Pharmacogenetics in breast cancer: steps toward personalized medicine in breast cancer management

Rofaiel, Sarah; Muo, Esther N; Mousa, Shaker A.

doi:10.2147/pgpm.s10789

PGPM

2010

DOI: 10.2147/pgpm.s10789

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Pharmacogenetics in breast cancer: steps toward personalized medicine in breast cancer management

Sarah Rofaiel

Esther N Muo²,

Shaker A. Mousa

Abstract: There is wide individual variability in the pharmacokinetics, pharmacodynamics, and tolerance to anticancer drugs within the same ethnic group and even greater variability among different ethnicities. Pharmacogenomics (PG) has the potential to provide personalized therapy based on individual genetic variability in an effort to maximize efficacy and reduce adverse effects. The benefits of PG include improved therapeutic index, improved dose regimen, and selection of optimal types of drug for an individual or se… Show more

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Cited by 4 publications

References 109 publications

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Genetics/Genomics and Drug Effects

Heller¹

2013

Acta Clinica Belgica

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Differences in response to medications both in terms of clinical activity and side-effects have long been recognised by physicians. Genetics has been recently considered as a potential factor to explain part of this variability. Pharmacogenetics focuses on the variants within one or more candidate genes while pharmacogenomics evaluates the entire genome for associations with pharmacologic phenotypes. Genetic variants can effect drug metabolism, drug transport or drug targets. Drug metabolism is responsible 1. for the conversion of prodrugs into active compounds or conversion of drug to toxic or inactive metabolites mostly through reactions mostly catalysed by cytochromes (CYP) P450 (phase reactions) and 2. for transforming drugs to compounds that are more water soluble and more easily excreted (phase type II reactions). Genetic polymorphisms can modify the activity of several CYPs such as CYPs, 2D6, 2C9, 2C19 with altered responses to codeine, tamoxifen, clopidogrel, warfarin, ... or of enzymes of the phase II reactions with abnormal responses to drugs like irinotecan, 5-fluorouracil, azathioprine, ... Proteins involved in the transport of drugs in or out the cells such as chemiotherapeutic agenrs, simvastatin, ... can also be affected by genetics. Genetics can also modify drug targets by mutations affecting tumour cells rending these later more or less responsive to drugs. Genetic tests have been launched for screening polymorphisms before giving drugs such as warfarin and several biomarkers are available in oncology. However, many challenges exist. For example, we need more prospective studies to have a better knowledge of the clinical impact and the cost-effectiveness of these tests. It remains that in the future pharmacogenetics/genomics will probably help to personalise medicine by conferring to the clinician the possibility of giving the right drug to the right patients and by this way improving efficacy and safety of medications.

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Genetics/Genomics and Drug Effects

Heller¹

2013

Acta Clinica Belgica

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Return of Research Results from Pharmacogenomic Versus Disease Susceptibility Studies: What‘s Drugs got to do with it?

Dressler

2012

Pharmacogenomics

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One of the most controversial ethical issues in genomics research is the return of individual research results to research subjects. As new technologies, including whole-genome sequencing, provide an increased opportunity for researchers to find clinically relevant research results, the questions related to if, when and how individual research results should be returned become more central to the ethical conduct of genomic research. In the absence of federal guidance on this issue, many groups and individuals have developed recommendations and suggestions to address these questions. Most of these recommendations have focused on the return of individual results from disease susceptibility studies. However, in addition to predicting the development of disease, genomic research also includes predicting an individual’s response to drugs, especially the risk of developing adverse events. This article evaluates and compares the return of individual research results from disease susceptibility studies versus pharmacogenomic studies.

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Animal Models in an Age of Personalized Medicine

Greek¹,

Menache²,

Rice

2011

Personalized Medicine

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Personalized medicine is based on intraspecies differences. It is axiomatic that small differences in genetic make-up can result in dramatic differences in response to drugs or disease. To express this in more general terms: in any given complex system, small changes in initial conditions can result in dramatically different outcomes. Despite human variability and intraspecies variation in other species, nonhuman species are still the primary model for ascertaining data for humans. We call this practice into question and conclude that human-based research should be the primary means for obtaining data about human diseases and responses to drugs.

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Pharmacogenetics in breast cancer: steps toward personalized medicine in breast cancer management

Cited by 4 publications

References 109 publications

Genetics/Genomics and Drug Effects

Genetics/Genomics and Drug Effects

Return of Research Results from Pharmacogenomic Versus Disease Susceptibility Studies: What‘s Drugs got to do with it?

Animal Models in an Age of Personalized Medicine

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