Safer and more affordable medicine for all? How pharmacogenomics may level the playing field
Dr Mike Tocci discusses how pharmacogenomics can revolutionise medical research and improve the efficacy and quality of drugs.
Pharmacogenomics – a new scientific research field focused on the interplay between the human genome and the safety and efficacy of modern drugs – may level the therapy playing field for patients.
According to the US Centers for Disease Control and Prevention (CDC), more than 1.3 million Americans each year end up in the hospital because of an adverse drug reaction (ADR). With more than 100,000 deaths per year attributable to ADRs – making it the fourth leading cause of death – it has become a critical patient safety problem that the CDC, National Institutes of Health (NIH) and pharmaceutical companies have begun to address with pharmacogenomics; a field that focuses on helping physicians select the drugs and doses best suited for individual patients.
…the benefits of this field in healthcare and drug development will overall reduce rates over time”
While most research to date has concentrated on the response to drugs tailored to treat illnesses such as cardiovascular disease, Alzheimer’s disease, cancer, HIV/AIDS and asthma, there may be some light at the end of the tunnel for patients suffering from neuropsychiatric disorders like depression, schizophrenia and bipolar disorder – where patients often suffer severe side effects from their medication even after they have been taken off the drug.
According to Dr Mike Tocci, Associate Dean at the New Jersey Center for Science, Technology & Mathematics at Kean University, US: “Each person has a unique set of genes, so the way the disease manifests itself in an individual and how that individual’s body responds to treatment with specific drugs is different.”
The future of medicine
Tocci highlights that pharmacogenomics is a major component of “personalised medicine.”
“We are understanding the ways drugs are metabolised and achieve efficacy in individuals or are limited by adverse reactions in individual patients or patient populations through our genes. Physicians and drug researchers are rapidly learning how patients respond to certain compounds to better treat disease.”
The scope and costs associated with the research raise valid questions about who will benefit the most from this approach, both in the short- and long-term. Patients undergoing cancer therapy are a major focus but there has been progress for those suffering from autoimmune diseases, including diabetes and cardiovascular disease. Physicians will also be a major beneficiary with a more advanced understanding of how to treat patients better with more effective medication and a lower level of risk of adverse events.
While the costs to patients in the early stages of pharmacogenomics may be high, the benefits of this field in healthcare and drug development will overall reduce rates over time through the increased utilisation of biomarkers, gene expression profiling and cell mapping studies. In time, both the efficacy and safety of drugs will improve and as a result, become cheaper for patients.
Pharmacogenomics is heavily dependent on molecular biology and involves a number of processes including PCR, protein ID (Western blotting, ELISA), determining gene expression, gene and protein profiling techniques, cell sorting methods, cell separation techniques (centrifugations), cell imaging methods and the ability to analyse and profile cells in diseased tissues in both human and animal models.
Obstacles to advancement
“The long-term benefits of pharmacogenomics will be significant. Future work will enable personalised treatment of patients with more effective and safer drugs that will hopefully prolong life and/or improve quality of life by limiting side effects and adverse reactions. The biggest concern will be to ensure that we advance the science from an ethical standpoint and guarantee that all people can benefit and afford this,” concluded Dr Tocci.
Speaking on behalf of OHAUS, Dr Mike Tocci is Associate Dean of Research for the New Jersey Center for Science, Technology & Mathematics at Kean University, where Mike helps oversee the STEM degree programmes. His current research includes working on cancer biology to better understand biomarkers, medicinal chemistry to understand how one can block cancer cells from metastasising and understanding the genomics of how drugs interface with gene products.
Dr Mike Tocci