Journal of Innovative Optical Health Sciences, Volume. 10, Issue 2, 1650044(2017)
Fast infectious diseases diagnostics based on microfluidic biochip system
[1] [1] Liu L., Johnson H. L., Cousens S., Perin J., Scott S., Lawn J. E., Rudan I., Campbell H., Cibulskis R., Li M., Mathers C. and Black R. E., Child Health Epidemiology Reference Group of WHO and UNICEF, “Global, regional, and national causes of child mortality: an updated systematic analysis for 2010 with time trends since 2000, External Web Site Icon Lancet 379 (9832) (2012) 2151–2161.
[2] [2] Caliendo A. M., Gilbert D. N., Ginocchio C. C., Hanson K. E., May L., Quinn T. C., Tenover F. C., Alland D., Blaschke A. J., Bonomo R. A., Carroll K. C., Ferraro M. J., Hirschhorn L. R., Joseph W. P., Karchmer T., MacIntyre A. T., Reller L. B. and Jackson A. F., Infectious Diseases Society of America (IDSA), “Better tests, better care: improved diagnostics for infectious diseases, Clin. Infect. Dis. 57 (suppl 3) (2013) S139–S170.
[3] [3] Liu J., Kabir F., Manneh J., Lertsethtakarn P., Begum S., Gratz J., Becker S. M., Operario D. J., Taniuchi M., Janaki L., Platts-Mills J. A., Haverstic D. M., Kabir M., Sobuz S. U., Nakjarung K., Sakpaisal P., Silapong S., Bodhidatta L., Quresh S., Kalam A., Saidi Q., Swai N., Mujaga B., Maro A., Kwambana B., Dione M., Antonio M., Kibiki G., Mason C. J., Haque R., Iqbal N., Zaidi A. K. M. and Houpt E. R., Development and assessment of molecular diagnostic tests for 15 enteropathogens causing childhood diarrhoea: a multicentre study, Lancet Infect. Dis. 14 (8) (2014) 716–724.
[4] [4] Hammack T. S., Valentin-Bon I. E., Jacobson A. P. and Andrews W. H., Relative effectiveness of the Bacteriological Analytical Manual method for the recovery of Salmonella from whole cantaloupes and cantaloupe rinses with selected preenrichment media and rapid methods, J. Food Prot. 67 (5) (2004) 870–877.
[5] [5] Schneid A. D. S., Rodrigues K. L., Chemello D., Tondo E. C., Ayub M. A. Z. and Aleixo J. A. G., Evaluation of an indirect ELISA for the detection of Salmonella in chicken meat, Braz. J. Microbiol. 37 (3) (2006) 350–355.
[6] [6] Saiki R. K., Scharf S., Faloona F., Mullis K. B., Horn G. T., Erlich H. A. and Arnheim N., Enzymatic amplification of β -globin genomic sequence and restriction site analysis for diagnosis of sickle cell anemia, Science 230 (4732) (1985) 1350–1354.
[7] [7] Tsugunori N., Hiroto O., Harumi M., Toshihiro Y., Keiko W., Nobuyuki A. and Tetsu H., Loop-mediated isothermal amplification of DNA, Nucl. Acids Res. 28 (12) (2000) e63.
[8] [8] Compton J., Nucleic acid sequence-based amplification, Nature 350 (6313) (1991) 91–92.
[9] [9] Walker G. T., Fraiser M. S., Schram J. L, Little M. C., Nadeau J. G. and Malinowski D. P., Strand displacement amplification-an isothermal in vitro DNA amplification technique, Nucl. Acids Res 20 (7) (1992) 1691–1696.
[10] [10] Liu D., Daubendiek S. M., Zillman K. R. and Kool E. J., Rolling circle DNA synthesis: Small circular oligonucleotides as efficient templates for DNA polymerases, Am. Chem. Soc. 118 (7) (1996) 1587–1594.
[11] [11] Mori Y. and Notomi T., Loop-mediated isothermal amplifi cation (LAMP): a rapid, accurate, and cost-effective diagnostic method for infectious diseases, J. Infect. Chemother. 15 (2) (2009) 62–69.
[12] [12] Foudeh A. M., Didar T. F., Veres T. and Tabrizian M., Microfluidic designs and techniques using lab-on-a-chip devices for pathogen detection for point-of-care diagnostics, Lab Chip 12 (18) (2012) 3249–3266.
[13] [13] Wang C. H., Lien K. Y., Wang T. Y., Chen T. Y. and Lee G. B., An integrated microfluidic loop-mediated-isothermal-amplification system for rapid sample pre-treatment and detection of viruses, Biosens. Bioelectron 26 (5) (2011) 2045–2052.
[14] [14] Ahmad F., Seyrig G., Tourlousse D. M., Stedtfeld R. D., Tiedje J. M. and Hashsham S. A., A CCD-based fluorescence imaging system for real-time loop-mediated isothermal amplification-based rapid and sensitive detection of waterborne pathogens on microchips, Biomed. Microdev 13 (5) (2011) 929–937.
[15] [15] Frank B. M., Richard H. H., Jennifer B. and Luke P. L., A Handheld Point-of-Care Genomic Diagnostic System, PLOS One 8 (8) (2013) e70266.
[16] [16] Luo J., Fang X., Ye D. X., Li H. X., Chen H., Zhang S. and Kong J. L., A real-time microfluidic multiplex electrochemical loop-mediated isothermal amplification chip for differentiating bacteria, Biosens. Bioelectron. 60 (2014) 84–91.
[17] [17] Sun Y., Quyen T. L., Hung T. Q., Chin W. H., Wolff A. and Bang D. D., A lab-on-a-chip system with integrated sample preparation and loop-mediated isothermal amplification for rapid and quantitative detection of Salmonella spp. in food samples, Lab Chip. 15 (8) (2015) 1898–1904.
[18] [18] Mark D. B., Kevin W. K. and Jonathan D. P., NAIL: Nucleic Acid detection using Isotachophoresis and Loop-mediated isothermal amplification, Lab Chip. 15 (7) (2015) 1697–1707.
[19] [19] Huang G., Yang X., Zhu J., Xu S., Deng C. and Han C., Detection and application of microfluid isothermal amplification on chip, Journal of Innovative Optical Health Sciences (JIOHS) 1 (2) (2008) 257–265. Link,
[20] [20] Huang G., Huang Q., Ma L., Luo X., Pang B., Zhang Z., Wang R., Zhang J., Li Q., Fu R. and Ye J., fM to aM nucleic acid amplification for molecular diagnostics in a non-stick-coated metal microfluidic bioreactor, Scientific Reports 4 (7344) (2014) 1–9.
[21] [21] TongZhou W., Ye Z., GuoLiang H., Can W., Lan X., Li M., ZhiYong L., XianBo L., Hao T., Qiang L., Xin L., XhouYan L. and XiaoFan B., Detect early stage lung cancer by a LAMP microfluidic chip system with a real-time fluorescent filter processor, Science China Chemistry 55 (4) (2012) 508–514.
[22] [22] Huang G., Wang L., Ma L., Yang X., Yang X. and Wang G., Sensitive sequence-specific molecular identification system comprising an aluminum micro-nanofluidic chip and associated real-time confocal detector, Analytica Chimica Acta 695, (2011) 1–10.
[23] [23] Huang Q., Han S., Zhang Y., Qu X., Fu J., Zhang Z., Ding L., Quan Y., Zhao X. and Huang G., Novel micro-nanofluidic chip and device for fast identifying pathogenic bacteria, Journal of Computational and Theoretical Nanoscience 12, (2015) 1–6.
Get Citation
Copy Citation Text
[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Fast infectious diseases diagnostics based on microfluidic biochip system[J]. Journal of Innovative Optical Health Sciences, 2017, 10(2): 1650044
Received: May. 22, 2016
Accepted: Jul. 7, 2016
Published Online: Dec. 27, 2018
The Author Email: (xhztao@126.com)