Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration

Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration

Abstract Osteosarcoma (OS) is the primary malignant bone tumor. Despite therapeutic strategies including surgery, chemotherapy, and radiotherapy have been introduced into the war of fighting OS, the 5‐year survival rate for patients still remains unchangeable for decades. Besides, the critical bone...

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Main Authors: Chao He, Caihong Dong, Luodan Yu, Yu Chen, Yongqiang Hao
Format: Article
Language:English
Published: Wiley 2021-10-01
Series:Advanced Science
Subjects:
3D‐printing
Egyptian blue
osteogenesis
osteosarcoma
photonic hyperthermia
Online Access:https://doi.org/10.1002/advs.202101739
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spelling doaj-0cb91e16d62349e880990177af10f5422021-10-08T09:03:06ZengWileyAdvanced Science2198-38442021-10-01819n/an/a10.1002/advs.202101739Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone RegenerationChao He0Caihong Dong1Luodan Yu2Yu Chen3Yongqiang Hao4Shanghai Key Laboratory of Orthopedic Implants Department of Orthopedic Surgery Clinical and Translational Research Center for 3D Printing Technology Shanghai Ninth People's Hospital Shanghai Jiao Tong University School of Medicine Shanghai 200011 ChinaDepartment of Ultrasound Zhongshan Hospital Fudan University Shanghai 200032 ChinaMaterdicine Lab School of Life Sciences Shanghai University Shanghai 200444 ChinaMaterdicine Lab School of Life Sciences Shanghai University Shanghai 200444 ChinaShanghai Key Laboratory of Orthopedic Implants Department of Orthopedic Surgery Clinical and Translational Research Center for 3D Printing Technology Shanghai Ninth People's Hospital Shanghai Jiao Tong University School of Medicine Shanghai 200011 ChinaAbstract Osteosarcoma (OS) is the primary malignant bone tumor. Despite therapeutic strategies including surgery, chemotherapy, and radiotherapy have been introduced into the war of fighting OS, the 5‐year survival rate for patients still remains unchangeable for decades. Besides, the critical bone defects after surgery, drug‐resistance and side effects also attenuate the therapeutic effects and predict poor prognosis. Recently, photothermal therapy (PTT) has attracted extensive attention featuring minimal invasiveness and high spatial‐temporal precision characteristics. Herein, an ultrathin 2D inorganic ancient pigment Egyptian blue decorated 3D‐printing scaffold (CaPCu) with profound PTT efficacy at the second near‐infrared (NIR‐II) biowindow against OS and enhanced osteogenesis performance is successfully constructed. Importantly, this work uncovers the underlying biological mechanisms that genes associated with cell death, proliferation, and bone development are regulated by CaPCu‐scaffold‐based therapy. This work not only elucidates the fascinating clinical translation prospects of CaPCu‐scaffold‐based PTT against OS in NIR‐II biowindow, but also demonstrates the potential mechanisms and offers a novel strategy to develop the next‐generation, multifunctional tissue‐engineering biomaterials.https://doi.org/10.1002/advs.2021017393D‐printingEgyptian blueosteogenesisosteosarcomaphotonic hyperthermia
collection DOAJ
language English
format Article
sources DOAJ
author Chao He
Caihong Dong
Luodan Yu
Yu Chen
Yongqiang Hao
spellingShingle Chao He
Caihong Dong
Luodan Yu
Yu Chen
Yongqiang Hao
Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration
Advanced Science
3D‐printing
Egyptian blue
osteogenesis
osteosarcoma
photonic hyperthermia
author_facet Chao He
Caihong Dong
Luodan Yu
Yu Chen
Yongqiang Hao
author_sort Chao He
title Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration
title_short Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration
title_full Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration
title_fullStr Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration
title_full_unstemmed Ultrathin 2D Inorganic Ancient Pigment Decorated 3D‐Printing Scaffold Enables Photonic Hyperthermia of Osteosarcoma in NIR‐II Biowindow and Concurrently Augments Bone Regeneration
title_sort ultrathin 2d inorganic ancient pigment decorated 3d‐printing scaffold enables photonic hyperthermia of osteosarcoma in nir‐ii biowindow and concurrently augments bone regeneration
publisher Wiley
series Advanced Science
issn 2198-3844
publishDate 2021-10-01
description Abstract Osteosarcoma (OS) is the primary malignant bone tumor. Despite therapeutic strategies including surgery, chemotherapy, and radiotherapy have been introduced into the war of fighting OS, the 5‐year survival rate for patients still remains unchangeable for decades. Besides, the critical bone defects after surgery, drug‐resistance and side effects also attenuate the therapeutic effects and predict poor prognosis. Recently, photothermal therapy (PTT) has attracted extensive attention featuring minimal invasiveness and high spatial‐temporal precision characteristics. Herein, an ultrathin 2D inorganic ancient pigment Egyptian blue decorated 3D‐printing scaffold (CaPCu) with profound PTT efficacy at the second near‐infrared (NIR‐II) biowindow against OS and enhanced osteogenesis performance is successfully constructed. Importantly, this work uncovers the underlying biological mechanisms that genes associated with cell death, proliferation, and bone development are regulated by CaPCu‐scaffold‐based therapy. This work not only elucidates the fascinating clinical translation prospects of CaPCu‐scaffold‐based PTT against OS in NIR‐II biowindow, but also demonstrates the potential mechanisms and offers a novel strategy to develop the next‐generation, multifunctional tissue‐engineering biomaterials.
topic 3D‐printing
Egyptian blue
osteogenesis
osteosarcoma
photonic hyperthermia
url https://doi.org/10.1002/advs.202101739
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AT caihongdong ultrathin2dinorganicancientpigmentdecorated3dprintingscaffoldenablesphotonichyperthermiaofosteosarcomainniriibiowindowandconcurrentlyaugmentsboneregeneration
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AT yuchen ultrathin2dinorganicancientpigmentdecorated3dprintingscaffoldenablesphotonichyperthermiaofosteosarcomainniriibiowindowandconcurrentlyaugmentsboneregeneration
AT yongqianghao ultrathin2dinorganicancientpigmentdecorated3dprintingscaffoldenablesphotonichyperthermiaofosteosarcomainniriibiowindowandconcurrentlyaugmentsboneregeneration
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