Photothermal therapy is a technique which utilizes light-absorbing materials and converts light energy into heat energy to damage tumor cells. In particular, near-infrared region starts from 800 to 2500nm is used to induce cell death through photothermal effect. To achieve efficient heat production ...
Photothermal therapy studies for cancer treatment both in vitro and in vivo will be discussed, including the functionalization of the nanotubes for targeting and also the in vivo coadministration of other agents such as antibodies to stimulate the immune system and thereby increase the therapeutic ...
Qianqian Zhang1, Yingke Miao1, Kexin Qiu2, Yanzhong Zhang1 & Chuanglong He1 Photothermal cancer therapy has attracted considerable interest for cancer treatment in recent years, but the effective photothermal agents remain to be explored before this strategy can be applied clinically. ...
Photothermal therapy is a local treatment modality that involves using electromagnetic radiation to convert energy into heat, which is then used to increase the temperature of the environment to induce cell death, particularly in cancerous cells. ...
cancerhydrogenated black TiO2photothermal therapyPEG-coated hydrogenated black TiO2 nanoparticles are first reported as a novel agent for cancer photothermal therapy by D. Wang, A. Wu, and colleagues on page 1526. The findings demonstrate that near infrared laser-triggered nanoparticles exhibit high ...
3) treatment for cancer 癌症治疗 1. In this paper, the application and research progresses in treatment for cancer are introduced. 本文将主要阐述纳米科技在癌症治疗中的应用及研究进展情况。 更多例句>> 4) cancer therapy 癌症治疗 1. Recombinant antibody engineering and its applications in tumor ...
Nanotechnologies for Photothermal and Immuno Cancer Therapy: Advanced Strategies Using Copper Sulfide Nanoparticles and Bacterium-Mimicking Liposomes for E... With the understanding of the synergistic mechanism behind the photothermal immunotherapy, more effective therapeutic strategy will be developed to treat...
Induction of ICD presents a therapeutic modality for cancer treatment, which is attributed to its ability of allowing the immune system to eradicate cancer cells through a “bystander effect”33,34. Since severe and focused ER stress is essential for ICD, most chemotherapy, radiotherapy, and non-...
Sangyong Jon, a professor in the Department of Biological Sciences at KAIST, and his team developed combined photoacoustic imaging and photothermal therapy for cancer by using Bilirubin (BR) nanoparticles.
Sangyong Jon, a professor in the Department of Biological Sciences at KAIST, and his team developed combined photoacoustic imaging and photothermal therapy for cancer by using Bilirubin (BR) nanoparticles.