Longitudinal imaging and femtosecond laser manipulation of the liver: How to generate and trace single-cell-resolved micro-damage in vivo

Abstract: The liver is known to possess extensive regenerative capabilities, the processes and pathways of which are not fully understood. A necessary step towards a better understanding involves the analysis of regeneration on the microscopic level in the in vivo environment. We developed an evaluation method combining longitudinal imaging analysis in vivo with simultaneous manipulation on single cell level. An abdominal imaging window was implanted in vivo in Balb/C mice for recurrent imaging after implantation. Intra… Show more

“…Since the density of necessary photons occurs only in the focal plane, a precise separation from the environment can be reached, with no thermal or mechanical energy being released to the surrounding cells [ 17 , 20 ]. Based on the complexity and cost, femtosecond laser systems have rarely been used to study regeneration in a cellular [ 18 , 21 , 22 ] or even in an organoid context.…”

Investigation of Colonic Regeneration via Precise Damage Application Using Femtosecond Laser-Based Nanosurgery

“…Since the density of necessary photons occurs only in the focal plane, a precise separation from the environment can be reached, with no thermal or mechanical energy being released to the surrounding cells [ 17 , 20 ]. Based on the complexity and cost, femtosecond laser systems have rarely been used to study regeneration in a cellular [ 18 , 21 , 22 ] or even in an organoid context.…”

Investigation of Colonic Regeneration via Precise Damage Application Using Femtosecond Laser-Based Nanosurgery