The Experts below are selected from a list of 1059 Experts worldwide ranked by ideXlab platform
Xiaodong Zhang - One of the best experts on this subject based on the ideXlab platform.
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catalytic ptpd bimetal nanocrystals with high index facets for Radiation Injury Repair
Chinese Chemical Letters, 2020Co-Authors: Wei Long, Jingya Wang, Junying Wang, Yuanming Sun, Xiaodong ZhangAbstract:Abstract Radiotherapy is one of the most important clinical cancer treatments, which works mainly by delivering a prescribed Radiation dose to the tumor tissues. However, high doses of Radiation may also lead many irreversible damages to the surrounding normal tissues. Thereby, how to effectively reduce these side-effects has been a significant factor in influencing cancer therapeutic effect. In this work, we synthesized the hollow PtPd nanocubes with high-index facets, and investigated the Radiation protection capability in vitro and in vivo. Our results showed the PtPd nanocrystals can decrease the ROS level and improve the survival rate of radiated cells. Meanwhile, survival rate of radiated mice can significantly increase from 0 to 30% after PtPd treatment. Consequently, the enzyme and ROS level in radiated mice can be recovered.
Wei Long - One of the best experts on this subject based on the ideXlab platform.
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catalytic ptpd bimetal nanocrystals with high index facets for Radiation Injury Repair
Chinese Chemical Letters, 2020Co-Authors: Wei Long, Jingya Wang, Junying Wang, Yuanming Sun, Xiaodong ZhangAbstract:Abstract Radiotherapy is one of the most important clinical cancer treatments, which works mainly by delivering a prescribed Radiation dose to the tumor tissues. However, high doses of Radiation may also lead many irreversible damages to the surrounding normal tissues. Thereby, how to effectively reduce these side-effects has been a significant factor in influencing cancer therapeutic effect. In this work, we synthesized the hollow PtPd nanocubes with high-index facets, and investigated the Radiation protection capability in vitro and in vivo. Our results showed the PtPd nanocrystals can decrease the ROS level and improve the survival rate of radiated cells. Meanwhile, survival rate of radiated mice can significantly increase from 0 to 30% after PtPd treatment. Consequently, the enzyme and ROS level in radiated mice can be recovered.
Jingya Wang - One of the best experts on this subject based on the ideXlab platform.
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catalytic ptpd bimetal nanocrystals with high index facets for Radiation Injury Repair
Chinese Chemical Letters, 2020Co-Authors: Wei Long, Jingya Wang, Junying Wang, Yuanming Sun, Xiaodong ZhangAbstract:Abstract Radiotherapy is one of the most important clinical cancer treatments, which works mainly by delivering a prescribed Radiation dose to the tumor tissues. However, high doses of Radiation may also lead many irreversible damages to the surrounding normal tissues. Thereby, how to effectively reduce these side-effects has been a significant factor in influencing cancer therapeutic effect. In this work, we synthesized the hollow PtPd nanocubes with high-index facets, and investigated the Radiation protection capability in vitro and in vivo. Our results showed the PtPd nanocrystals can decrease the ROS level and improve the survival rate of radiated cells. Meanwhile, survival rate of radiated mice can significantly increase from 0 to 30% after PtPd treatment. Consequently, the enzyme and ROS level in radiated mice can be recovered.
Junying Wang - One of the best experts on this subject based on the ideXlab platform.
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catalytic ptpd bimetal nanocrystals with high index facets for Radiation Injury Repair
Chinese Chemical Letters, 2020Co-Authors: Wei Long, Jingya Wang, Junying Wang, Yuanming Sun, Xiaodong ZhangAbstract:Abstract Radiotherapy is one of the most important clinical cancer treatments, which works mainly by delivering a prescribed Radiation dose to the tumor tissues. However, high doses of Radiation may also lead many irreversible damages to the surrounding normal tissues. Thereby, how to effectively reduce these side-effects has been a significant factor in influencing cancer therapeutic effect. In this work, we synthesized the hollow PtPd nanocubes with high-index facets, and investigated the Radiation protection capability in vitro and in vivo. Our results showed the PtPd nanocrystals can decrease the ROS level and improve the survival rate of radiated cells. Meanwhile, survival rate of radiated mice can significantly increase from 0 to 30% after PtPd treatment. Consequently, the enzyme and ROS level in radiated mice can be recovered.
Yuanming Sun - One of the best experts on this subject based on the ideXlab platform.
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catalytic ptpd bimetal nanocrystals with high index facets for Radiation Injury Repair
Chinese Chemical Letters, 2020Co-Authors: Wei Long, Jingya Wang, Junying Wang, Yuanming Sun, Xiaodong ZhangAbstract:Abstract Radiotherapy is one of the most important clinical cancer treatments, which works mainly by delivering a prescribed Radiation dose to the tumor tissues. However, high doses of Radiation may also lead many irreversible damages to the surrounding normal tissues. Thereby, how to effectively reduce these side-effects has been a significant factor in influencing cancer therapeutic effect. In this work, we synthesized the hollow PtPd nanocubes with high-index facets, and investigated the Radiation protection capability in vitro and in vivo. Our results showed the PtPd nanocrystals can decrease the ROS level and improve the survival rate of radiated cells. Meanwhile, survival rate of radiated mice can significantly increase from 0 to 30% after PtPd treatment. Consequently, the enzyme and ROS level in radiated mice can be recovered.