Advanced Biophotonics techniques for cell and molecules manipulation associated with cancer and autoimmune diseases: the role of optical tweezers

TL;DR

This paper reviews advanced biophotonics techniques, especially optical tweezers, highlighting their role in non-invasive diagnostics and therapies for cancer and autoimmune diseases, integrating nanotechnology and biosensors.

Contribution

It provides a comprehensive overview of recent developments in biophotonics and optical tweezers for medical applications in cancer and autoimmune diseases.

Findings

Optical tweezers enable cell behavior tracking.

Biophotonics enhances non-invasive theranostics.

Integration with nanotech improves diagnostic tools.

Abstract

Biophotonic techniques are growing in rapid rhythms enabling the monitoring of subcellular structures and non-invasive theranostic interventions in cancer and autoimmune diseases. The integration of Biophotonics with nanotechnology and biosensors brings a revolution in the micro- and nano-world with new optical tools. Among them, optical tweezers revive as a potential tool for tracking cells behavior and probing interactions forces between cells, cells-biomolecules and cells-nanoparticles. In this review we aim to exhibit the state-of the art advances of the Biophotonics in the diagnostic and therapeutic field, and the role of optical tweezers.