2024
DOI: 10.1016/j.actbio.2023.11.029
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Cell membrane-based biomimetic technology for cancer phototherapy: Mechanisms, recent advances and perspectives

Songtao Li,
Xiangrui Meng,
Bo Peng
et al.
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Cited by 20 publications
(5 citation statements)
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“…Multiple cell membranes are currently used in this biomimetic strategy, including the membranes of erythrocytes, platelets, cancer cells, immune cells, stem cells, bacteria, and even hybrid cell membranes. 81,82…”
Section: Characterization and Synthesis Of Cmnpsmentioning
confidence: 99%
“…Multiple cell membranes are currently used in this biomimetic strategy, including the membranes of erythrocytes, platelets, cancer cells, immune cells, stem cells, bacteria, and even hybrid cell membranes. 81,82…”
Section: Characterization and Synthesis Of Cmnpsmentioning
confidence: 99%
“…In cancer therapy, phototherapy is vital for impairing progression of cancer cells and it can increase ROS generation or mediate hyperthermia to trigger tumor ablation. More information regaerding phototherapy-mediated tumor ablation can be found in recent reviews [187] , [188] , [189] , [190] , [191] . The first type of phototherapy is photothermal therapy (PDT) that aims in development of nano-scale delivery systems for photosensitizers and sometimes, chemotherapy drugs are also loaded on nanoparticles to mediate combination of phototherapy and chemotherapy.…”
Section: Phototherapy and Light-responsive Liposomesmentioning
confidence: 99%
“…[12] The coating of different biomembranes can endow nanocomposites with different capabilities, such as good biocompatibility, extended circulation time, homologous tumor or inflammation targeting, and enhanced BBB penetration, facilitating efficient monitoring of disease progression, accurate differentiation of tumor tissues, and significant improvement of anti-tumor effectiveness. [13] In this concept, we discuss the recent advancements in biomimetic nanocomposites for effective glioma imaging and therapy. Firstly, we introduce the applications of biomimetic nanocomposites in glioma imaging, which include FI, MRI, and multi-modal imaging.…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, in the aspect of the outer shell, the biomembranes can be extracted from various sources, including red blood cells, glioma cells, brain metastatic tumor cells, immune cells, exosomes and so on [12] . The coating of different biomembranes can endow nanocomposites with different capabilities, such as good biocompatibility, extended circulation time, homologous tumor or inflammation targeting, and enhanced BBB penetration, facilitating efficient monitoring of disease progression, accurate differentiation of tumor tissues, and significant improvement of anti‐tumor effectiveness [13] …”
Section: Introductionmentioning
confidence: 99%