Be at the forefront of healthcare innovation with a degree in Genomics
Genomics is an emerging medical field that is currently fuelling innovative approaches in several medical fields such as oncology, pharmacology, rare disorders and infectious diseases
It’s no surprise that in today’s digital environment, the notion of healthcare innovation is inextricably linked to digital transformation. Many firms have realized that they must incorporate cutting-edge digital healthcare solutions to remain competitive. This not only aids in attracting and retaining clinical staff and patients, as well as assisting hospital organizations in improving patient care, but also provides excellent career opportunities, particularly in the light of the Covid-19 pandemic, which has highlighted the need for improved healthcare systems.
If you want to be at the forefront of this revolution in healthcare, a degree in Genomics can be a great choice.
Introduction to Genomics
Genomics is a branch of genetics concerned with studying organisms’ genomes. It is an emerging medical field concerned with the use of genetic information about a person, as well as the health consequences and policy implications of such clinical usage. Intensive attempts to discover the full DNA sequence of species, as well as fine-scale genetic mapping studies, are all a part of this discipline.
Not only can genomics aid the prevention of chronic illnesses like heart disease, but it can also help with evaluating treatment choices for such diseases. It’s becoming increasingly important in reproductive health counselling, and infertility and newborn genetic diseases screening. It’s also proven useful in the creation of improved medicines for diseases like cancer, as well as the treatment of worldwide epidemics like COVID-19.
Why choose Genomics?
In the past, it took several years for new findings to be translated into medical treatment. However, genomic medicine is currently fuelling innovative approaches in several medical fields. When an illness is detected early enough, it can be successfully treated. Genomics has made it possible to detect disease many years before symptoms appear. Oncology, pharmacology, rare and undiagnosed disorders, and infectious disease are among domains where genomic medicine is having an impact. Oncology, in particular, is at the forefront of the genomics revolution.
Nearly 2,000 disease genes have been discovered as a result of the Human Genome Project, and these are proving to be quite useful for delivering quick and reliable analyses. They’ve proved particularly useful in discovering unusual genetic illnesses that took years to diagnose earlier, putting a stop to the uncertainty and agony of “diagnostic odysseys”.
Genomics is also driving pharmacogenomics, which is a crucial component of precision medicine. More than 250 medications have pharmacogenomic information attached to them, allowing them to be recommended based on a patient’s DNA. As the number of people who have their DNA sequenced rises, it’s probable that drugs will be recommended based on our genes on a regular basis, reducing dangerous side effects and making treatments speedier and more effective.
Access to genetic information is beneficial to almost everyone. Not only does genetics promise to provide the appropriate medicine to the right patient at the right time, but it also has the potential to unearth new information that can help clinicians make better decisions. As a result, technology is becoming increasingly crucial for everyone, not only for people with uncommon genetic disorders.
The genomics revolution is rapidly advancing into the forefront of medicine, generating an unprecedented number of assets to drive innovation, which could be a major driving force in addressing global challenges such as human health, food security, alternative energy sources, environmental sustainability, and so on. Already, healthcare is being transformed by this high potential technology, making it more focused, individualized, and proactive.
Advance your career with a degree in Genomics
A degree in Genomics will teach you about all elements of genomic research and medicine and how to read and understand genetic data. Taking the course will also provide students with an understanding of the fundamental ideas, tools, and foundations of genomic research, as well as how this might be applied to improve human health.
It will not only teach you how to use the newest breakthroughs in genomic technologies to improve patient outcomes but will also provide you with hands-on experience exploring and applying clinical and academic genomic data.
Confused about taking your first step? Check out the M.Sc. in Genomics from UPES.