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Main Authors: Franco, Alfredo, Calderón, Izan, Ortiz, Dolores, Fernández-Luna, José L., Moreno, Fernando
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.08205
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author Franco, Alfredo
Calderón, Izan
Ortiz, Dolores
Fernández-Luna, José L.
Moreno, Fernando
author_facet Franco, Alfredo
Calderón, Izan
Ortiz, Dolores
Fernández-Luna, José L.
Moreno, Fernando
contents In this research, a reflection-based nanohole array sensor system is presented for discriminating between migration-competent cancer cells that maintain the integrity of the actin cortex and those cells lacking the actin cortex and thus unable to migrate. Unlike previous transmission-based approaches, this configuration allows for more practical integration into in situ diagnostic tools. For the first time, the system performance is analyzed by studying the spectral features of the reflected light by live single cells. We demonstrate that the presence of the actin cortex, needed for cell migration, in different types of cancer cells significantly affect their optical response, enabling high sensitivity and specificity in cell classification. Our results pave the way for reflection-based plasmonic biosensor devices as a compact and efficient platform for developing biomedical application tools.
format Preprint
id arxiv_https___arxiv_org_abs_2508_08205
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optical discrimination of live single cancer cells using reflection-based nanohole array sensor
Franco, Alfredo
Calderón, Izan
Ortiz, Dolores
Fernández-Luna, José L.
Moreno, Fernando
Applied Physics
In this research, a reflection-based nanohole array sensor system is presented for discriminating between migration-competent cancer cells that maintain the integrity of the actin cortex and those cells lacking the actin cortex and thus unable to migrate. Unlike previous transmission-based approaches, this configuration allows for more practical integration into in situ diagnostic tools. For the first time, the system performance is analyzed by studying the spectral features of the reflected light by live single cells. We demonstrate that the presence of the actin cortex, needed for cell migration, in different types of cancer cells significantly affect their optical response, enabling high sensitivity and specificity in cell classification. Our results pave the way for reflection-based plasmonic biosensor devices as a compact and efficient platform for developing biomedical application tools.
title Optical discrimination of live single cancer cells using reflection-based nanohole array sensor
topic Applied Physics
url https://arxiv.org/abs/2508.08205