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Mapping Local Cytosolic Enzymatic Activity in Human Esophageal Mucosa with Porous Silicon Nanoneedles
Journal article   Peer reviewed

Mapping Local Cytosolic Enzymatic Activity in Human Esophageal Mucosa with Porous Silicon Nanoneedles

Ciro Chiappini, Paola Campagnolo, Carina S Almeida, Nima Abbassi-Ghadi, Lesley W Chow, George B Hanna and Molly M Stevens
Advanced materials (Weinheim), Vol.27(35), pp.5147-5152
16/09/2015
DOI: https://doi.org/10.1002/adma.201501304
PMCID: PMC4858817
PMID: 26197973

Abstract

Biosensing Techniques - methods Cathepsin B - metabolism Cell Line, Tumor Cytosol - enzymology Esophagus - cytology Humans Mucous Membrane - cytology Nanotechnology - methods Porosity Silicon - chemistry
Porous silicon nanoneedles can map Cathepsin B activity across normal and tumor human esophageal mucosa. Assembling a peptide-based Cathepsin B cleavable sensor over a large array of nano-needles allows the discrimination of cancer cells from healthy ones in mixed culture. The same sensor applied to tissue can map Cathepsin B activity with high resolution across the tumor margin area of esophageal adenocarcinoma.

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