TitleRecent progresses on radiotherapeutics-based treatment of cancer with two-dimensional nanomaterials
AuthorsLuo, Guanghong
Li, Zihuang
Zheng, Jiezhou
Yang, Hongli
Li, Xianming
Xiao, Guishan
Duo, Yanhong
AffiliationJinan Univ, Clin Med Coll 2, Dept Radiat Oncol, Shenzhen Peoples Hosp, Jinan, Peoples R China
Southern Univ Sci & Technol, Affiliated Hosp 1, Shenzhen 518020, Guangdong, Peoples R China
Karolinska Inst, Dept Microbiol Tumor & Cell Biol MTC, Stockholm, Sweden
Peking Univ, Dept Sports Med & Rehabil, Shenzhen Hosp, Shenzhen 518036, Guangdong, Peoples R China
Dalian Univ Technol, Sch Pharmaceut Sci, Dalian, Peoples R China
KeywordsNEUTRON-CAPTURE THERAPY
MODULATED RADIATION-THERAPY
BREAST-CONSERVING SURGERY
UP-CONVERSION NANOPARTICLES
ENDOTHELIAL GROWTH-FACTOR
HIGH-DOSE METHOTREXATE
NEAR-INFRARED LIGHT
IN-SITU VACCINATION
TUMOR MICROENVIRONMENT
PHOTOTHERMAL THERAPY
Issue DateDec-2022
PublisherAPPLIED MATERIALS TODAY
AbstractRadiotherapy (RT) is among the most prevalent approaches to cancer treatment, yet it also causes severe side effects in patients that limit its efficacy and application. In recent decades, researchers have therefore been exploring nanoradio-sensitization strategies with the goal of providing safer and more effective therapy to those in need. In this context, there has been substantial recent interests in a range of two-dimensional (2D) nano -materials exhibiting unique structural, physiochemical, optical, thermal, chemical and X-ray attenuation prop-erties, which can be leveraged to prepare tunable nanoplatforms for therapeutic drug, gene, and biomedical agent delivery to achieve exciting therapeutic treatments. The multifunctional properties of these nanomaterials can also enhance the overall efficacy of RT. Moreover, by integrating 2D nanomaterials with other functional nanomaterials could realize the goal of bioimaging-guided radio-related theranostics synergistically. Despite major advances in this field in the past decade, however, there have been few systematic reviews discussing 2D nanomaterial-based RT strategies to date. This review was therefore formulated to comprehensively discuss such strategies in three parts. First, the introduction and limitations of conventional RT are discussed. Then, efforts to use 2D nanomaterials to improve RT efficacy are summarized. Next, novel 2D nanomaterial-based synergistic strategies are surveyed, with a discussion of membrane-functionalized 2D nanomaterials and the effects of these materials on cellular metabolic activities. Lastly, the limitations and future clinical prospects associated with this field are discussed.
URIhttp://hdl.handle.net/20.500.11897/650304
ISSN2352-9407
DOI10.1016/j.apmt.2022.101584
IndexedSCI(E)
Appears in Collections:深圳医院

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