W
Wen Li
Researcher at Tianjin University
Publications - 5
Citations - 127
Wen Li is an academic researcher from Tianjin University. The author has contributed to research in topics: Cancer & Apoptosis. The author has an hindex of 4, co-authored 5 publications receiving 34 citations.
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Journal ArticleDOI
Mutual-reinforcing sonodynamic therapy against Rheumatoid Arthritis based on sparfloxacin sonosensitizer doped concave-cubic rhodium nanozyme.
TL;DR: Wang et al. as mentioned in this paper developed a sonosensitizer spafloxacin (SPX) doped and human serum albumin (HSA) loaded concave-cubic rhodium (Rh) nanozyme to realize mutual-reinforcing sonodynamic therapy during ultrasonic activation.
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Exo/endogenous dual-augmented chemodynamic therapy based on bio-reducible and bio-breakable copper (II)-based truncated octahedron
Wen Li,Siyu Wang,Chuchu Ren,Ping Liu,Qianglan Lu,Lifang Yang,Yilin Song,Min Xu,Fengping Tan,Meng Yu,Nan Li +10 more
TL;DR: Overall, both cellular and animal experiments show that CuO@AuCu-TPP nanocarriers exhibit excellent therapeutic efficacy and low systemic toxicity, which may hold great application prospects in dual-augmented chemodynamic cancer treatment.
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Ultra-small Bi2S3 nanodot-doped reversible Fe(II/III)-based hollow mesoporous Prussian blue nanocubes for amplified tumor oxidative stress-augmented photo-/radiotherapy
Chuchu Ren,Yu Cheng,Wen Li,Ping Liu,Lifang Yang,Qianglan Lu,Min Xu,Fengping Tan,Jiao Li,Nan Li +9 more
TL;DR: A reversible HMPB/Bi2S3 nanocube is a promising therapeutic agent for amplified tumor oxidative stress to augment photo-/radiotherapy, which might show further applications in nanomedical science.
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NIR-II driven plasmon-enhanced cascade reaction for tumor microenvironment-regulated catalytic therapy based on bio-breakable Au–Ag nanozyme
Min Xu,Qianglan Lu,Yiling Song,Lifang Yang,Chuchu Ren,Wen Li,Ping Liu,Yule Wang,Yan Zhu,Nan Li +9 more
TL;DR: The NIR-II driven plasmon-enhanced catalytic mechanism of this bio-breakable nanozyme provides a promising approach for the development of nanozymes in tumor therapy.
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Boosted photocatalytic activity induced NAMPT-Regulating therapy based on elemental bismuth-humic acids heterojunction for inhibiting tumor proliferation/migration/inflammation.
Yilin Song,Lifang Yang,Min Xu,Qianglan Lu,Wen Li,Chuchu Ren,Ping Liu,Yule Wang,Yan Zhu,Fengping Tan,Nan Li +10 more
TL;DR: The boosted photocatalytic activity induced NAMPT-regulating therapy offers a promising way to address the important issue of penetration depth limitation induced cancer relapse and migration, providing more possibilities toward successful clinical application.