Highly Sensitive Early Diagnosis of Kidney Damage Using Renal Clearable Zwitterion‐Coated Ferrite Nanoprobe via Magnetic Resonance Imaging In Vivo

Author:

Zhou Ting1,Dong Yanzhi1,Wang Xiaoyi2,Liu Ruxia3,Cheng Ran1,Pan Jinbin4,Zhang Xuejun1,Sun Shao‐Kai1ORCID

Affiliation:

1. School of Medical Imaging Tianjin Medical University Tianjin 300203 China

2. Department of Radiology and Ultrasound The Second Hospital of Tianjin Medical University Tianjin 300211 China

3. Department of Rehabilitation School of Medical Technology Tianjin Medical University Tianjin 300203 China

4. Department of Radiology Tianjin Key Laboratory of Functional Imaging Tianjin Medical University General Hospital Tianjin 300052 China

Abstract

AbstractIron oxide nanoprobes exhibit substantial potential in magnetic resonance imaging (MRI) of kidney diseases and can eliminate the nephrotoxicity of gadolinium‐based contrast agents (GBCAs). Nevertheless, there is an extreme shortage of highly sensitive and renal clearable iron oxide nanoprobes suitable for early kidney damage detection through MRI. Herein, a renal clearable ultra‐small ferrite nanoprobe (UMFNPs@ZDS) is proposed for highly sensitive early diagnosis of kidney damage via structural and functional MRI in vivo for the first time. The nanoprobe comprises a ferrite core coated with a zwitterionic layer, and possesses a high T1 relaxivity (12.52 mm−1s−1), a small hydrodynamic size (6.43 nm), remarkable water solubility, excellent biocompatibility, and impressive renal clearable ability. In a rat model of unilateral ureteral obstruction (UUO), the nanoprobe‐based MRI can not only accurately visualize the locations of renal injury, but also provide comprehensive functional data including peak value, peak time, relative renal function (RRF), and clearance percentage via MRI. The findings prove the immense potential of ferrite nanoprobes as a superior alternative to GBCAs for the early diagnosis of kidney damage.

Funder

Natural Science Foundation of Tianjin Municipality

National Natural Science Foundation of China

Publisher

Wiley

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