posted on 2023-12-12, 19:40authored byXue Zhang, Longtao Ji, Man Liu, Jiaqi Li, Hao Sun, Feifei Liang, Yutong Zhao, Zhi Wang, Ting Yang, Yulin Wang, Qiufang Si, Renle Du, Liping Dai, Songyun Ouyang
Given the pressing clinical problem
of making a decision in diagnosis
for subjects with pulmonary nodules, we aimed to discover novel plasma
protein biomarkers for lung adenocarcinoma (LUAD) and benign pulmonary
nodules (BPNs) and then develop an integrative multianalytical model
to guide the clinical management of LUAD and BPN patients. Through
label-free quantitative plasma proteomic analysis (data are available
via ProteomeXchange with identifier PXD046731), 12 differentially
expressed proteins (DEPs) in LUAD and BPN were screened. The diagnostic
abilities of DEPs were validated in two independent validation cohorts.
The results showed that the levels of three candidate proteins (PRDX2,
PON1, and APOC3) were lower in the plasma of LUAD than in BPN. The
three candidate proteins were combined with three promising computed
tomography indicators (spiculation, vascular notch sign, and lobulation)
and three traditional markers (CEA, CA125, and CYFRA21-1) to construct
an integrative multianalytical model, which was effective in distinguishing
LUAD from BPN, with an AUC of 0.904, a sensitivity of 81.44%, and
a specificity of 90.14%. Moreover, the model possessed impressive
diagnostic performance between early LUADs and BPNs, with the AUC,
sensitivity, specificity, and accuracy of 0.868, 65.63%, 90.14%, and
82.52%, respectively. This model may be a useful auxiliary diagnostic
tool for LUAD and BPN by achieving a better balance of sensitivity
and specificity.