News & Views
Sweeping Cells Apart for use in Medical Research
Mar 31 2015
Researchers at the University of Glasgow have developed a new method to separate cells, which could lead to more efficient medical research. The new process, which the researchers have named ‘Dynamic acoustic field activated cell separation’ or DAFACS, has been found to recover up to 100% of useful cells from samples.
DAFACS uses moving acoustic waves which can be tuned to separate cells of different sizes from each other, allowing large cells to be easily swept free of smaller ones, or debris.
The research was led by Dr Anne Bernassau of the University of Glasgow’s School of Engineering and Dr Mathis Riehle of the Institute of Molecular, Cell and Systems Biology and is outlined in a new paper.*
Dr Bernassau said: “The process gives us very fine control over the particles we’re working with. The cells are held by acoustic waves, and we can then pick out the useful cells by moving the waves that hold the cells. The entire system cost us a few thousand pounds, which is considerably less than the tens of thousands needed for the most affordable cell sorting systems currently available. It can also be easily scaled up to allow many more cells to be separated than we have done in the lab so far.
”Dr Riehle added: “Our method allows for a very gentle separation because we apply exceedingly small forces - the soundwaves we use are of similar strength to the ones applied in medical ultrasound imaging. This process of very gently massaging the cells apart with acoustic waves leaves them in excellent condition for medical research.
“We tune the acoustic waves so that small cells and debris are left behind, while the much larger nerve cells we work with drift along with the moving waves. Watching the process at work through a microscope, you can see how the nerve cells are swept gently past the debris, which is held firmly in place.”
The paper, titled ‘Dynamic acoustic field activated cell separation (DAFACS)’, is published in Lab on a Chip and is available online at ow.ly/FBN4o
Digital Edition
Lab Asia 31.2 April 2024
April 2024
In This Edition Chromatography Articles - Approaches to troubleshooting an SPE method for the analysis of oligonucleotides (pt i) - High-precision liquid flow processes demand full fluidic c...
View all digital editions
Events
Apr 22 2024 Marrakech, Morroco
Making Pharmaceuticals Exhibition & Conference
Apr 23 2024 Coventry, UK
Apr 23 2024 Kintex, South Korea
Apr 23 2024 Seoul, South Korea
Apr 24 2024 Jakarta, Indonesia