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低温プラズマおよびハイパーサーミア併用効果を用いたがん治療の可能性 使用低温等离子体和hypersurmia联合治疗癌症的可能性
Thermal Medicine
Pub Date : 2023-09-30 DOI: 10.3191/thermalmed.39.21
TAKASHI KONDO, HIROSHI HASHIZUME, HIROMASA TANAKA, KENJI ISHIKAWA, JUN-ICHI SAITOH, MASARU HORI
Low temperature plasma (LTP) has been proposed as a novel therapeutic method for its anti-cancer potential. However, its biological effects in combination with other physical modalities remain to be elusive. Therefore, this study was aimed to determine the effects of low temperature helium plasma (He-LTP) in combination with mild hyperthermia (HT, 42℃ for 20 min). Human lymphoma U937 cells were exposed to HT, immediately after He-LTP treatment. He-LTP in combination with HT showed enhanced cell death, which was accompanied by increased intracellular reactive oxygen species (ROS) production. These findings suggest that He-LTP can enhance the apoptotic effects of mild HT due to the increased in intracellular ROS generation as He-LTP has been known to caused marked induction of ROS in the aqueous medium. These findings would be helpful when establishing a therapeutic strategy for LTP in combination with mild HT. Here, the biological effects of LTP, and the combination with hyperthermia and LTP or LTP -activated solutions for cancer therapy have been summarized in this review.
低温等离子体(LTP)因其抗癌潜力而被提出作为一种新的治疗方法。然而,其生物效应与其他物理模式的结合仍然是难以捉摸的。因此,本研究旨在探讨低温氦等离子体(He-LTP)联合轻度热疗(HT, 42℃,20 min)的效果。人淋巴瘤U937细胞在He-LTP治疗后立即暴露于HT。He-LTP联合HT可增强细胞死亡,并伴有细胞内活性氧(ROS)产生的增加。这些发现表明,He-LTP可以通过增加细胞内ROS的生成来增强轻度HT的凋亡作用,因为已知He-LTP在水介质中引起明显的ROS诱导。这些发现将有助于建立LTP联合轻度HT的治疗策略。本文就LTP的生物学效应以及与热疗、LTP或LTP活化溶液联合治疗癌症进行综述。
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引用次数: 0
前立腺肥大症による中等度から重度の下部尿路症状に対する水蒸気温熱治療の多施設ランダム化偽対照比較試験の最終5年間の結果 多中心随机对照假对照试验最后5年的结果显示,水蒸气温热治疗由前列腺肥大症引起的中度至重度下尿路症状
Thermal Medicine
Pub Date : 2023-09-30 DOI: 10.3191/thermalmed.39.31
NORIYASU KAWAI
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引用次数: 0
Discovery of Mammalian HSP40 and Subsequent Progress 哺乳动物HSP40的发现及其进展
Thermal Medicine
Pub Date : 2023-06-30 DOI: 10.3191/thermalmed.39.3
K. Ohtsuka
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引用次数: 0
温度と光を感知し相分離する色素タンパク質フィトクロムB 感知温度和光并相互分离的色素蛋白质植物色素B
Thermal Medicine
Pub Date : 2023-03-31 DOI: 10.3191/thermalmed.39.1
Eiichiro Mori
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引用次数: 0
Engineering of Probiotic Bacteria System for the Temperature-sensitive Production of Immune Checkpoint Blockade Nanobodies by Intratumor Heating with Focused Ultrasound 肿瘤内聚焦超声加热温度敏感生产免疫检查点阻断纳米体的益生菌系统工程
Thermal Medicine
Pub Date : 2022-12-28 DOI: 10.3191/thermalmed.38.72
R. Suzuki
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引用次数: 0
Photoimmunotherapy for Head and Neck Cancer 头颈癌的光免疫疗法
Thermal Medicine
Pub Date : 2022-12-28 DOI: 10.3191/thermalmed.38.71
K. Mitsudo
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引用次数: 0
Trends in Temperature Estimation around Main Blood Vessel 主血管周围温度估计的趋势
Thermal Medicine
Pub Date : 2022-12-28 DOI: 10.3191/thermalmed.38.75
Y. Iseki
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引用次数: 0
Study on the Relationship between Structure and Function of Iron Oxide Nanoflowers for Efficient Hyperthermia 高效热疗用氧化铁纳米花结构与功能关系的研究
Thermal Medicine
Pub Date : 2022-10-01 DOI: 10.3191/thermalmed.38.68
M. Kaneko, A. Ito
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引用次数: 0
In Vivo Evaluation of Oxidized Multiwalled-carbon Nanotubes-mediated Hyperthermia Treatment for Breast Cancer 氧化多壁碳纳米管介导的热疗治疗乳腺癌的体内评价
Thermal Medicine
Pub Date : 2022-10-01 DOI: 10.3191/thermalmed.38.63
Takashi Kondo, J. Saitoh
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引用次数: 0
Long-term Experience with RF-CHT for NMIMC 长期从事NMIMC的RF-CHT工作
Thermal Medicine
Pub Date : 2022-10-01 DOI: 10.3191/thermalmed.38.66
N. Kawai
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引用次数: 0
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