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ADME is the key for ensuring efficacy and tolerability. However, many drugs still fail due to poor ADME. This report examines the latest research on the causes and consequences of ADME changes in the elderly and children.  

Commercial considerations such as market size, demographics, and the impact of ADME on the cost of drug development are thoroughly discussed.  In addition, age related changes in ADME and in silico ADME profiles are detailed. The Report features exclusive interviews with key opinion leaders in the ADME arena as well as relevant case studies.

TABLE OF CONTENTS

Chapter 1: Executive Summary

References

Chapter 2: Background

Introduction

De.ning Age

The Elderly

Pediatric Groups

Demographic Changes

Healthcare Expenditure in the Elderly

Age-Related Diseases: An Increasingly Important Market

Regulatory Issues

Regulatory Pressure to Study Pediatric Populations

Exploratory Investigational New Drug Studies

Increased Emphasis on Safety

Biomarkers

Sources of Information and Scope of Report

References

Chapter 3: ADME—The Essentials

What is Pharmacokinetics?

Absorption

Transporters

Distribution

The Apparent Volume of Distribution (VD)

Protein Binding

Metabolism

Pharmacogenomics and Metabolism

Drug Transporters and Metabolism

Excretion

Variation

The Problem of Poor Compliance

Whole-Body Pharmacokinetic Modeling

Receptor Microscopic Autoradiography

Non-Linear Pharmacokinetics

High-Throughput Screening and the Rule of Five

References

Chapter 4: Age-related Changes in ADME

Introduction

Age-Related Physiological Changes in the Elderly that Impact on ADME

Renal Excretion

Hepatic Function

Sources of Age-Related Changes in Children

Juvenile Animal Studies

Modi.ed Release and Other Formulation Issues

Clinical Biomarkers

References

Chapter 5: In Silico ADME

Introduction

Examples of In silico ADME

Simulations Plus

MetaDrug

Lhasa Limited

VolSurf

Combinatorial Pharmacology

PK-Sim

A Lack of Data Hinders In silico Development

Insights from Systems Biology

QSAR and ADME

References

Chapter 6: Expert Interviews

Participants

Questions

References

Chapter 7: Commercial Considerations

Introduction

Market Size

Impact on the Cost of Drug Development

References

Chapter 8: Summary and Conclusions

Chapter 9: Company Pro.les

Accelrys, Inc

BASi (Bioanalytical Systems, Inc.)

BioFocus

Covance Inc.

DDS Medicines Research Ltd.

DxS Ltd .

GeneGo Inc

Kendle

Lhasa Limited

Molecular Devices Corporation

Nimbus Biotechnologie GmbH

NoAb BioDiscoveries Inc

Oxford Genome Sciences (UK) Ltd

Pharmaceutical Pro.les Group

Pharmagene Laboratories Limited

Simulations Plus, Inc

Tripos, Inc

References

Chapter 10: References

TABLE OF EXHIBITS

Exhibit 2.1 Life Expectancy from Birth for Men and Women Born Between 1900 and 2000

Exhibit 2.2 The Proportion of the Population Aged over 80 Years in Various Countries

Exhibit 2.3 Healthcare Expenditure in the Elderly in Various Countries

Exhibit 3.1 Idealized Plasma Concentration Time Curve Showing Some Key Pharmacokinetic Parameters

Exhibit 3.2 The Effect of SNP in Drug Metabolism Enzyme on the Plasma Concentration-time Curve for a Hypothetical Medicine

Exhibit 3.3 Patients of Patients Intolerant of Simvastatin Strati.ed by Expression of CYP2D6

Exhibit 3.4 Examples of SNPs in Drug Metabolizing Enzymes and the Allele Frequency in Various Populations

Exhibit 3.5 Examples of Some Factors In.uencing Intra-patient Variations in Pharmacokinetics

Exhibit 3.6 Compliance Rates in Various Conditions

Exhibit 3.7 Examples of Modi.ed Release Formulations

Exhibit 3.8 Drug-Target Homunculus

Exhibit 4.1 The Effect of Age on Plasma Elimination Half-lives

Exhibit 4.2 Factors that Could In.uence ADME in Preterm Infants and Neonates Born at Term

Exhibit 4.3 Examples of Physiological Functions that May In.uence Pharmacokinetic Differences between Infants and Adults

Exhibit 4.4 Body Composition in Neonates and Adults

Exhibit 5.1 Clinical Data and GastroPlus Simulation for Oral Administration of Gabapentin to Pediatric Subjects with Average Age of 6 years

Exhibit 5.2 Observed Clearance in Children versus Clearance as Predicted with PK-Sim

Exhibit 5.3 Simulated Plasma Concentration Curves of Levo.oxacin and Morphine for Children for Different Age Groups Compared to the Corresponding Experimental Data

Exhibit 5.4 A Hypothetical Example of a Network

Exhibit 5.5 Types of QSAR Analyses .