Internal 3D temperature mapping in biological systems using ratiometric light-sheet imaging and lipid-coated upconversion nanothermometers
Dannareli Barron-Ortiz, Enric Pérez-Parets, Rubén D Cadena-Nava, Emilio J Gualda, Jacob Licea-Rodríguez, Juan Hernández-Cordero, Pablo Loza-Álvarez, Israel Rocha-Mendoza

TL;DR
This paper introduces a new method using special nanoparticles and light-sheet imaging to map temperature inside biological systems with high precision.
Contribution
The novel use of lipid-coated upconversion nanothermometers with light-sheet imaging for 3D temperature mapping in biological systems.
Findings
Lipid-coated UCNPs enable real-time 3D temperature mapping with high spatial and temporal resolution.
The method was validated using fixed C. elegans after UCNP ingestion.
The technique is non-invasive and suitable for monitoring intracellular and organ-specific temperature dynamics.
Abstract
Upconversion nanoparticles (UCNPs) are well-known for their high efficiency, photostability, near-infrared excitation, and ability to estimate temperature through ratiometric imaging of two thermally coupled fluorescence bands. This work demonstrates the feasibility of volumetric temperature mapping in internal biological systems using light-sheet fluorescence microscopy and lipid-coated UCNPs as nanothermometry markers. This approach enables real-time thermal mapping with both high spatial and temporal resolution at the cellular and subcellular levels. To validate the method, we performed 3D temperature imaging on fixed Caenorhabditis elegans (C. elegans) after UCNP ingestion. The proposed technique represents a cutting-edge method for accurate 3D analysis of temperature-driven biological processes. It holds significant potential for applications in living organisms, offering a…
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Taxonomy
TopicsHeat shock proteins research · thermodynamics and calorimetric analyses · Luminescence Properties of Advanced Materials
