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首页> 外文会议>Optical Methods for Tumor Treatment and Detection: Mechanisms and Techniques in Photodynamic Therapy XIV; Progress in Biomedical Optics and Imaging; vol.6 no.4 >Reaction dynamics during pulsed light activation of ATX-S10·Na(Ⅱ)- sensitized cell cultures: Analysis based on fluorescence-oxygen diagram
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Reaction dynamics during pulsed light activation of ATX-S10·Na(Ⅱ)- sensitized cell cultures: Analysis based on fluorescence-oxygen diagram

机译:ATX-S10·Na(Ⅱ)敏化细胞培养物脉冲光活化过程中的反应动力学:基于荧光-氧气图的分析

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To elucidate the mechanism of photosensitization with pulsed light excitation, we previously introduced fluorescence-oxygen diagram that shows the correlation between photochemical oxygen consumption and photobleaching during a treatment (Kawauchi et al, Photochem. PhotobioL, 80, 216-223, 2004). In pulsed photodynamic treatment of A549 cells with ATX-S10-Na(II), the diagrams for treatments at relatively high repetition rates of 10 and 30 Hz showed the complex behaviors of photochemical reaction; photobleaching initially occurred with oxygen consumption but it was switched to oxygen-independent photobleaching, which was followed by a secondary oxygen-consuming regime. In this study, fluorescence microscopy revealed that for treatments at 10 and 30 Hz, subcellular fluorescence distribution of ATX-S10-Na(Ⅱ) changed drastically from the high-intensity spotty patterns showing lysosomal accumulation to the diffusive patterns within the cytosol during certain ranges of total light dose. These ranges were found to coincide with those in which oxygen-independent reaction appeared. These findings suggest that the sensitizer started to be redistributed from lysosomes to the cytosol during the oxygen-independent reaction regime. On the other hand, at 5 Hz, such reaction switching was not clearly seen during whole irradiation period in the diagram; this was consistent with the observation that sensitizer redistribution efficiently occurred even in the early phase of irradiation. The appearance of oxygen-independent reaction at the higher repetition rates may be caused by high local concentration of the sensitizer and the resultant low concentration of oxygen in the reaction sites due to the shorter pulse-to-pulse time intervals. In pulsed photodynamic treatment, pulse frequency is an important parameter that affects the intracellular kinetics of the sensitizer and hence the photochemical reaction dynamics.
机译:为了阐明脉冲光激发引起的光敏化机理,我们先前引入了荧光-氧图,该图显示了在治疗过程中光化学耗氧量与光漂白之间的相关性(Kawauchi et al,Photochem。PhotobioL,80,216-223,2004)。在用ATX-S10-Na(II)对A549细胞进行脉冲光动力处理时,以相对较高的10和30 Hz重复频率进行处理的图表显示了光化学反应的复杂行为。光漂白最初是在消耗氧气的情况下发生的,但后来切换到了与氧气无关的光漂白,然后进行了第二耗氧方案。在这项研究中,荧光显微镜显示,在10和30 Hz的处理下,ATX-S10-Na(Ⅱ)的亚细胞荧光分布在一定范围内从显示溶酶体积累的高强度斑点模式急剧改变为胞浆内的扩散模式。总光剂量。发现这些范围与出现不依赖氧的反应的范围一致。这些发现表明,在与氧无关的反应过程中,敏化剂开始从溶酶体重新分布到细胞质中。另一方面,在5Hz下,在图中的整个照射期间没有清楚地看到这样的反应切换。这与敏化剂再分配有效地发生的观察一致,即使在辐射的早期也是如此。较高的重复速率下出现的非氧依赖性反应的出现可能是由于敏化剂的高局部浓度以及由于较短的脉冲间时间间隔而导致的反应部位中较低的氧浓度引起的。在脉冲光动力治疗中,脉冲频率是影响敏化剂细胞内动力学并因此影响光化学反应动力学的重要参数。

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