纳米探针
磁共振成像
胶质瘤
材料科学
生物医学工程
医学影像学
脑瘤
体内
纳米颗粒
铁氧体(磁铁)
临床前影像学
放射科
荧光寿命成像显微镜
分子成像
医学
表征(材料科学)
扫描仪
成像技术
作者
Huanhuan Wu,Haoyu Wang,Jinwen Wei,Gang Shu,Shao‐Kai Sun,Cai Zhang,Dong Li
标识
DOI:10.1002/adhm.202500304
摘要
Acquiring multidimensional tumor and tumor-associated vascular information is essential for accurate diagnosis and treatment planning of glioma, yet effective imaging methods are still lacking. Here, ultrasmall manganese ferrite nanoparticles (UMFNs) are developed as a dual contrast-enhanced T1-weighted imaging (T1WI) and susceptibility-weighted imaging (SWI) probe for multidimensional diagnosis of glioma. The UMFNs are synthesized through thermal decomposition and functionalized with polyethylene glycol, ensuring excellent water dispersibility and biocompatibility. Characterization studies confirm the nanoparticles' uniform size (3.8 nm) and high stability in various media. High r1 (6.8 mm-1 s-1) and r2* (95.1 mm-1 s-1) values demonstrate the superior T1 and T2* enhancement capabilities of UMFNs. In vivo imaging on a 3.0 T magnetic resonance imaging (MRI) scanner demonstrates that UMFN-enhanced SWI clearly delineates tumor margins and provides sustained tumor enhancement in ultrasmall orthotopic glioma (<2 mm). Besides, UMFN-enhanced SWI reveals distinct vascular structures associated with the glioma, including tortuous, thickened vessels indicative of tumor-induced angiogenesis. Whole-brain histological analysis corroborates these findings, demonstrating dense tumor proliferation and vascular remodeling. These results highlight the potential of UMFNs as a dual-enhanced agent for the early detection and high-resolution vascular mapping of glioma, providing an advanced multidimensional method for precise diagnosis of brain tumors.
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