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The first multi-tissue epigenetic clock, Horvath's epigenetic clock, was developed by Steve Horvath, a professor of human genetics and biostatistics at UCLA (Horvath 2013). [10] [11] Horvath spent over 4 years collecting publicly available Illumina DNA methylation data and identifying suitable statistical methods. [12]
Steve Horvath is a German–American aging researcher, geneticist, and biostatistician. He is a professor at the University of California, Los Angeles known for developing the Horvath aging clock , which is a highly accurate molecular biomarker of aging , and for developing weighted correlation network analysis .
In 2013, geneticist Steve Horvath, Ph.D., invented the breakthrough that made this conversation even possible: the epigenetic clock. ... (It’s available through his nonprofit Epigenetic Clock ...
But only in 2013, when UCLA aging researcher and bioinformatician Steve Horvath, PhD, created the first epigenetic aging “clock” based on DNA methylation, did it become what scientists ...
This clock was generated with saliva samples and was based on 3 CpGs found in 3 gene promoters (EDARADD, TOM1L1, and NPTX2). Two years later, Steve Horvath generated epigenetic clocks for 51 different tissues and cell-types using 353 CpGs. [4]
The family specifically took a test from TruDiagnostic, which looked at epigenetic markers to determine their biological age. But there are a ton of these tests out there right now, like Horvath's ...
Regardless of how many birthdays you've celebrated, your overall health may depend on the resilience and vitality of your cells. "Chronological age is what the calendar tells us," Elissa Epel, PhD ...
Advances in big data analysis allowed for the new types of "aging clocks" to be developed. The epigenetic clock is a promising biomarker of aging and can accurately predict human chronological age. [6] Basic blood biochemistry and cell counts can also be used to accurately predict the chronological age. [7]