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W4313275335 abstract "Abstract Indocyanine green (ICG), glucose oxidase (GOx), and copper(II) sulfate (Cu)‐installed hybrid gel based on organic nanorod (cellulose nanocrystal [CNC]) and inorganic nanodisk (Laponite [LAP]) was developed to perform a combination of starvation therapy (ST), chemodynamic therapy (CDT), and photothermal therapy (PTT) for localized cancers. A hybrid CNC/LAP network with a nematic phase was designed to enable instant gelation, controlled viscoelasticity, syringe injectability, and longer in vivo retention. Moreover, ICG was introduced into the CNC/LAP gel system to induce hyperthermia of tumor tissue, amplifying the CDT effect; GOx was used for glucose deprivation (related to the Warburg effect); and Cu was introduced for hydroxyl radical generation (based on Fenton‐like chemistry) and cellular glutathione (GSH) degradation in cancer cells. The ICG/GOx/Cu‐installed CNC/LAP gel in combination with near‐infrared (NIR) laser realized improved antiproliferation, cellular reactive oxygen species (ROS) generation, cellular GSH degradation, and apoptosis induction in colorectal cancer (CT‐26) cells. In addition, local injection of the CNC/ICG/GOx/Cu/LAP gel into the implanted CT‐26 tumor while irradiating it with NIR laser provided strong tumor growth suppression effects. In conclusion, the designed hybrid nanorod/nanodisk gel network can be efficiently applied to the local PTT/ST/CDT of cancer cells." @default.
W4313275335 created "2023-01-06" @default.
W4313275335 creator A5033556831 @default.
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W4313275335 date "2022-12-15" @default.
W4313275335 modified "2023-10-09" @default.
W4313275335 title "Nanorod/nanodisk‐integrated liquid crystalline systems for starvation, chemodynamic, and photothermal therapy of cancer" @default.
W4313275335 cites W1968927007 @default.
W4313275335 cites W1982041674 @default.
W4313275335 cites W1986985221 @default.
W4313275335 cites W1992900987 @default.
W4313275335 cites W1994096002 @default.
W4313275335 cites W2005429766 @default.
W4313275335 cites W2009677760 @default.
W4313275335 cites W2077500860 @default.
W4313275335 cites W2102924096 @default.
W4313275335 cites W2123076457 @default.
W4313275335 cites W2312493969 @default.
W4313275335 cites W2312941501 @default.
W4313275335 cites W2337094682 @default.
W4313275335 cites W2519287405 @default.
W4313275335 cites W2583024444 @default.
W4313275335 cites W2617080421 @default.
W4313275335 cites W2618020662 @default.
W4313275335 cites W2626469921 @default.
W4313275335 cites W2626956403 @default.
W4313275335 cites W2761919510 @default.
W4313275335 cites W2804296112 @default.
W4313275335 cites W2850915955 @default.
W4313275335 cites W2883440571 @default.
W4313275335 cites W2884436066 @default.
W4313275335 cites W2884605745 @default.
W4313275335 cites W2897713833 @default.
W4313275335 cites W2904072085 @default.
W4313275335 cites W2909301717 @default.
W4313275335 cites W2910507574 @default.
W4313275335 cites W2915061266 @default.
W4313275335 cites W2916774642 @default.
W4313275335 cites W2924970449 @default.
W4313275335 cites W2943786923 @default.
W4313275335 cites W2945095184 @default.
W4313275335 cites W2968298070 @default.
W4313275335 cites W2981477186 @default.
W4313275335 cites W2985055119 @default.
W4313275335 cites W2990420326 @default.
W4313275335 cites W3000455918 @default.
W4313275335 cites W3006554785 @default.
W4313275335 cites W3011273160 @default.
W4313275335 cites W3016005031 @default.
W4313275335 cites W3016052010 @default.
W4313275335 cites W3016821612 @default.
W4313275335 cites W3019753952 @default.
W4313275335 cites W3022612854 @default.
W4313275335 cites W3022988391 @default.
W4313275335 cites W3023577387 @default.
W4313275335 cites W3035242014 @default.
W4313275335 cites W3036260592 @default.
W4313275335 cites W3036793789 @default.
W4313275335 cites W3049411042 @default.
W4313275335 cites W3084621691 @default.
W4313275335 cites W3104479951 @default.
W4313275335 cites W3105302818 @default.
W4313275335 cites W3105846522 @default.
W4313275335 cites W3119846021 @default.
W4313275335 cites W3120731866 @default.
W4313275335 cites W3122882050 @default.
W4313275335 cites W3124205635 @default.
W4313275335 cites W3145172964 @default.
W4313275335 cites W3158142395 @default.
W4313275335 cites W3163027965 @default.
W4313275335 cites W3188024260 @default.
W4313275335 cites W3190743924 @default.
W4313275335 cites W3193317288 @default.
W4313275335 cites W3208486179 @default.
W4313275335 cites W3217805896 @default.
W4313275335 cites W418642964 @default.
W4313275335 cites W4206370895 @default.
W4313275335 cites W4214813824 @default.
W4313275335 cites W4220761272 @default.
W4313275335 cites W4224981248 @default.
W4313275335 cites W4280534790 @default.
W4313275335 cites W4285729168 @default.
W4313275335 cites W4295806042 @default.
W4313275335 doi "https://doi.org/10.1002/btm2.10470" @default.
W4313275335 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37693066" @default.
W4313275335 hasPublicationYear "2022" @default.
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