Textbook of Personalized Medicine - Second Edition [2015]

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full development of compounds. The availability of genomic samples in large phase
IV trials provides a valuable resource for further understanding the molecular basis of
disease heterogeneity, providing data that feeds back into the drug discovery process
in target identifi cation and validation for the next generation of improved medicines.


Pharmacogenomics and Clinical Trials


Examples of role of pharmacogenomics in clinical trials are listed in Table 5.3.
The knowledge of pharmacogenetics and pharmacogenomics is already improv-
ing the conduct of clinical trials based on genotyping stratifi cation and development
of individualized healthcare or personalized medicines. Current applications of
pharmacogenomics include development by prospective genotyping in phase I tri-
als, to ensure that a subject population is representative with respect to drug metabo-
lism phenotypes. The banking of genetic material from later stage trials for
retrospective studies on drug response is becoming more frequent, but is not yet
standard in the industry. Retrospective studies using collections of DNA that supply
medical information on specifi c disease types, drug response and ethnic composi-
tion could build a foundation for the evolution of medicine from diagnosis and treat-
ment towards prediction and prognosis which are important components of
integrated personalized medicine. Figure 5.2 shows various steps for the application
of pharmacogenomics in clinical trials. Some examples of use of pharmacogenomics
in clinical studies are shown in Table 5.4.


Table 5.3 Role of pharmacogenomics in clinical trials
Identifi cation of variations in large number of genes that affect drug action
Stratifi cation of patients in clinical trials according to genotype
Reduction of the total number of patients required for clinical trials
Prediction of optimal doses of the drug in different patient populations
Reduction in drug development time by demonstrating effi cacy in specifi c populations
Prediction of adverse reactions or therapeutic failures based on the genotype of the patient
Prediction of drug-drug interactions
© Jain PharmaBiotech

Clinical trials for relationship
between candidate gene
variants and efficacy/ safety
sequence

Controlled clinical trials
on populations stratified
by genotyping sequence
Identification of the target for
drug action

Identification of the
mechanism of action of drug

Identification of the candidate
gene
© Jain PharmaBiotech

Fig. 5.2 Steps in the application of pharmacogenomics in clinical trials


5 Pharmacogenomics
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