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9780470261231

Systems Biology in Drug Discovery and Development

by ;
  • ISBN13:

    9780470261231

  • ISBN10:

    0470261234

  • Edition: 1st
  • Format: Hardcover
  • Copyright: 2011-10-18
  • Publisher: Wiley

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Summary

This is the first comprehensive systems biology book to focus on its applications in drug discovery and development. Using real-world examples, the book shows how systems biology can be used to enhance pharmaceutical research and drug development. It highlights essential components of drug discovery like target identification and validation and complementary systems approaches like text-mining, large multi-context datasets and regression modeling. It also provides models for treatment personalization and methods for applying systems biology to pharmacokinetics, pharmacodynamics, and candidate biomarker indentification. Introducing key methods and technical approaches the book addresses the challenges currently facing the drug industry.

Author Biography

Daniel L. Young, Phd, is the Director of Computational Biosciences at Theranos Inc., where he leads the development of systems biology approaches to advances and entrance drug discovery and development and the optimal delivery of healthcare. He has written over twenty publications in the field of systems biology. Seth Michelson, PhD, is the Director of Nonclinical Biostatistics at Genomic Health, Inc. inventor or co-inventor for fourteen patient applications and one issued patient, and has contributed to over severity publications.

Table of Contents

Prefacep. xi
Contributorsp. xv
Introduction to Systems Biology in Approach
Introduction to Systems Biology in Drug Discovery and Developmentp. 3
Systems Biology in Pharmacologyp. 3
Referencesp. 5
Methods for In Silico Biology: Model Construction and Analysisp. 7
Introductionp. 7
Model Buildingp. 8
Parameter Estimationp. 21
Model Analysisp. 28
Conclusionsp. 32 References
Methods in In Silico Biology: Modeling Feedback Dynamics in Pathwaysp. 37
Introductionp. 37
Statistical Modelingp. 39
Mathematical Modelingp. 46
Feedback and Feedforwardp. 49
Conclusionsp. 56
Referencesp. 56
Simulation of Population Variability in Pharmacokineticsp. 59
Introductionp. 59
PBPK Modelingp. 60
Simulation of Pharmacokinetic Variabilityp. 61
Conclusions and Future Directionsp. 79
Referencesp. 80
Applications to Drug Discovery
Applications of Systems Biology Approaches to Target Identification and Validation in Drug Discoveryp. 95
Introductionp. 95
Typical Drug Discovery Paradigmp. 97
Integrated Drug Discoveryp. 99
Drivers of the Disease Phenotype: Clinical Endpoints and Hypothesesp. 100
Extracellular Disease Drivers: Mechanistic Biotherapeutic Modelsp. 106
Relevant Cell Models for Clinical Endpointsp. 109
Intracellular Disease Drivers: Signaling Pathway Quantificationp. 110
Target Selection: Dynamic Pathway Modelingp. 117
Conclusionsp. 123
Referencesp. 125
Lead Identification and Optimizationp. 135
Introductionp. 135
The Systems Biology Tool Kitp. 139
Conclusionsp. 142
Referencesp. 143
Role of Core Biological Motifs in Dose-Response Modeling: An Example with Switchlike Circuitsp. 147
Introduction: Systems Perspectives in Drug Discoveryp. 147
Systems Biology and Toxicologyp. 148
Mechanistic and Computational Concepts in a Molecular or Cellular Contextp. 151
Response Motifs in Cell Signaling and Their Role in Dose Responsep. 152
Discussion and Conclusionsp. 165
Referencesp. 169
Mechanism-Based Pharmacokinetic-Pharmacodynamic Modeling During Discovery and Early Developmentp. 175
Introductionp. 175
Challenges in Drug Discovery and Developmentp. 176
Methodological Aspects and Conceptsp. 179
Use of PK-PD Models in Lead Optimizationp. 183
Use of PK-PD Models in Clinical Candidate Selectionp. 188
Entry-into-Human Preparation and Translational PK-PD Modelingp. 189
Use of PK-PD Models in Toxicology Study Design and Evaluationp. 189
Justification of Starting Dose, Calculation of Safety Margins, and Support of Phase I Designp. 191
Phase I and Beyondp. 193
Support of Early Formulation Developmentp. 195
Outlook and Conclusionsp. 196
Referencesp. 197
Applications to Drug Development
Developing Oncology Drugs Using Virtual Patients of Vascular Tumor Diseasesp. 203
Introductionp. 203
Modeling Angiogenesisp. 205
Use of Rigorous Mathematical Analysis to Gain Insight into Drug Developmentp. 213
Use of Angiogenesis Models in Theranosticsp. 220
Use of Angiogenesis Models in Drug Salvagep. 226
Summary and Conclusionsp. 230
Referencesp. 231
Systems Modeling Applied to Candidate Biomarker Identificationp. 239
Introductionp. 239
Biomarker Discovery Approachesp. 245
Examples of Systems Modeling Approaches for Identification of Candidate Biomarkersp. 252
Conclusionsp. 260
Referencesp. 260
Simulating Clinical Trialsp. 265
Introductionp. 265
Types of Models Used in Clinical Trial Designp. 272
Sources of Prior Information for Designing Clinical Trialsp. 276
Aspects of a Trial to Be Designed and Optimizedp. 277
Trial Simulationp. 279
Optimizing Designsp. 281
Real-World Examplesp. 283
Conclusionsp. 284
Referencesp. 284
Synergies with other Technologies
Pathway Analysis in Drug Discoveryp. 289
Introduction: Pathway Analysis, Dynamic Modeling, and Network Analysisp. 289
Software Systems for Pathway Analysisp. 292
Pathway Analysis in the Modern Drug Development Pipelinep. 293
Conclusionsp. 298
Referencesp. 299
Functional Mapping for Predicting Drug Response and Enabling Personalized Medicinep. 303
Introductionp. 304
Functional Mappingp. 306
Predictive Modelp. 311
Future Directionsp. 315
Referencesp. 318
Future Outlook for Systems Biologyp. 323
Introductionp. 323
System Complexity in Biological Systemsp. 324
Models for Quantitative Integration of Datap. 325
Changing Requirements for Systems Approaches During Drug Discovery and Developmentp. 328
Better Models for Better Decisionsp. 330
Advancing Personalized Medicinep. 334
Improving Clinical Trials and Enabling More Complex Treatment Approachesp. 337
Collaboration and Training for Systems Biologistsp. 340
Conclusionsp. 342
Referencesp. 343
Indexp. 349
Table of Contents provided by Ingram. All Rights Reserved.

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