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학술지 Direct Label-Free Electrical Immunodetection in Human Serum Using a Flow-Through-Apparatus Approach with Integrated Field-Effect Transistors
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저자
김안순, 아칠성, 박찬우, 양종헌, 김태엽, 안창근, 박선희, 성건용
발행일
201003
출처
Biosensors and Bioelectronics, v.25 no.7, pp.1767-1773
ISSN
0956-5663
출판사
Elsevier
DOI
https://dx.doi.org/10.1016/j.bios.2009.12.026
협약과제
09IC1500, 유비쿼터스 건강관리용 모듈 시스템, 김승환
초록
In order to identify changes in the levels of key proteins in response to the onset or development of a disease, the research fields of proteomics and genomics seek to develop new biomarkers. Specifically, simple and fast biomarker screens have a central role in many areas of healthcare, including disease diagnosis and drug discovery. Biologically modified field-effect transistor (BioFET) is one of the most attractive approaches because of the on-chip integration of the sensor array, fast response, high reliability and lowcost mass production. However, the BioFETs used to detect macromolecules have been operated only in buffer solution with low salt concentrations because of the Debye screening length of blood or serum. Here we report a novel detection technique for direct label-free immunodetection of cancer markers in human serum using a Si-FET that was fabricated by conventional photolithographic processes. The proposed sensing method shows no dissociation of antigen-antibody binding as in general immunoassays, unlike the previous reports on Si-FET sensors. This method therefore overcomes the Debye length problem of immunodetection in human fluids, such as serum, that are generally encountered by FET-based biosensors. Our results demonstrate specific label-free and real-time immunodetection of a cancer marker at a concentration of 0.2 ng/mL in human serum, quantitative detection of the marker from 0.2 to 114 ng/mL, and successful multiplexed sensing of three different cancer markers. We believe that connecting our simple electrical detection method, which does not require pretreatment of serum, with well-established whole blood filter technology will contribute to the development of new point-of-care testing (POCT) sensors. © 2009 Elsevier B.V.
키워드
Cancer markers, Diagnostics, Electrical biosensor, Field-effect transistor, Label-free detection
KSP 제안 키워드
Antigen-antibody binding, Buffer solution, Cancer marker, Debye length, Debye screening length, Detection Method, Disease Diagnosis, Drug discovery, Electrical detection, Field-effect transistors(FETs), High Reliability