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As predictive genomics translates from research to future therapeutic uses, health systems move from a model of sick care to one of preventative care. A key component: using polygenic risk scores and tailoring prescription drugs to individual biology. Especially for high-risk cases, this helps improve outcomes and manage costs.
To make a real difference, Thermo Fisher Scientific is the right partner.
Population genotyping projects are enabling precision medicine decisions and leading to improved health care outcomes. Many national governments and large organizations are investing in scaling up genotyping infrastructure to support personalized solutions.
The Axiom solution consists of a technology platform that includes assay biochemistry, automated and manual target preparation options, multiple array plate formats, and array processing on the GeneTitan Multi-Channel Instrument. This solution has applications in human genetics research and microbiome research.
Jong Bhak, PhD, CEO, Clinomics; Professor of Biomedical Engineering, Ulsan National Institute of Science and Technology; Genome Lab and Korean Genomics Center
Expanding genetic disease testing in Korea with customizable population genomics microarrays
Dushyant Singh Baghel, MD, CEO of Nucleome Informatics
Investigating inherited retinal disease in India using customized genotyping arrays
Tuan Cao, Co-founder and CEO Genetica
Decoding unique Asian lifestyle and disease variants through collaboration and custom genotyping arrays
Richard Pither, PhD, CEO of Cytox
Transforming Alzheimer’s disease characterization through genetic risk scoring
Alexandre Pereira, MD, PhD, São Paulo University Heart Institute; Leader of Human Genetics, Laboratory of Genetics and Molecular Cardiology; Head of Genetics Outpatient Clinic
Mining the multiethnic Brazilian population for genetic risk factors in cardiovascular disease and Sars-CoV-2 exposure
Vision of Polygenic Risk Scores in Health Care
Professor Peter Donnelly talks about the vision of polygenic risk scores in health care. Learn how polygenic risk scores enable early identification of individuals at higher lifetime risk of disease, to target screening or interventions. See Sir Professor Peter Donnelly's full presentation video on a vision for polygenic risk scores in health care
The FinnGen Research Project: Combining Genomics and Health Record Data to Understand Disease Mechanisms
Hear Dr. Palotie speak about the research goal to improve our understanding of disease mechanisms, specifically in chronic diseases that affect a large part of the population, because that’s the clue toward new therapies; we need to understand more about the disease. And how we do that is we use special populations like the Finnish population, which has a special population history, providing certain benefits.
Bringing predictive genomics into a nationwide model: A spotlight on the Taiwan Precision Medicine Initiative
Dr. Kwok has been at the forefront of large-scale genomic studies. One of his most well-known undertakings was a collaboration between Kaiser Permanente and UCSF where scientists genotyped more than 100,000 Kaiser Permanente members. Today he is focused on two far-reaching goals. First, how to make precision medicine more precise by increasing the diversity of genomic databases. Second, how to sensibly incorporate genetic information into regular clinical practice.
Integrating preemptive pharmacogenomics into health care.
Learn what Dr. Philip Empey, the Associate Director for Pharmacogenomics of the Pitt/UPMC Institute of Precision Medicine and Director of the University of Pittsburgh/Thermo Fisher Scientific Pharmacogenomics Center of Excellence has to say regarding the challenges to incorporate pharmacogenomics into routine clinical decision making.
Genotyping Techniques Used by Researchers
Webinar 1: Animal Genotyping - In the first part of this webinar, Dr. Sarwar Azam of National Institute of Animal Biotechnology, India, talks about cattle genotyping and in the second part of the webinar Dr. Srinivas Chandram, of Thermo Fisher Scientific, explains companion animal genotyping.
Webinar 2: Plant Genotyping by Dr. Grant Poole presenting the basis for development of SNP‑based custom‑made and catalog arrays for wheat and rice.
Webinar 3: Exploring Microarray Technology in Predictive Genomics by Dr. Liuh Ling Goh of TTSH Molecular Diagnostic Laboratory, Singapore
Webinar 4: Enabling Better Health Outcomes through Predictive Genomics by Dr. Julian Wong, Sr. Product Manager, Thermo Fisher Scientific
Qatar Genome Program: Building the next generation of infrastructures to test the value of predictive genomics
Qatar Precision Medicine Institute/Qatar Genome Program is building the next generation of infrastructures to test the value of predictive genomics
The future of predictive genomics in Israel
What will it take to enable the implementation of predictive genomics in Israel's healthcare system? What are the challenges and how could these obstacles become opportunities?
This innovative and educational webinar brings together global predictive genomics experts who share their perspectives on the present and future of predictive genomics in Israel
Predictive genomics webinar series
Listen from global experts how genomics innovations are changing future of healthcare
Webinar 1: Genomics enabling population and personalized health by Aarno Palotie, MD, PhD and Importance of population-based biobanks in predictive genomics and personalized medicine-Vision of the future by Andres Metspalu
Webinar 2: What it takes to build a predictive genomics program by Samuli Ripatti
Webinar 3: Massively parallel genetic testing of the Han Chinese population in Taiwan: Lessons from the east by Pui-Yan Kwok, MD, PhD
The A to Z of microarrays - evolution of a revolutionary solution
Microarrays: An important tool for predictive genomics
Navigating the technology landscape for population-scale predictive genomics and exploring strategies for disease risk and drug response research
Preemptive Pharmacogenomics-investigating the relationship between genotype and drug response.
Decoding large national genetic study design
Smarter is better than larger: How imputation-aware whole-genome genotyping bridges the gap between sequencing and targeted panels
Flyer: Comprehensive solutions for your pharmacogenomics research
Brochure: Insights in disease risk and drug response - Axiom genotyping arrays for human studies
Brochure: Axiom PangenomiX and Axiom PangenomiX Plus arrays
Flyer: GeneTitan MC Fast Scan Instrument
Predictive Genomics Powering the future of population and personalized health
Axiom Propel workflow: Elevate your genotyping to a grand scale
The Axiom Genotyping Solution
GeneTitan MC Fast Scan Instrument
Selection guide: Axiom Genotyping Solution for Human Genetics
Total solution: Your partner from sample to insights
Predictive Genomics and Microarray Tutorial Video
Learn about Predictive Genomics. The tutorial explain what Predictive Genomics, Population Genomics, Pharmacogenomics and how Microarrays are used in these application areas.
Thermo Fisher Scientific Microarray Technology
The vision of Pharmacogenomics
The estimated annual cost of drug-related morbidity and mortality resulting from non-optimized medication therapy was $528.4 billion in the United States alone in 2016, equivalent to 16 percent of the country’s total health care expenditures. Pharmacogenomics, the understanding of how genes impact an individual’s response to medications, promises to change that. Significant progress has been made in using genomics to determine the safest, most effective course of treatments for individuals and, as these programs scale and go mainstream, we have reached a tipping point where they are starting to deliver on their promise of improving the health of communities and significantly lowering healthcare costs.
Predictive Genomics and Microarray Tutorial Video
Learn about Predictive Genomics. The tutorial explain what Predictive Genomics, Population Genomics, Pharmacogenomics and how Microarrays are used in these application areas.
Customer & Expert Testimonial Videos
What Should Be Reported to Participants in a Genomics Screening Program?
Several different types of information could be reported to participants in genomics-based screening programs. Rare inherited diseases might affect the participant themselves (autosomal dominant) or might not affect the participant but could affect their offspring (autosomal recessive). The risk for common complex diseases, such as diabetes or heart disease, may be assessed by polygenic risk scores that combine the effects of multiple low-impact variants. Pharmacogenetics captures variation in the way humans process drugs. Traits and ancestry do not have direct medical implications. Each of these categories has pros and cons when considering their inclusion in a genomics-based screening program. Genomics-based screening is not currently recommended for routine clinical use, but results may be returned to participants as part of an IRB-approved research study.
How Health Systems and National Initiatives Benefit from Genotype-Phenotype Research Databases
Building a monetizable data asset is the most common rationale for investing in a large genotype-phenotype database, but there are several other compelling reasons to move forward, including better risk segmentation and targeting interventions, participant engagement and activation, participant recruitment/retention, “marketing sizzle,” the perception of innovation, and the recruitment/retention of high-quality physician-researchers.
Investing in a large genotype-phenotype research database creates a monetizable data asset, particularly for pharmaceutical companies. The basic hypothesis is that genetics can help drug-makers identify and accelerate the development of relevant molecules that reach the right disease targets, while avoiding investments in programs based on less well-validated targets.
The Impact of Genetic Diversity on the Future of Health and Medicine
Personalizing health by tailoring treatments and predicting disease risk is predicated on understanding individual variation related to disease, behavioral and environmental factors. Global initiatives have taken aim at collecting comprehensive genetic, biologic and clinical data. Unfortunately, the majority of these initiatives primarily include people of European descent, creating inequities in non-European populations. If health systems, governments and academic research institutes want to better serve their communities, citizens and research efforts, population-based biobanks need to be representative of people with different genetic backgrounds, including marginalized and hard-to-reach groups. Failure to do this will lead to further inequities in health care.
The selection of publications and posters below focuses on large-scale predictive genomic studies citing the use of the Axiom whole-genome microarray platform.
For Research Use Only. Not for use in diagnostic procedures.