Thanks to new practices of applying statistical modeling to artificial intelligence via computers, disease detection has become more efficient and accurate. This has given rise to the field of computational immunology, defined as a discipline that uses mathematical models and statistical techniques to understand patterns behind immune systems and effectively develop drugs. New methods of sequencing genomes and understanding proteomics –the study of protein structures and functions– have increased the amount of data available for research, which scientists can study to glean more information about immune responses.
Cellular Senescence and Aging: Reduction of Biological Age Through Senotherapeutic Peptides
Aging scientists have been exploring a cell growth arrest phenomenon, cellular senescence, as a possible cause of biological aging. Senotherapeutic treatments have been discovered to reduce biological aging through the clearance of these growth-arrested “senescent” cells, resulting in mechanisms to increase biological age longevity. Could senotherapeutics be the path to human lifespan expansion?