Functional tests of an in vitro maintenance system prototype type organ-on-chip for skeletal muscle

Abstract

Due to the necessity to develop new systems which maintains the proper conditions for cell growth and cell interaction in vitro this work has focused on the characterisation of two models of maintenance system prototypes type organ-on-chip skeletal muscle tissue of neonatal mouse. Cell growth were monitored four days. The images of the cells were obtained through an optical microscope to measure the variations of the alignment angle, the analysis was performed using the ImageJ software. It is concluded that the two OoC prototype models delimit and help cell alignment, but because the surface of the microchannels was not homogeneous or completely flat, adding to this the depth factor, the cell proliferation was affected. As a result, we demonstrated that the proposed organ-on-chip system promotes cell alignment.