bioeng_admin
2012-03-26 22:00:27
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우리학과 박제균 교수님 연구실의 박사과정학생인 Fengshan Shen 양이 Analytical Chemistry에 발표한 논문이 다음과 같이 미국화학회 발간 Chemical & Engineering News 3/12일자 최근 뉴스에 소개되었습니다. - 논문제목: Fengshan Shen, Hyundoo Hwang, Young Ki Hahn, Je-Kyun Park, "Label-free cell separation using a tunable magnetophoretic repulsion force," Analytical Chemistry 2012, DOI: 10.1021/ac201505j. - 관련사이트: http://cen.acs.org/articles/90/web/2012/03/Microfluidic-Device-Separates-Unlabeled-Cells.html March 12, 2012 | Latest News Microfluidic Device Separates Unlabeled Cells Medical Diagnostics: A magnetic salt solution separates cell types in microfluidic device Magnets separate types of human cells in a newly developed microfluidic device. But unlike previously designed magnetic sorting systems, this one doesn’t require labeling the cells first (Anal. Chem., DOI: 10.1021/ac201505j). The new method could lead to cheaper, faster medical diagnostic devices, the researchers say. Scientists use cell-sorting methods to isolate cells for experiments or to diagnose disease. For example, they might separate rare cancer cells from blood to diagnose breast or colon cancer. In a well-established technique called magnet-activated cell sorting, or MACS, researchers use magnetic particles attached to antibodies for a cell-surface protein to tag desired cell types. They then pass the collection of cells through a magnetic field to separate tagged from untagged cells. Some researchers want to skip the labeling step. “Processing steps cost money and time, and you never get 100% efficiency in labeling and recovery,” says Jeffrey Chalmers, a professor of chemical and biomolecular engineering at Ohio State University, who was not involved in the new study. Researchers also have to chemically remove the magnetic labels from sorted cells before they can use the cells in experiments or in medical treatments, says Je-Kyun Park, of the Korea Advanced Institute of Science and Technology. That process, he says, can lead to fewer viable cells. To avoid labeling, Park and his colleagues built a lab-on-a-chip device that separates types of cells by using a magnetic salt solution. The salt, gadolinium-diethylenetriamine pentaacetic acid, is biocompatible and doesn’t damage the cells, Park says. Doctors already use it as a contrast agent in magnetic resonance imaging procedures. The cells travel through the device’s microfluidic channel. A magnet sits above this channel, and the resulting magnetic field’s combined effect on the cells and solution is to push the cells away. The strength of the force pushing on the cells depends in part on the size of the cell, with larger cells experiencing a greater force. As a result, the stream of cells separates into multiple streams, according to cell type. Park’s team tested the device using a mixture of lymphoma cells and red blood cells. The researchers used a microscope to monitor the streams of cells and found that the stream of lymphoma cells was more than 90% pure. This level of separation proves that the label-free method can effectively sort cells, Park says. Ohio State’s Chalmers says that his group and others have tested parts of this method, such as manipulating the flow of cells in magnetic solutions, but Park’s group is the first to build a successful cell sorter using those principles. |
