Abstract
The goal of this research is to develop an imaging agent that enables real-time and accurate diagnosis of smallsized colorectal cancer. Since colorectal cancer initially develops in the mucous membrane of the large intestine, a nonabsorbable colonoscopic imaging agent capable of being administered intracolonically was designed. The imaging agent is peanut agglutinin (PNA)-immobilized polystyrene nanospheres with surface poly(N-vinylacetamide) (PNVA) chains encapsulating coumarin 6. PNA is a targeting moiety that binds to β-D-galactosyl-(1-3)-N-acetyl-Dgalactosamine, which is the terminal sugar of the Thomsen-Friedenreich antigen that is specifically expressed on the mucosal side of colorectal cancer cells. PNVA is immobilized with the aim of reducing nonspecific interactions between the imaging agent and normal tissues, because the initial tumor-derived change is very small throughout the entire large intestine. Coumarin 6 is encapsulated into nanosphere cores to provide endoscopically-detectable fluorescence intensity. It is anticipated that the intracolonically-administered imaging agent recognizes tumor-derived changes in the large intestinal mucosa with high affinity and specificity. Real-time and accurate diagnosis of small-sized early colorectal cancer can be achieved through an imaging agent providing clear fluorescence contrast between normal and cancer tissues observed with a florescence endoscope. This review describes the design concept of this nanoprobe from a physicochemical perspective.
Keywords: Colonoscopy, colorectal cancer, diagnosis, endoscopy, imaging agent, lectin, nanospheres, poly(Nvinylacetamide), metastasis, narrow band imaging