Natural Chlorogenic Acid Planted Nanohybrids with Steerable Hyperthermia for Osteosarcoma Suppression and Bone Regeneration

Surgical resection is the most common approach for the treatment of osteosarcoma. However, two major complications, including residual tumor cells and large bone defects, often arise from the surgical resection of osteosarcoma. Discovering new strategies for programmatically solving the two above-me...

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Veröffentlicht in:Advanced healthcare materials 2023-09, Vol.12 (23), p.e2300325-e2300325
Hauptverfasser: Yang, Yu-Ying, Zheng, Yuan, Liu, Jun-Jin, Chang, Zhuang-Peng, Wang, Yue-Hua, Shao, Yun-Yun, Hou, Rui-Gang, Zhang, Xiao
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container_end_page e2300325
container_issue 23
container_start_page e2300325
container_title Advanced healthcare materials
container_volume 12
creator Yang, Yu-Ying
Zheng, Yuan
Liu, Jun-Jin
Chang, Zhuang-Peng
Wang, Yue-Hua
Shao, Yun-Yun
Hou, Rui-Gang
Zhang, Xiao
description Surgical resection is the most common approach for the treatment of osteosarcoma. However, two major complications, including residual tumor cells and large bone defects, often arise from the surgical resection of osteosarcoma. Discovering new strategies for programmatically solving the two above-mentioned puzzles has become a worldwide challenge. Herein, a novel one-step strategy is reported for natural phenolic acid planted nanohybrids with desired physicochemical properties and steerable photothermal effects for efficacious osteosarcoma suppression and bone healing. Nanohybrids are prepared based on the self-assembly of chlorogenic acid and gold nanorods through robust Au-catechol interface actions, featuring precise nanostructures, great water solubility, good stability, and adjustable hyperthermia generating capacity. As expected, on the one hand, these integrated nanohybrids can severely trigger apoptosis and suppress tumor growth with strong hyperthermia. On the other hand, with controllable mild NIR irradiation, the nanohybrids promote the expression of heat shock proteins and induce prominent osteogenic differentiation. This work initiates a brand-new strategy for assisting osteosarcoma surgical excision to resolve the blockage of residual tumor cells elimination and bone regeneration.
doi_str_mv 10.1002/adhm.202300325
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However, two major complications, including residual tumor cells and large bone defects, often arise from the surgical resection of osteosarcoma. Discovering new strategies for programmatically solving the two above-mentioned puzzles has become a worldwide challenge. Herein, a novel one-step strategy is reported for natural phenolic acid planted nanohybrids with desired physicochemical properties and steerable photothermal effects for efficacious osteosarcoma suppression and bone healing. Nanohybrids are prepared based on the self-assembly of chlorogenic acid and gold nanorods through robust Au-catechol interface actions, featuring precise nanostructures, great water solubility, good stability, and adjustable hyperthermia generating capacity. As expected, on the one hand, these integrated nanohybrids can severely trigger apoptosis and suppress tumor growth with strong hyperthermia. 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subjects Apoptosis
Bone cancer
Bone growth
Bone healing
Catechol
Chlorogenic acid
Controllability
Differentiation (biology)
Fever
Gold
Heat shock proteins
Hyperthermia
Interface stability
Nanorods
Near infrared radiation
Osteosarcoma
Phenolic acids
Physicochemical properties
Regeneration
Regeneration (physiology)
Sarcoma
Self-assembly
Tumor cells
Tumors
title Natural Chlorogenic Acid Planted Nanohybrids with Steerable Hyperthermia for Osteosarcoma Suppression and Bone Regeneration
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