 7 The Mathematics behind Modeling
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    Chapter 8 Distributing working versions of published mathematical models for biological systems via the Internet.
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    Chapter 9 Measurement error and dietary intake.
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    Chapter 10 Statistical Models for Quantitative Bioassay
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    Chapter 11 Statistical Issues in Assay Development and Use
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    Chapter 12 Statistical Tools for the Analysis of Nutrition Effects on the Survival of Cohorts
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    Chapter 13 Development of a Compartmental Model Describing the Dynamics of Vitamin A Metabolism in Men
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    Chapter 14 Compartmental Models of Vitamin A and β-Carotene Metabolism in Women
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    Chapter 15 The dynamics of folic acid metabolism in an adult given a small tracer dose of 14C-folic acid.
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    Chapter 16 Human Zinc Metabolism: Advances in the Modeling of Stable Isotope Data
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    Chapter 17 Key Features of Copper versus Molybdenum Metabolism Models in Humans
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    Chapter 18 Insights into Bone Metabolism from Calcium Kinetic Studies in Children
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    Chapter 19 Modeling of Energy Expenditure and Resting Metabolic Rate during Weight Loss in Humans
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    Chapter 20 Development and Application of a Compartmental Model of 3-Methylhistidine Metabolism in Humans and Domestic Animals
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    Chapter 21 Modeling Ruminant Digestion and Metabolism
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    Chapter 22 Designing a Radioisotope Experiment Using a Dymamic, Mechanistic Model of Protein Turnover
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    Chapter 23 Protocol Development for Biological Tracer Studies
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    Chapter 24 Plasma Source Mass Spectrometry in Experimental Nutrition
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    Chapter 25 Accelerator Mass Spectrometry as a Bioanalytical Tool for Nutritional Research
Attention for Chapter 1: Balancing needs, efficiency, and functionality in the provision of modeling software: a perspective of the NIH WinSAAM Project.
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Chapter title
Balancing needs, efficiency, and functionality in the provision of modeling software: a perspective of the NIH WinSAAM Project.
Chapter number 1
Book title
Mathematical Modeling in Experimental Nutrition
Published in
Advances in experimental medicine and biology, January 1998
DOI 10.1007/978-1-4899-1959-5_1
Pubmed ID
9781379
Book ISBNs
978-1-4899-1961-8, 978-1-4899-1959-5
Authors

Peter Greif, Meryl Wastney, Oscar Linares, Ray C. Boston, Greif, Peter, Wastney, Meryl, Linares, Oscar, Boston, Ray C.

Abstract

The development of new software or the refinement of existing software for new operating environments each calls for judicious balancing. On the one hand, we strive for simplicity, predictability, and operational protection as it is well recognized that software with these attributes will attract an audience of satisfied users. But, on the other hand, these attributes do not conjure a sense of power, efficiency, or flexibility, and these other properties are also appreciated by users, albeit a somewhat different group of users. The goal is to achieve a blend which isolates critical functionality, flexible control, and user support while meeting the needs of the broadest collection of serious users. In this chapter, we discuss the issues impacting the migration of SAAM to the Windows environment, the NIH WinSAAM Project, and we outline the steps taken to ensure its feasibility. In addition, we describe a new paradigm for software development and use which ensures the durability of the software for modeling.

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The data shown below were compiled from readership statistics for 1 Mendeley reader of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 1 100%

Demographic breakdown

Readers by professional status Count As %
Researcher 1 100%
Readers by discipline Count As %
Medicine and Dentistry 1 100%

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