A new type of multifunctional silica-coated nanocomposites, detectable by their upconversion fluorescence and addressable by a magnetic field, was synthesized.
Aberrant glucose metabolism and immune evasion are recognized as two hallmarks of cancer, which contribute to poor treatment efficiency and tumor progression. Herein, a novel material system consisting of a glucose and TEMPO (2,2,6,6‐tetramethylpiperidin‐1‐yl)oxyl) at the distal ends of PEO‐b‐PLLA block copolymer (glucose‐PEO‐b‐PLLA‐TEMPO), is designed to encapsulate clinical therapeutics CUDC101 and photosensitizer IR780. The specific core–shell rod structure formed by the designed copolymer renders TEMPO radicals excellent stability against reduction‐induced magnetic resonance imaging (MRI) silence. Tumor‐targeting moiety endowed by glucose provides the radical copolymer outstanding multimodal imaging capabilities, including MRI, photoacoustic imaging, and fluorescence imaging. Efficient delivery of CUDC101 and IR780 is achieved to synergize the antitumor immune activation through IR780‐mediated photodynamic therapy (PDT) and CUDC101‐triggered CD47 inhibition, showing M1 phenotype polarization of tumor‐associated macrophages (TAMs). More intriguingly, this study demonstrates PDT‐stimulated p53 can also re‐educate TAMs, providing a combined strategy of using dual tumor microenvironment remodeling to achieve the synergistic effect in the transition from cold immunosuppressive to hot immunoresponsive tumor microenvironment.
Abstract-Anew high-order refined shear deformation theory based on Reissner's mixed variational principle in conjunction with the state-space concept is used to determine the deflections and stresses for rectangular cross-ply composite plates. A zig-zag shaped function and Legendre polynomials are introduced to approximate the in-plane displacement distributions across the plate thickness. Numerical results are presented with different edge conditions, aspect ratios, lamination schemes and loadings. A comparison with the exact solutions obtained by Pagan0 and the results by Khdeir indicates that the present theory accurately estimates the in-plane responses.
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