PLGA+Fe₃O₄+PFP Nanoparticles Drug-Delivery Demonstrates Potential Anti-Tumor Effects on Tumor Cells

Dayan Yang; Qiqing Chen; Min Zhang; Lin Xie; Yan Chen; Tingting Zhong; Fang Tian; Guiying Feng; Xiangxiang Jing; Ling Lin

doi:10.12659/AOT.933246

11 February 2022 : Original article

PLGA+Fe₃O₄+PFP Nanoparticles Drug-Delivery Demonstrates Potential Anti-Tumor Effects on Tumor Cells

Dayan Yang^1BCDEF, Qiqing Chen^1BCDF, Min Zhang^1BCDF, Lin Xie^1BCD, Yan Chen^1BCF, Tingting Zhong^1BCF, Fang Tian^1BC, Guiying Feng^1CF, Xiangxiang Jing^1ABEG*, Ling Lin^1ADF

DOI: 10.12659/AOT.933246

Ann Transplant 2022; 27:e933246

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Figure 3 Invasive capability of PLGA+Fe3O4+PFP nanoparticles into HNE1 cells (n=6, magnification, ×600). The invasive capability of nanoparticles was increased with increased concentrations of nanoparticles (0.3 μg/ml, 0.6 μg/ml, 1.2 μg/ml, 3.0 μg/ml). The red-stained cells were defined as nanoparticles-invaded HNE1 cells. Microsoft Office PowerPoint 2010 (Redmond, WA, USA) was used to create images.

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PLGA+Fe₃O₄+PFP Nanoparticles Drug-Delivery Demonstrates Potential Anti-Tumor Effects on Tumor Cells

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