The influence of cell elastic modulus on inertial positions in Poiseuille microflows.
2021
Abstract Microchannels are used as a transportation highway for suspended cells both in vivo and ex vivo. Lymphatic and cardiovascular systems transfer suspended cells through microchannels within the body while microfluidic techniques such as lab-on-a-chip devices, flow cytometry, and CAR T-cell therapy utilize microchannels of similar sizes to analyze or separate suspended cells ex vivo. Understanding the forces that cells are subject to whilst traveling through these channels are important as certain applications exploit these cell properties for cell separation. This study investigated the influence that cytoskeletal impairment has on the inertial positions of circulating cells in laminar pipe flow. Two representative cancer cell lines were treated using cytochalasin D, and their inertial positions were investigated, using particle streak imaging, and compared between benign and metastatic cell lines. This resulted in a shift in inertial positions between benign and metastatic, as well as treated and untreated cells. In order to determine and quantify the physical changes in the cells that resulted in this migration, staining and nanoindentation techniques were then used to determine the cells’ size, circularity and elastic modulus. It was found that the cells’ exposure to cytochalasin D resulted in decreased elastic moduli of cells, with benign and metastatic cells showing decreases of 135 ± 91 Pa and 130 ± 60 Pa respectively, with no change in either size or shape. This caused benign, stiffer cancer cells to be more evenly distributed across the channel width than metastatic, deformable cancer cells, additionally, a decrease in the elastic moduli of both cell lines resulted in increased migration towards the channel center. These results indicate that the elastic modulus, may play more of a part in the inertial migration of such cells than previously thought.
Keywords:
- Correction
- Source
- Cite
- Save
- Machine Reading By IdeaReader
84
References
3
Citations
NaN
KQI