Microphysiological systems for human aging research

Abstract: Recent advances in microphysiological systems (MPS), also known as organs‐on‐a‐chip (OoC), enable the recapitulation of more complex organ and tissue functions on a smaller scale in vitro. MPS therefore provide the potential to better understand human diseases and physiology. To date, numerous MPS platforms have been developed for various tissues and organs, including the heart, liver, kidney, blood vessels, muscle, and adipose tissue. However, only a few studies have explored using MPS platforms to unravel th… Show more

“…3 a). These stressors include UV light, hydrostatic pressure, disturbed flow, drugs, smoking, and chemicals, among others [ 73 ]. Early findings have revealed significant differences in molecular or biochemical properties between natural aging and stressor-induced aging [ 74 ].…”

Aging-related changes in the mechanical properties of single cells

“…3 a). These stressors include UV light, hydrostatic pressure, disturbed flow, drugs, smoking, and chemicals, among others [ 73 ]. Early findings have revealed significant differences in molecular or biochemical properties between natural aging and stressor-induced aging [ 74 ].…”

Aging-related changes in the mechanical properties of single cells

Challenges and Future Perspectives in Modeling Neurodegenerative Diseases Using Organ‐on‐a‐Chip Technology