2019
DOI: 10.1002/cnma.201900572
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A Photo‐Stable Indocyanine Green and Rapamycin Co‐Delivery System Based on Poly(Glutamic Acid)‐Modified Manganese Phosphate for Synergetic Tumor Therapy

Abstract: Some manganese‐based nanomaterials quench the fluorescence of photosensitizers, which strongly quenches fluorescence emission and suppresses reactive oxygen species (ROS) production due to the photo‐induced charge transfer from the excited photosensitizer to nanomaterials. In this study, to overcome these disadvantages, amorphous porous manganese phosphate (MnP) nanoparticles are used for loading indocyanine green (ICG), and a broader ICG absorbance width instead of weakened fluorescence profile is observed, r… Show more

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Cited by 3 publications
(3 citation statements)
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“…Manganese-based nanomaterials hold excellent promise in multimodal and cancer therapy applications as MRI agents and drug delivery carriers benefiting from their degradable properties and tunable structures . Hao and colleagues developed a manganese-based nanoplatform for a combination of PDT and autophagy inhibitor for synergistic therapy . In this framework, ICG and the autophagy promotor RAPA were loaded in the pH-responsive porous manganese phosphate nanoparticles and coated with biocompatible poly­(glutamic acid).…”
Section: Nanoplatforms For Codelivery Of Icg and Therapeutic Agentsmentioning
confidence: 99%
See 1 more Smart Citation
“…Manganese-based nanomaterials hold excellent promise in multimodal and cancer therapy applications as MRI agents and drug delivery carriers benefiting from their degradable properties and tunable structures . Hao and colleagues developed a manganese-based nanoplatform for a combination of PDT and autophagy inhibitor for synergistic therapy . In this framework, ICG and the autophagy promotor RAPA were loaded in the pH-responsive porous manganese phosphate nanoparticles and coated with biocompatible poly­(glutamic acid).…”
Section: Nanoplatforms For Codelivery Of Icg and Therapeutic Agentsmentioning
confidence: 99%
“…97 Hao and colleagues developed a manganese-based nanoplatform for a combination of PDT and autophagy inhibitor for synergistic therapy. 98 In this framework, ICG and the autophagy promotor RAPA were loaded in the pHresponsive porous manganese phosphate nanoparticles and coated with biocompatible poly(glutamic acid). RAPA obviously enhanced the ICG-mediated phototherapy by autophagy regulation.…”
Section: Nanoplatforms For Codelivery Of Icg Andmentioning
confidence: 99%
“…Feng et al 76 utilized mesoporous zirconia co-delivered DOX and dichloroporphyrin e6. Hao et al 77 utilized amorphous porous manganese phosphate (MnP) nanoparticles loading ICG and an autophagy promoter rapamycin, further decorated with biocompatible poly(glutamic acid). These systems realized improved stability of photosensitizers to different extents.…”
Section: To Overcome the Bottleneck By Walking On Two Legsmentioning
confidence: 99%