AI-Based Research Suggests , Reversing Human Age , May Be 'Biologically Impossible'.br New research suggests that the process of aging br can potentially be slowed but not reversed.br 'The Independent' reports that researchers used machine br learning and artificial intelligence to determine ifbr reversing the biological process of aging is possible.br 'The Independent' reports that researchers used machine br learning and artificial intelligence to determine ifbr reversing the biological process of aging is possible.br According to a yet-to-be-peer-reviewed preprint br report in BioRxiv, the study focused on a key br component of aging known as "resilience.".br A factor called thermodynamic biological age br (tBA) reveals biological information br lost in an organism as it ages.br The team, which included Gero, a biotechnology firm based br in Singapore, claims that an increase in tBA drives an br "exponential acceleration" of chronic disease and death risks.br According to our measurements, br the number of people demonstrating br the loss of resilience increases in br the population exponentially and br doubles every eight years, exactly br as fast as the mortality rate doubles, Peter Fedichev, a co-author of the study and Chief of Gero, via 'The Independent'.br According to the team, the irreversible loss of br resiliency can more easily be understood asbr a process driven by thermodynamic change.br The team's results suggest that the thermodynamic br nature of aging places serious constraints on the br possibility of developing age-reversing technology.br The team's results suggest that the thermodynamic br nature of aging places serious constraints on the br possibility of developing age-reversing technology.br Peter Fedichev, a co-author of the study and Chief of Gero, says br that while recent studies have demonstrated the potential br for age reversal in mice, humans pose unique challenges.br Peter Fedichev, a co-author of the study and Chief of Gero, says br that while recent studies have demonstrated the potential br for age reversal in mice, humans pose unique challenges.br Still, Fedichev suggests that the rate of aging br could be slowed by controlling the chaos that br occurs in molecular interactions within cells.