Cancer Detection on a Chip?

Figure 5 shows typical scanned images of bead-array for analyzing adjacent normal tissue and tumor tissue. Huang et al. (2015) Digital Detection of Multiple Minority Mutants and Expression Levels of Multiple Colorectal Cancer-Related Genes Using Digital-PCR Coupled with Bead-Array. PLOS ONE 10(4):e0123420. doi:10.1371/journal.pone.0123420.g005
Figure 5 shows typical scanned images of bead-array for analyzing adjacent normal tissue and tumor tissue. Huang et al. (2015) Digital Detection of Multiple Minority Mutants and Expression Levels of Multiple Colorectal Cancer-Related Genes Using Digital-PCR Coupled with Bead-Array. PLOS ONE 10(4):e0123420. doi:10.1371/journal.pone.0123420.g005
The ideal cancer detection method would involve giving a sample of blood or tissue and using DNA or RNA analysis to determine if there were any gene sequence or gene expression changes that are known hallmarks of cancer. Unfortunately, most current screening methods used are not so precise and in some cases are invasive. However useful tests for colon cancer may be, many people do not subject themselves to the standard colonoscopy. What if there was an easier, noninvasive method that could be used to screen for cancer and detect changes at the early, easily treatable stages of cancer? A recent article in PLOS ONE describes just such a mutation detection method for colorectal cancer using purified nucleic acid with a method that involves emulsion PCR, bead arrays and fluorescent probes. Continue reading “Cancer Detection on a Chip?”