Temperature‐Activated Near‐Infrared‐II Fluorescence and SERS Dynamic‐Reversible Probes for Long‐Term Assessment of Osteoarthritis In Vivo

Author:

Li Qingqing1ORCID,Xiao Shenggan1,Ge Xiaoguang1,Zheng Liting1,Wu Ying2,Du Wei1,Chen Lanlan1,Yang Huanghao1,Song Jibin2ORCID

Affiliation:

1. Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China, New Cornerstone Science Laboratory, College of Chemistry Fuzhou University Fuzhou 350108 China

2. State Key Laboratory of Chemical Resource Engineering, College of Chemistry Beijing University of Chemical Technology Beijing 10010 China

Abstract

AbstractThe abnormal fluctuation of temperature in vivo usually reflects the progression of inflammatory diseases. Noninvasive, real‐time, and accurate monitoring and imaging of temperature variation in vivo is advantageous for guiding the early diagnosis and treatment of disease, but it remains difficult to achieve. Herein, we developed a temperature‐activated near‐infrared‐II fluorescence (NIR‐II FL) and surface‐enhanced Raman scattering (SERS) nanoprobe for long‐term monitoring of temperature changes in rat arthritis and timely assessment of the status of osteoarthritis. The thermosensitive polymer bearing NIR‐II FL dye was grafted onto the surface of nanoporous core‐satellite gold nanostructures to form the nanoprobe, wherein the nanoprobe contains NIR‐II FL and Raman reference signals that are independent of temperature change. The ratiometric FL1150/FL1550 and S1528/S2226 values of the nanoprobe exhibited a reversible conversion with temperature changes. The nanoprobe accurately distinguishes the temperature variations in the inflamed joint versus the normal joint in vivo by ratiometric FL and SERS imaging, allowing for an accurate diagnosis of inflammation. Meanwhile, it can continuously monitor fluctuations in temperature over an extended period during the onset and treatment of inflammation. The tested temperature change trend could be used as an indicator for early diagnosis of inflammation and real‐time evaluation of therapeutic effects.

Funder

Fundamental Research Funds for the Central Universities

National Natural Science Foundation of China

China Postdoctoral Science Foundation

Publisher

Wiley

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