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Welcome to the Empowered Patient Podcast with Karen Jagoda.  This show offers a glimpse into the latest innovations in applying generative AI, novel therapeutics and vaccines, and the evolving dynamics in the medical and healthcare landscape. One focus is on how providers, pharmaceutical companies, and payers are empowering patients.  In addition, conversations often focus on how technology is empowering providers, care facilities, pharmaceutical companies, and payers to improve patient outcomes and reduce friction across the healthcare landscape.  Popular Topics Include: Virtual and digital health Use of AI, ML, and robots for clinical and administrative purposes  Value-based healthcare  Precision and stratified medicine Next-generation immuno, cell, and gene therapies Vaccines for infectious diseases and oncology Biomarkers and diagnostics Rare diseases MedTech and medical devices Clinical trials  Population health Chronic conditions l Clinician and staff burnout Smart hospitals The audience includes life science leaders, researchers, medical professionals, patient advocates, digital health entrepreneurs, patients, caregivers, healthcare solution providers, students, journalists, and investors.
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  2. Third-Generation Sequencing Unlocks Insights Into Epigenetics and Biomarkers with Dr. Jonathon Hill Wasatch Bio Labs

Third-Generation Sequencing Unlocks Insights Into Epigenetics and Biomarkers with Dr. Jonathon Hill Wasatch Bio Labs

Nov 8, 2024

Dr. Jonathon Hill, VP of Science and Technology and Co-Founder of Wasatch Bio Labs has developed the Next-Generation Sequencing 3.0, NESSI-Seq platform, which can analyze blood to detect epigenetic changes and provide insights into current health and predisposition for diseases. This native-read third-generation sequencing tool can provide longer sequence reads and analyze epigenetic modifications to DNA. Epigenetics can change over time in response to diet, environment, and lifestyle. Advanced genetic testing has the potential to provide biomarkers to support personalized medicine for earlier detection and tailored interventions.

Jonathon explains, "The biggest limitation with the Illumina sequencing was that it was only short sequences, so you had to get a lot of them to stitch them together and figure out what the human genome looked like. With this third-generation sequencing, we can get much longer reads, sometimes to the order of a hundred thousand nucleotide bases at a time. So we get these big complex reads."

"The other thing we can do now with this third-generation sequencing is look at certain chemical modifications the body makes to the DNA to help regulate that DNA and help the body function. And looking at those chemical modifications can tell us a lot about someone's health. It can tell us their age, and it can tell us what disease they might have. We can get a lot of information out of that that just wasn't available to us in the previous two generations." 

"If you think of classical genetics, it's the DNA sequence and the mutations you might have that might give you a propensity for the disease, etc. Those don't change throughout your life. Every cell in your body has that exact same sequence from birth until death. It never changes. But the epigenetics, these chemical modifications change. They change as you age. They are different in different tissues and organs within your body, changing even in response to pathogens or certain disease states. So they have a lot of information that we would not get otherwise."

#WasatchBioLabs #Epigenetics #GeneticResearch #PersonalizedMedicine #DNAInnovation #GeneticTesting #NextGenSequencing #BiotechBreakthroughs #GeneRegulation #HealthcareInnovation #FutureofMedicine

Wasatchbiolabs.com

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