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Biomimetic-Membrane-Protected Plasmonic Nanostructures as Dual-Modality Contrast Agents for Correlated Surface-Enhanced Raman Scattering and Photoacoustic Detection of Hidden Tumor Lesions

Indrajit Srivastava, Ruiyang Xue, Hsuan‐Kai Huang, Ziwen Wang, Jamie Jones, Isabella Vasquez, Subhendu Pandit, Li Lin, Shensheng Zhao, Kristen M. Flatt, Viktor Gruev, Yun‐Sheng Chen, Shuming Nie

2024ACS Applied Materials & Interfaces26 citationsDOI

Abstract

Optical imaging and spectroscopic modalities are of considerable current interest for in vivo cancer detection and image-guided surgery, but the turbid or scattering nature of biomedical tissues has severely limited their abilities to detect buried or occluded tumor lesions. Here we report the development of a dual-modality plasmonic nanostructure based on colloidal gold nanostars (AuNSs) for simultaneous surface-enhanced Raman scattering (SERS) and photoacoustic (PA) detection of tumor phantoms embedded (hidden) in ex vivo animal tissues. By using red blood cell membranes as a naturally derived biomimetic coating, we show that this class of dual-modality contrast agents can provide both Raman spectroscopic and PA signals for the detection and differentiation of hidden solid tumors with greatly improved depths of tissue penetration. Compared to previous polymer-coated AuNSs, the biomimetic coatings are also able to minimize protein adsorption and cellular uptake when exposed to human plasma without compromising their SERS or PA signals. We further show that tumor-targeting peptides (such as cyclic RGD) can be noncovalently inserted for targeting the ανβ 3 -integrin receptors expressed on metastatic cancer cells and tracked via both SERS and PA imaging (PAI). Finally, we demonstrate image-guided resections of tumor-mimicking phantoms comprising metastatic tumor cells buried under layers of skin and fat tissues (6 mm in thickness). Specifically, PAI was used to determine the precise tumor location, while SERS spectroscopic signals were used for tumor identification and differentiation. This work opens the possibility of using these biomimetic dual-modality nanoparticles with superior signal and biological stability for intraoperative cancer detection and resection.

Topics & Concepts

Materials scienceRaman scatteringIn vivoPhotoacoustic imaging in biomedicineCancer cellEx vivoBiomedical engineeringCirculating tumor cellNanomedicineNanoparticleNanotechnologyBiophysicsCancerRaman spectroscopyMetastasisOpticsBiologyPhysicsGeneticsBiotechnologyMedicineGold and Silver Nanoparticles Synthesis and ApplicationsNanoplatforms for cancer theranosticsBiosensors and Analytical Detection
Biomimetic-Membrane-Protected Plasmonic Nanostructures as Dual-Modality Contrast Agents for Correlated Surface-Enhanced Raman Scattering and Photoacoustic Detection of Hidden Tumor Lesions | Litcius