High-Performance Metabolic Profiling of High-Risk Thyroid Nodules by ZrMOF Hybrids

甲状腺结节 恶性肿瘤 甲状腺癌 过度诊断 放射科 医学诊断 结核(地质) 内科学 甲状腺 医学 生物 病理 古生物学
作者
Junyu Chen,Xi Yu,Yijiao Qu,Xiao Wang,Xiao Wang,Yiran Wang,Ke Jia,Qiuyao Du,Jing Han,Huihui Liu,Xiaoyong Zhang,Xiaozhong Wang,Xiaozhong Wang,Zongxiu Nie
出处
期刊:ACS Nano [American Chemical Society]
卷期号:18 (32): 21336-21346 被引量:21
标识
DOI:10.1021/acsnano.4c05700
摘要

Thyroid nodules (TNs) have emerged as the most prevalent endocrine disorder in China. Fine-needle aspiration (FNA) remains the standard diagnostic method for assessing TN malignancy, although a majority of FNA results indicate benign conditions. Balancing diagnostic accuracy while mitigating overdiagnosis in patients with benign nodules poses a significant clinical challenge. Precise, noninvasive, and high-throughput screening methods for high-risk TN diagnosis are highly desired but remain less explored. Developing such approaches can improve the accuracy of noninvasive methods like ultrasound imaging and reduce overdiagnosis of benign nodule patients caused by invasive procedures. Herein, we investigate the application of gold-doped zirconium-based metal-organic framework (ZrMOF/Au) nanostructures for metabolic profiling of thyroid diseases. This approach enables the efficient extraction of urine metabolite fingerprints with high throughput, low background noise, and reproducibility. Utilizing partial least-squares discriminant analysis and four machine learning models, including neural network (NN), random forest (RF), logistic regression (LR), and support vector machine (SVM), we achieved an enhanced diagnostic accuracy (98.6%) for discriminating thyroid cancer (TC) from low-risk TNs by using a diagnostic panel. Through the analysis of metabolic differences, potential pathway changes between benign nodule and malignancy are identified. This work explores the potential of rapid thyroid disease screening using the ZrMOF/Au-assisted LDI-MS platform, providing a potential method for noninvasive screening of thyroid malignant tumors. Integrating this approach with imaging technologies such as ultrasound can enhance the reliability of noninvasive diagnostic methods for malignant tumor screening, helping to prevent unnecessary invasive procedures and reducing the risk of overdiagnosis and overtreatment in patients with benign nodules.
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