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Cancer therapeutics based on diverse energy sources
Chemical Society Reviews ( IF 40.4 ) Pub Date : 2022-09-07 , DOI: 10.1039/d2cs00102k Subin Son 1 , Jungryun Kim 1 , Jaewon Kim 1 , Byungkook Kim 1 , Jieun Lee 1 , Yuri Kim 2 , Mingle Li 1 , Heemin Kang 2 , Jong Seung Kim 1
Chemical Society Reviews ( IF 40.4 ) Pub Date : 2022-09-07 , DOI: 10.1039/d2cs00102k Subin Son 1 , Jungryun Kim 1 , Jaewon Kim 1 , Byungkook Kim 1 , Jieun Lee 1 , Yuri Kim 2 , Mingle Li 1 , Heemin Kang 2 , Jong Seung Kim 1
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Light-based phototherapy has been developed for cancer treatment owing to its non-invasiveness and spatiotemporal control. Despite the unique merits of phototherapy, one critical disadvantage of light is its limited penetration depth, which restricts its application in cancer treatment. Although many researchers have developed various strategies to deliver light into deep-seated tumors with two-photon and near-infrared light irradiation, phototherapy encounters the peculiar limitations of light. In addition, high oxygen dependency is another limitation of photodynamic therapy to treat hypoxic tumors. To overcome the drawbacks of conventional treatments, various energy sources have been developed for cancer treatment. Generally, most energy sources, such as ultrasound, chemiluminescence, radiation, microwave, electricity, and magnetic field, are relatively free from the restraint of penetration depth. Combining other strategies or therapies with other energy-source-based therapies improves the strength and compensates for the weakness. This tutorial review focuses on recent advances in the diverse energy sources utilized in cancer treatment and their future perspectives.
中文翻译:
基于多种能源的癌症疗法
由于其非侵入性和时空控制,基于光的光疗法已被开发用于癌症治疗。尽管光疗具有独特的优点,但光的一个关键缺点是其穿透深度有限,这限制了其在癌症治疗中的应用。尽管许多研究人员已经开发出各种策略,通过双光子和近红外光照射将光传递到深层肿瘤,但光疗遇到了光的特殊限制。此外,高氧依赖性是光动力疗法治疗缺氧肿瘤的另一个限制。为了克服常规治疗的缺点,已经开发了各种用于癌症治疗的能源。一般来说,大多数能源,如超声波、化学发光、辐射、微波、电和磁场,相对不受穿透深度的限制。将其他策略或疗法与其他基于能量的疗法相结合,可以增强力量并弥补弱点。本教程回顾侧重于癌症治疗中使用的各种能源的最新进展及其未来前景。
更新日期:2022-09-07
中文翻译:
基于多种能源的癌症疗法
由于其非侵入性和时空控制,基于光的光疗法已被开发用于癌症治疗。尽管光疗具有独特的优点,但光的一个关键缺点是其穿透深度有限,这限制了其在癌症治疗中的应用。尽管许多研究人员已经开发出各种策略,通过双光子和近红外光照射将光传递到深层肿瘤,但光疗遇到了光的特殊限制。此外,高氧依赖性是光动力疗法治疗缺氧肿瘤的另一个限制。为了克服常规治疗的缺点,已经开发了各种用于癌症治疗的能源。一般来说,大多数能源,如超声波、化学发光、辐射、微波、电和磁场,相对不受穿透深度的限制。将其他策略或疗法与其他基于能量的疗法相结合,可以增强力量并弥补弱点。本教程回顾侧重于癌症治疗中使用的各种能源的最新进展及其未来前景。
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