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Tracking Gold Nanorods’ Interaction with Large 3D Pancreatic-Stromal Tumor Spheroids by Multimodal Imaging: Fluorescence, Photoacoustic, and Photothermal Microscopies

Emilie Darrigues, Zeid A. Nima, Dmitry A. Nedosekin, Fumiya Watanabe, Karrer M. Alghazali, Vladimir P. Zharov, Alexandru S. Biris

2020Scientific Reports28 citationsDOIOpen Access PDF

Abstract

Pancreatic cancer is one of the most complex types of cancers to detect, diagnose, and treat. However, the field of nanomedicine has strong potential to address such challenges. When evaluating the diffusion and penetration of theranostic nanoparticles, the extracellular matrix (ECM) is of crucial importance because it acts as a barrier to the tumor microenvironment. In the present study, the penetration of functionalized, fluorescent gold nanorods into large (>500 μm) multicellular 3D tissue spheroids was studied using a multimodal imaging approach. The spheroids were generated by co-culturing pancreatic cancer cells and pancreatic stellate cells in multiple ratios to mimic variable tumor-stromal compositions and to investigate nanoparticle penetration. Fluorescence live imaging, photothermal, and photoacoustic analysis were utilized to examine nanoparticle behavior in the spheroids. Uniquely, the nanorods are intrinsically photoacoustic and photothermal, enabling multi-imaging detection even when fluorescence tracking is not possible or ideal.

Topics & Concepts

Photothermal therapyPancreatic cancerNanomedicineStromal cellNanorodMaterials scienceSpheroidColloidal goldNanoparticleNanotechnologyExtracellular matrixFluorescence-lifetime imaging microscopyFluorescenceTumor microenvironmentBiophysicsBiomedical engineeringChemistryCancer researchCancerMedicineOpticsIn vitroTumor cellsBiologyPhysicsBiochemistryInternal medicineNanoplatforms for cancer theranosticsPhotoacoustic and Ultrasonic ImagingExtracellular vesicles in disease
Tracking Gold Nanorods’ Interaction with Large 3D Pancreatic-Stromal Tumor Spheroids by Multimodal Imaging: Fluorescence, Photoacoustic, and Photothermal Microscopies | Litcius